Swi/snf family chromatin remodeling complexes and uses thereof

ABSTRACT

The present invention is based, in part, on the novel discovery of the architecture and assembly pathway of three different classes of mammalian SWI/SNF complexes, compositions comprising the isolated modified SWI/SNF complexes, and methods of screening for modulators of the function and/or stability of same.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the benefit of U.S. Provisional Application No. 62/746,956, filed on Oct. 17, 2018, the entire contents of said application are incorporated herein in their entirety by this reference.

STATEMENT OF RIGHTS

This invention was made with government support under grant numbers 1DP2CA195762-01, RO1 GM110064, and P50 GM076547 awarded by The National Institutes of Health. The U.S. government has certain rights in the invention.

LARGE FILES

The instant application includes the complete contents of the accompanying 12 lengthy tables, all of which are ASCII text files, as follows: Table 7A, submitted herewith as “Table 7A DPF2 Inter Crosslinks.txt”, created Oct. 16, 2018 and 519,369 bytes in size; Table 7B, submitted herewith as “Table 7B DPF2 Intra Crosslinks.txt”, created Oct. 16, 2018 and 754,625 bytes in size; Table 7C, submitted herewith as “Table 7C SS18 Inter Crosslinks.txt”, created Oct. 16, 2018 and 69,459 bytes in size; Table 7D, submitted herewith as “Table 7D SS18 Intra Crosslinks”, created Oct. 16, 2018 and 180,194 bytes in size; Table 9A, submitted herewith as “Table 9A S2 BAP60-HA Inter Crosslinks.txt”, created Oct. 16, 2018 and 63,413 bytes in size; Table 9B, submitted herewith as “Table 9B S2 BAP60-HA Intra Crosslinks.txt”, created Oct. 16, 2018 and 129,801 bytes in size; Table 9C, submitted herewith as “Table 9C S2 HA-D4 Inter Crosslinks.txt”, created Oct. 16, 2018 and 33,871 bytes in size; Table 9D, submitted herewith as “Table 9D S2 HA-D4 Intra Crosslinks.txt”, created Oct. 16, 2018 and 120,094 bytes in size; Table 10A, submitted herewith as “Table 10A HEK-293T BRD7 Inter Crosslinks.txt”, created Oct. 16, 2018 and 69,226 bytes in size; Table 10B, submitted herewith as “Table 10B HEK-293T BRD7 Intra Crosslinks.txt” created Oct. 16, 2018 and 226,791 bytes in size; Table 10C, submitted herewith as “Table 10C HEK-293T PHF10 Inter Crosslinks.txt” created Oct. 16, 2018 and 61,991 bytes in size; Table 10D, submitted herewith as “Table 10D HEK-293T PHF10 Intra Crosslinks.txt” created Oct. 16, 2018 and 201,558 bytes in size. All of these 12 tables are hereby incorporated by reference in their entireties.

BACKGROUND OF THE INVENTION

ATP-dependent chromatin remodeling complexes are multimeric molecular assemblies which use the energy of ATP hydrolysis to regulate chromatin architecture (Wu et al. (2009) Cell 136:200-206; Kadoch and Crabtree (2015) Sci Adv 1: e1500447; Masliah-Planchon et al. (2015) Annu Rev Pathol 10:145-171). These complexes are grouped into four major families, including SWI/SNF (switching (SWI) and sucrose fermentation (Sucrose Non Fermenting—SNF)), INO80 (Conaway and Conaway (2009) Trends Biochem Sci 34:71-77), ISWI (imitation SWI) (Bartholomew et al. (2014) Curr Opin Struct Blot 24:150-155), and CHD/M-2 (Chromodomain helicase DNA-binding) groups (Murawska et al. (2011) Transcription 2:244-253), all of which contain Snf2-like ATPase subunits, but differ substantially via the incorporation of distinct subunits and in their differential targeting and activity on nucleosomes (Dann et al. (2017) Nature 548:607-611; Clapier et al. (2017) Nat Rev Mol Cell Biol 18:407-422).

SWI/SNF complexes were originally discovered in yeast in screens for mating-type switching and sucrose fermentation (Winston et al. (1992) Trends Genet 8:387-391). These complexes were later characterized in Drosophila (Celenza et al. (2018) Mol Cell Biol 4:49-53; Dingwall et al. (1995) Mol Biol Cell 6:777-791) and more recently, in mammals (Ho et al. (2009) Proc Natl Acad Sci USA 106:5181-5186; Kadoch et al. (2013) Nature genetics 45:592-601). Over the course of evolution, these complexes have gained, lost, and shuffled subunits owing likely to the advent of multicellularity and genome duplication (Dehal et al. (2005) PLoS Biol 3:e314). In metazoans, SWI/SNF proteins belong to the trithorax group of transcriptional activators which oppose function of repressive polycomb group protein complexes through direct action on polycomb bodies and chromatin remodeling at both enhancer and promoter regions (Poynter et al. (2016) Wiley Interdiscip Rev Dev Biol 5:659-688). Mammalian SWI/SNF complexes are ˜1-1.5-MDa entities combinatorically assembled from the products of 29 genes, producing two known assemblies termed BAF (BRM/SWI2-Related Gene 1 (BRG1)-associated factors) and PBAF (PBRM1-associated BAF) (Hodges et al. (2016) Cold Spring Harb Perspect Med 6:doi:10.1101). Combinatorial diversity is generated by the presence of multiple paralogs for several subunit positions which assemble into complexes in a mutually exclusive manner (Helming et al. (2014) Nat Med 20:251-254; Hoffman et al. (2014) Proc Natl Acad Sci USA 111:3128-3133). All complexes bear an ATPase subunit, either SMARCA4 (BRG1) or SMARCA2 (BRM) (homolog of the Drosophila protein, Brahma), which catalyzes the hydrolysis of ATP. The role for most other accessory subunits in complex assembly and stability as well as targeting and function remains unknown.

Over the past several years, mammalian SWI/SNF (mSWI/SNF) complexes have become a major focus of attention owing to the striking frequency of mutations in the genes encoding their subunits across a range of human diseases, from cancer to neurologic disease. Indeed, recent exome sequencing efforts in human cancer have revealed that over 20% of human cancers bear mutations in the genes encoding mSWI/SNF subunits (Kadoch et al. (2013) Nature genetics 45:592-601; Lawrence et al. (2014) Nature 505:495-501). Moreover, heterozygous point mutations in mSWI/SNF genes have been implicated as causative events in intellectual disability and autism-spectrum disorders (Lopez and Wood (2015) Front Behav Neurosci 9:100; Vissers et al. (2016) Nat Rev Genet 17:9-18; Bogershausen et al. (2018) Front Mol Neurosci 11:252).

A major hindrance in the understanding of the functions, tissue-specific roles, and the impact of mutations on mSWI/SNF complex mechanisms lies in the lack of information regarding subunit organization and 3D structure. Several important factors underpin the challenges in obtaining high-resolution structures of these large chromatin remodelers, particularly, mammalian SWI/SNF complexes. First, individually expressed subunits are often unstable or incorrectly folded without their binding partners. Second, minimal complexes pieced together via in vitro co-expression may not represent endogenous, physiologically relevant complexes in cells. Third, large quantities of purified endogenous complexes with minimal heterogeneity are required for downstream analyses and selection of appropriate purification strategies cannot be informed without understanding modular architecture and assembly order. For these reasons and others, only low resolution maps have been achieved using cryo-EM approaches (Leschziner et al. (2007) Proc Natl Acad Sci USA 104: 4913-4918; Dechassa et al. (2008) Mol Cell Biol 28:6010-6021) and X-ray crystallographic analyses have been successfully performed on only a few isolated domains (Kim et al. (2004) J Biol Chem 279:16670-16676; Yan et al. (2017) J Mot Biol 429:1650-1660), including the recently-reported yeast Snf2 ATPase domain (Liu et al. (2017) Nature 544: 440-445; Xia et al. (2016) Nat Struct Mol Biol 23:722-729).

Accordingly, there remains a great need in the art to elucidate the architecture and assembly pathway for different classes of mSWI/SNF complexes in order to better understand their structure, function and the consequences of human disease-associated mutations.

SUMMARY OF THE INVENTION

The present invention is based, at least in part, on the elucidation of the architecture and assembly pathway of three different classes of mammalian SWI/SNF complexes, BAF, PBAF, and ncBAF, and the understanding of the requirement of each subunit for complex formation and stability.

The present invention is also based, at least in part, on the studies that, in order to establish a comprehensive structural framework for mSWI/SNF complexes, a multifaceted series of approaches were used, notably those involving complex and subcomplex purification, mass-spectrometry (MS), cross-linking mass-spectrometry (CX-MS), systematic genetic manipulation of subunits and subunit paralog families, evolutionary analyses, and human disease genetics. These studies reveal that mSWI/SNF complexes exist in three non-redundant final form assemblies: BAF, PBAF, and a recently-defined non canonical BAF (ncBAF) for which the assembly requirements and modular organization are established and presented herein. It is defined in these studies the full spectrum of endogenous combinatorial possibilities and the impact of individual subunit deletions and mutations, including recurrent, previously uncharacterized missense and nonsense mutations, on complex architecture. These studies provide important insights into mSWI/SNF complex organization and structure, function and the biochemical consequences of a wide range of human disease-associated mutations.

In one aspect, an isolated modified protein complex selected from the group consisting of protein complexes listed in Table 2 and/or Table 3, wherein the isolated modified protein complex comprises at least one subunit that is modified, is provided.

Numerous embodiments are further provided that can be applied to any aspect of the present invention and/or combined with any other embodiment described herein. For example, in one embodiment, the isolated modified protein complex selected from the group consisting of protein complexes listed in Table 3, comprises a fragment of the subunit. In another embodiment, the fragment of the subunit binds to at least one binding partner of the subunit to form the isolated modified protein complex. In still another embodiment, the fragment of the subunit comprises at least one interacting domain of the subunit listed in Table 4. In yet another embodiment, the fragment of the subunit comprises all interacting domains of the subunit listed in Table 4. In another embodiment, the fragment of the subunit is the ARID1A C-terminus having a sequence of SEQ ID NO: 39. In another embodiment, the fragment of the subunit is a mini version of ARID2 (mARID2) having a sequence of SEQ ID NO: 40. In still another embodiment, the isolated modified protein complex comprises at least one subunit linked to at least another subunit. In yet another embodiment, at least one subunit is linked to at least another subunit through covalent cross-links. In another embodiment, at least one subunit is linked to at least another subunit through a peptide linker. In another embodiment, at least one subunit comprises a heterologous amino acid sequence. In still another embodiment, the heterologous amino acid sequence comprises an affinity tag or a label. In yet another embodiment, the affinity tag is selected from the group consisting of Glutathione-S-Transferase (GST), calmodulin binding protein (CBP), protein C tag, Myc tag, HaloTag, HA tag, Flag tag, His tag, biotin tag, and V5 tag. In another embodiment, the label is a fluorescent protein. In another embodiment, the isolated modified protein complex comprises at least one subunit is selected from the group consisting of HA-SMARCD1, HA-SS18, HA-DPF2, Flag-HA-SS18, HA-SMARCC1, HA-SMARCE1, HA-ARID1A C-terminus, HA-SMARCA4, D2-HA, BAP60-HA, HA-SMARCB1, HA-SMARCD2, HA-SMARCA4, HA-BCL7A, HA-BRD7, HA-PHF10, GFP-PBRM1, and V5-PBRM1. In still another embodiment, the isolated modified protein complex is in a pharmaceutical composition, further comprising a carrier.

In another aspect, a process of preparing any one of the isolated modified protein complexes described above is provided. In one embodiment, the process comprises (a) expressing a modified subunit of the modified protein complex, in a host cell or organism; and (b) isolating the modified protein complex comprising the modified subunit. In another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the modified subunit is a fragment thereof. In another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the fragment of the subunit binds to at least one binding partner of the subunit to form the isolated modified protein complex. In still another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the modified subunit comprises a heterologous amino acid sequence. In yet another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the heterologous amino acid sequence comprises an affinity tag or a label. In another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the affinity tag comprises two different tags which allow two separate affinity purification steps. In another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the two tags are separated by a cleavage site for a protease. In still another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the affinity tag is selected from the group consisting of Glutathione-S-Transferase (GST), calmodulin binding protein (CBP), protein C tag, Myc tag, HaloTag, HA tag, Flag tag, His tag, biotin tag, and V5 tag. In yet another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the label is a fluorescent protein. In another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the modified subunit is selected from the group consisting of HA-SMARCD1, HA-SS18, HA-DPF2, Flag-HA-SS18, HA-SMARCC1, HA-SMARCE1, HA-ARID1A C-terminus, HA-SMARCA4, D2-HA, BAP60-HA, HA-SMARCB1, HA-SMARCD2, HA-SMARCA4, HA-BCL7A, HA-BRD7, HA-PHF10, GFP-PBRM1, and V5-PBRM1. In another embodiment, the process comprises expressing and isolating the modified protein complex, wherein the isolating step comprises density sedimentation analysis.

In another aspect, a method for screening for an agent that modulates the formation or stability of any one of the isolated modified protein complexes described above is provided. In one embodiment, the method comprises (a) contacting the modified protein complex, or a host cell or organism expressing the modified protein complex to a test agent, and (b) determining the amount of the modified protein complex in the presence of the test agent, wherein a difference in the amount of the protein complex determined in step (b) relative to the amount of the protein complex determined in the absence of the test agent indicates that the test agent modulates the formation or stability of the protein complex. In another embodiment, the method further comprises incubating subunits of the isolated modified protein complex in the presence of a compound under conditions conducive to form the modified protein complex prior to step (a). In another embodiment, the method further comprises determining the presence and/or amount of the individual subunits in the isolated modified protein complex. In still another embodiment, the method comprises the step of contacting the modified protein complex, or a host cell or organism expressing the modified protein complex to a test agent, wherein the step of contacting occurs in vivo, ex vivo, or in vitro. In yet another embodiment, the method comprises at least one subunit of the isolated modified protein complex that is a mutant form that is identified in a human disease. In another embodiment, the method comprises an agent that inhibits formation or stability of the isolated modified protein complex. In another embodiment, the method comprises an agent inhibits the formation or stability of the isolated modified protein complex by inhibiting the interaction between at least one interacting domain pair listed in Table 4. In still another embodiment, the agent is a small molecule inhibitor, a small molecule degrader, CRISPR guide RNA (gRNA), RNA interfering agent, oligonucleotide, peptide or peptidomimetic inhibitor, aptamer, antibody, or intrabody. In yet another embodiment, the RNA interfering agent is a small interfering RNA (siRNA), CRISPR RNA (crRNA), CRISPR guide RNA (gRNA), a small hairpin RNA (shRNA), a microRNA (miRNA), or a piwi-interacting RNA (piRNA). In another embodiment, the agent comprises an antibody and/or intrabody, or an antigen binding fragment thereof, which specifically binds to at least one subunit of the isolated modified protein complex. In another embodiment, the antibody and/or intrabody, or antigen binding fragment thereof, is chimeric, humanized, composite, or human. In another embodiment, the antibody and/or intrabody, or antigen binding fragment thereof, comprises an effector domain, comprises an Fc domain, and/or is selected from the group consisting of Fv, Fav, F(ab′)2, Fab′, dsFv, scFv, sc(Fv)2, and diabodies fragments. In still another embodiment, the agent enhances the formation or stability of the isolated modified protein complex. In yet another embodiment, the agent enhances the formation or stability of the protein complex by stabilizing the interaction between at least one interacting domain pair listed in Table 4. In another embodiment, the agent is a small molecule compound. In another embodiment, the agent is used for inhibiting or stabilizing the isolated modified protein complex. In still another embodiment, the agent is used for modulating the ratio of the isolated modified protein complex to at least one of the fully assembled protein complexes listed in Table 2 and/or Table 3. In yet another embodiment, the agent is used for modulating the amount of at least one of the fully assembled protein complexes listed in Table 2. In another embodiment, the agent is administered in a pharmaceutically acceptable formulation.

In another aspect, a method for screening for an agent that binds to any one of the isolated modified protein complexes described above is provided. In one embodiment, the method comprises (a) contacting the modified protein complex, or a host cell or organism expressing the modified protein complex to a test agent; and (b) determining whether the test agent is bound to the modified protein complex. In another embodiment, the step of contacting the modified protein complex, or a host cell or organism expressing the modified protein complex to a test agent occurs in vivo, ex vivo, or in vitro. In another embodiment, the agent is administered in a pharmaceutically acceptable formulation.

In one embodiment, any one of the process or methods described above comprises the host cell that is a mammalian cell. In another embodiment, any one of the process or methods described above comprises the host cell that is a human cell. In another embodiment, any one of the process or methods described above comprises the host cell that is a D. melanogaster S2 cell. In another embodiment, any one of the process or methods described above comprises the host cell that is a yeast cell.

In another aspect, a device or kit comprising, in one or more containers, at least one isolated modified complex described above is provided. In one embodiment, the device or kit optionally comprises a substrate of the isolated modified complex, an antibody that binds to the isolated modified complex, buffers and/or working instructions. In another embodiment, the device or kit is for processing a substrate of the isolated modified complex. In another embodiment, the substrate is a DNA. In still another embodiment, the kit is for testing a compound. In still another embodiment, the kit is for detecting the isolated modified protein complex. In yet another embodiment, the kit is for diagnosis or prognosis of a disease or a disease risk.

In another aspect, it is provided herein an array in which at least one of the isolated modified protein complex described above is attached to a solid carrier. In one embodiment, the array is a microarray.

In another aspect, it is provided herein a process for modifying a substrate of any one of the isolated modified complexes described above, comprising the step of bringing into contact the isolated modified complex with the substrate, such that the substrate is modified.

As described above, numerous embodiments are further provided that can be applied to any aspect of the present invention and/or combined with any other embodiment described herein. Furthermore, it is provided herein that any one of the process or methods described above comprises compositions, agents or cells that may be useful for treating human diseases, such as cancer, lung cancer, gastric cancer, non-small cell lung cancer (NSCLC), malignant rhabdoid tumors, renal carcinoma, pancreatic cancer, hepatocellular carcinoma, sarcoma, synovial cell sarcoma, neutrophil-specific granule deficiency (SGD), multiple endocrine neoplasia type I, an inherited cancer syndrome involving multiple parathyroid, enteropancreatic, and pituitary tumors, and developmental and neurologic diseases including intellectual disability syndrome and autism-spectrum disorders, such as Coffin-Siris syndrome.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A-FIG. 1E show the distinct mSWI/SNF complexes and their intermediates revealed through density sedimentation and purification. FIG. 1A shows the density sedimentation analysis and immunoblot performed on HEK-293T nuclear extracts. * indicates non-specific band. FIG. 1B shows silver stain performed on density sedimentation of HA-SMARCD1 mSWI/SNF complexes purified from HEK-293T cells. FIG. 1C shows silver stain performed on density sedimentation of HA-DPF2 BAF complexes purified from HEK-293T cells. FIG. 1D shows silver staining of the indicated HA-SMARCD1 gradient fractions from FIG. 1B. Identified proteins are labeled. FIG. 1E shows mass-spectrometry analysis performed on selected fractions (fractions 3-18) collected from the HA-SMARCD1 density gradient in FIG. 1B. Peptide proportion (0 to 1) represents the fraction of maximum number of peptides captured for each subunit over the full gradient. Total spectral counts for each subunit are indicated on the left. Colors distinguish mSWI/SNF complexes and modules.

FIG. 2A-FIG. 2F show the purification and gradient mass-spectrometry of mSWI/SNF complexes. FIG. 2A shows the schematic of mSWI/SNF complex purification and analyses. FIG. 2B shows the silver stain analysis of HA bead-bound proteins. HA Dynabeads were incubated with either EB300 (control) or with nuclear extracts from indicated cells, washed, eluted, loaded onto SDS-PAGE and analyzed using silver staining. FIG. 2C shows the silver stain analysis of BAF complexes purified using DPF2-HA or HA-SMARCD1 as baits. FIG. 2D shows the heat map clustering of mass-spectrometry-determined peptide abundance on selected fractions collected from HA-DPF2-purified BAF complexes from FIG. 1C. FIG. 2E shows the silver staining of fraction 14 from the HA-DPF2 gradient from FIG. 1C. Identified proteins are labeled. FIG. 2F shows the heat map clustering of mass-spectrometry-determined peptide abundance across fractions collected from HA-SMARCD1 density gradient in FIG. 1B. Color scale reflects z-scores.

FIG. 3A-FIG. 3F show that cross-linking mass-spectrometry (CX-MS) of SWI/SNF complexes reveals conserved connectivity of interacting modules. FIG. 3A shows the matrix heatmap of the total crosslinks identified in combined HA-SS18 and HA-DPF2 BAF complex CX-MS. Individual subunits are divided into domains and ordered according to modules in FIG. 3B. See also FIGS. 4B, 4J, 4K. FIG. 3B-3D shows the Louvain modularity analysis performed on (FIG. 3B) mammalian cBAF complex CX-MS datasets, (FIG. 3C) D. melanogaster D4 and BAP60 CX-MS datasets, and (FIG. 3D) S. cerevisiae CX-MS datasets (from Sen et al. (2017) Cell Rep 18:2135-2147). FIG. 3E shows the correlations between mammalian/Drosophila BAF/BAP subunit domain and region interactions from CX-MS datasets. See also FIGS. 4B, 4J. FIG. 3F shows the correlations between mammalian and yeast BAF/SWI/SNF subunit domain and region interactions from CX-MS datasets. See also FIG. 4B, 4 K.

FIG. 4A-FIG. 4N show the purification and cross-linking mass-spectrometry on mammalian, fly, and yeast SWI/SNF complexes. FIG. 4A shows the silver stains of affinity-purified complexes from mammalian HEK-293T cells expressing Flag-HA-SS18 or HA-DPF2. FIG. 4B shows the schematic representation of defined and newly-identified regions in mammalian SWI/SNF subunits used in representing inter-subunit crosslinks. Only one paralog of each subunit family is displayed. FIG. 4C shows the analysis of the distance between crosslinked residues in known structures of BAF complex subunit domains. Dashed line indicates the median distance calculated. Length of the BS3 crosslinker spacer is 11.4A. FIG. 4D shows the structures of the Snf2 ATPase domain in nucleosome-bound (blue) and nucleosome-free (green) states. Crosslinks in dynamic regions are colored in purple and orange. Crosslinks in constant regions are colored in yellow. FIG. 4E shows the clustered distribution of the total crosslinks from mammalian BAF complex CX-MS. Clustering indicates similarly strong correlations between SMARCC, SMARCD, and SMARCE subunits with ARID1, which bridges this module to the ATPases and their associated subunits (See also FIG. 3B). FIG. 4F shows the silver stains of affinity-purified complexes from D. melanogaster S2 cells expressing D4-HA, BAP60-HA or mock control. FIG. 4G shows the SWI/SNF subunit orthologs in S. cerevisiae, D. melanogaster and H. sapiens. FIG. 4H shows the clustered distribution of the total crosslinks from CX-MS performed on D. melanogaster complexes. FIG. 4I shows the clustered distribution of the total crosslinks from CX-MS performed on S. cerevisiae complexes. FIG. 4J shows the schematic representation of defined and newly-identified regions in D. melanogaster BAP subunits used in representing inter-subunit crosslinks. FIG. 4K shows the schematic representation of defined and newly-identified regions in S. cerevisiae SWI/SNF subunits used in representing inter-subunit crosslinks. FIG. 4L shows the matrix heatmap of the total crosslinks from S. cerevisiae SWI/SNF complex CX-MS (Sen et al. (2017) Cell Rep 18:2135-2147). Individual subunits are divided into domains (per FIG. 4K) and ordered according to FIG. 3D. FIG. 4M shows the matrix heatmap of the total crosslinks from D. melanogaster BAP complex CX-MS performed as part of this study. Individual subunits are divided into domains (per FIG. 4K) and ordered according to FIG. 3C. FIG. 4N shows the correlation analysis between D. melanogaster BAP and S. cerevisiae SWI/SNF subunit domain and region interactions from CX-MS datasets.

FIG. 5A-FIG. 5H show the identification and characterization of the BAF core module: SMARCC, SMARCD, SMARCB1, and SMARCE1 subunits. FIG. 5A shows the circle-plot analysis of the mammalian BAF complex CX-MS dataset, with BAF core module highlighted in blue. FIG. 5B shows the silver stain performed on density sedimentation of HA-SMARCC1 complexes purified from HEK-293T cells (left), and the clustered heatmap of mass spec-called peptides and spectral counts on selected fractions (right). FIG. 5C shows the distribution of inter-paralog and self-crosslinks crosslinks in BAF CX-MS dataset. FIG. 5D shows the SMARCC self crosslinks and SMARCC1/SMARCC2 inter-paralog crosslinks from the BAF CX-MS dataset. Line width is proportional to the number of crosslinks. FIG. 5E shows the heatmap depicting SMARCC crosslinks with BAF subunits from BAF CX-MS dataset. FIG. 5F shows the silver stain performed on density sedimentation of HA-SMARCE1 complexes purified from ASMARCD HEK-293T cells (left), and the clustered heatmap of mass spec-called peptides and spectral counts on selected fractions (right). FIG. 5G shows the silver stain performed on density sedimentation of HA-SMARCD1 complexes purified from ASMARCE1 HEK-293T cells (left) and the clustered heatmap of mass spec-called peptides and spectral counts on selected fractions (right). The “*” symbol indicates that minimal SMARCE1 peptide abundance was detected despite no observed band (See Table 6, such as Table 6H). FIG. 5H shows the schematic representation of initial steps of BAF core assembly. Subunits abbreviations are indicated.

FIG. 6A-FIG. 6Q show the purification and mass-spectrometry analyses of the BAF core module. FIG. 6A shows the SDS-PAGE blot. Native HA-SMARCB1 BAF complexes purified from WT HEK-293T cells and subjected to glycerol gradient centrifugation; collected fractions were SDS-PAGE separated and silver stained. FIG. 6B shows the SDS-PAGE blot. Native HA-SMARCB1 BAF complexes were prepared as in FIG. 6A but each fraction was labeled using IRDye 680RD NHS ester. FIG. 6C shows the clustering heatmap of HA-SMARCB1 density gradient mass spec fractions displayed as Z-scores. FIG. 6D shows the IRDye 680RD detection performed on Fractions 9 and 12 from FIG. 6A. Identified proteins are labeled. FIG. 6E shows the clustering heatmap of HA-SMARCB1 density gradient IRDye 680RD quantification displayed as a Z-score. FIG. 6F shows the graphical representation of peptide relative abundance in each density gradient fraction identified by MS analysis. Total spectral counts for each subunit are indicated.

FIG. 6G shows the graphical representation of IRDye 680RD quantification and peptide relative abundance in each density gradient fraction from two independent biological replicates of data displayed in FIGS. 6A and 6B. FIG. 6H shows the native HA-SMARCE1 BAF complexes purified from WT HEK-293T cells and subjected to glycerol gradient centrifugation; collected fractions were SDS-PAGE separated and silver stained (left). Clustering heatmap and spectral counts of HA-SMARCE1 density gradient mass spec fractions are shown (right). FIG. 6I shows the native HA-SMARCD2 BAF complexes purified from WT HEK-293T cells and subjected to glycerol gradient centrifugation; collected fractions were SDS-PAGE separated and silver stained (left). Clustering heatmap and spectral counts of HA-SMARCD2 density gradient mass spec fractions are shown (right). FIG. 6J shows that HEK-293T nuclear extracts were immunodepleted using indicated antibodies. Input, IP and flow through fractions were loaded on to SDS-PAGE and analyzed using WB with indicated antibodies. FIG. 6K shows the representative colloidal blue near infra-red detection of fractions 12-15 from DPF2-purified BAF complexes. Identified proteins are labeled and their approximated stoichiometry relative to DPF2 bait are indicated in parentheses. FIG. 6L shows the evolutionary conservation of the SMARCC subunits. Conserved domains and regions are indicated. FIG. 6M shows the co-IP/immunoblot analysis of BAF core module WT and subunit KO cells. Antibodies used for detection are indicated. FIG. 6N shows the native HA-SMARCB1 BAF complexes were purified from ASMARCD 293T cells and subjected to glycerol gradient centrifugation, collected fractions were SDS-PAGE separated and silver stained (left). FIG. 6O shows the silver stain analysis of Fraction 8 of the HA-SMARCB1 gradient in WT HEK-293T cells. Subunits are labeled. FIG. 6P shows the native HA-SMARCD1 BAF complexes were purified from ASMARCB1 cells and were subjected to glycerol gradient centrifugation. Collected fractions were SDS-PAGE separated and silver stained (left). Clustered heatmap and spectral counts of the mass spec analysis performed on selected pulled fractions are shown (right). FIG. 6Q shows that samples from SMARCD1 gradient in FIG. 5G were PAGE-separated and silver stained (short development time).

FIG. 7A-FIG. 7H show that ARID subunits dictate specific branches of BAF and PBAF complex assembly. FIG. 7A shows the circle-plot analysis of the mammalian CX-MS dataset with BAF core subunit crosslinks in blue and ARID module subunits in teal. FIG. 7B shows the clustered heatmap of CX-MS data, highlighting crosslinks between ARID subunits and other complex components. FIG. 7C shows the schematic representation of ARID1A/SMARCC1/SMARCD1 crosslinks from BAF CX-MS dataset. Line width is proportional to the number of crosslinks. FIG. 8D shows the gradient and MS heatmap of native HA-ARID1A C-terminus-bound BAF complexes purified from WT HEK-293T cells. FIG. 8E-FIG. 8G show the native HA-SMARCD1 purification and gradient MS in (FIG. 7E) ARID1A/ARID1B-deficient, (FIG. 7F) ARID1A/B/ARID2-deficient, (FIG. 7G) SMARCA4/2-deficient HEK-293T cells. FIG. 7H shows the schematic representation of mSWI/SNF assembly branch points initiated by ARID subunits. Subunits abbreviations are indicated.

FIG. 8A-FIG. 8K show the identification and analysis of the ARID1/DPF module of mSWI/SNF complexes. FIG. 8A shows the alignment and conservation analysis of the ARID1 orthologs and identification of the conserved CBR A and CRB B bridging regions. FIG. 8B shows the crosslinks from orthologous BAF core/ARID subcomplexes from S. cerevisiae and D. melanogaster CX-MS datasets. Line width is proportional to the number of crosslinks. Black links in S. cerevisiae schematic represents crosslinks between SWI3 and SWI1. FIG. 8C shows the SDS-PAGE blot. Native HA-DPF2 BAF complexes were purified from ASMARCB1 cells and were subjected to glycerol gradient centrifugation. Collected fractions were PAGE-separated and silver stained. FIG. 8D shows the SDS-PAGE blot. Native HA-DPF2 BAF complexes were purified from ASMARCE1 cells and were subjected to glycerol gradient centrifugation. Collected fractions were PAGE-separated and silver stained. FIG. 8E shows the SDS-PAGE blot. Native HA-SMARCD1 complexes were purified from MIA-Pa-Ca 2 cells (ARID1A/B-dual deficient) and WT HEK-293T cells, PAGE-separated and silver stained. FIG. 8F shows the western blot analysis of the total cell lysates (TCL) from HEK-293T and MIA-Pa-Ca 2 cells with indicated antibodies. FIG. 8G shows that the HA-DPF2 BAF complexes were purified from MIA-Pa-Ca2 cells and subjected to glycerol gradient centrifugation. Eluted proteins were PAGE-separated and silver stained. FIG. 8H shows the circle-plot analysis of the mammalian CX-MS dataset. DPF2 subunits crosslinks to other BAF subunits are indicated. DPF2/BAF core is in teal, DPF2/ARID crosslinks subunits are in green and DPF2/ATPase is in yellow. Data from paralogous subunits were combined. FIG. 8I shows the SDS-PAGE blot. Native HA-DPF2 BAF complexes were purified from SW13 (SMARCA4/SMARCA2-dual deficient) cells and were subjected to glycerol gradient centrifugation. Collected fractions were separated by SDS-PAGE and silver stained. FIG. 8J shows the MS analysis of the total elution from HA-DPF2 purifications from ATPase-negative SW13 cells. FIG. 8K shows the SDS-PAGE blot. Nuclear extracts from WT or ARID subunit KO HEK-293T cell lines were subjected to immunoprecipitation with indicated antibodies. Eluted samples were PAGE separated and immunoblotted with indicated antibodies.

FIG. 9A-FIG. 9G show that the mSWI/SNF ATPases recruit accessory subunits and finalize BAF, PBAF, and ncBAF complex assembly. FIG. 9A shows the circle-plot analysis of the mammalian CX-MS dataset with ATPase module subunits crosslinks in red, and ATPase/ARID module crosslinks in yellow. FIG. 9B shows the clustered heatmap of the CX-MS analysis of mammalian BAF complex highlighting the occurrence of crosslinks between SMARCA and other complex components. FIG. 9C shows the silver stain performed on density sedimentation of HA-SMARCA4-bound complexes purified from HEK-293T cells. FIG. 9D shows the gradient mass spectrometry of selected fractions collected from the HA-SMARCA4 density gradient. Total spectral counts for each subunit are indicated on the left. FIG. 9E shows the silver stain performed on density sedimentation analysis of Flag-HA-SS18-bound BAF complexes purified from HEK-293T cells (left). Clustered heatmap of mass spec-called peptides and spectral counts on selected fractions are shown (right). FIG. 9F shows the clustered correlation heatmap of HA-SMARCD1, HA-SMARCB1 and HA-SMARCA4 density gradient MS results from WT HEK-293T cells. Experimentally determined complexes and subcomplexes are indicated. FIG. 9G shows the schematic of the assembly and incorporation of the BAF ATPase module. Subunit abbreviations are indicated.

FIG. 10A-FIG. 10I show that the biochemical purifications and mass spectrometry define the mSWI/SNF ATPase module. FIG. 10A shows the circle-plot analysis of the mammalian CX-MS dataset. ATPase/core module subunits crosslinks are in blue, ATPase/ARID module crosslinks are in yellow, and core/ARID module subunits are in green. Data from paralogous subunits was combined. FIG. 10B shows the schematic representation of crosslinks from orthologous ATPase subcomplexes from H. sapiens, D. melanogaster and S. cerevisiae CX-MS datasets. Line width is proportional to the number of crosslinks. Black lines represent crosslinks between actin-like proteins. FIG. 10C shows the clustered heatmap of mass spec analysis performed on spectral counts from each fraction collected from HA-SMARCA4 density gradient from WT 293T cells. Colors represent Z-scores, according to legend. FIG. 10D shows the IRDye 680RD detection of fractions from HA-SS18 density gradient from purification in FIG. 9E. FIG. 10E shows the clustering heatmap of HA-SS18 density gradient IRDye 680RD quantification. Colors represent Z-scores according to legend. FIG. 10F shows the IRDye 680RD detection performed on Fractions 8, 10 and 13 from FIG. 9D. Identified proteins are labeled. FIG. 10G shows the SDS-PAGE blot. HA-BCL7A BAF complexes were purified from WT HEK-293T cells and were subjected to glycerol gradient centrifugation. Collected fractions were SDS-PAGE separated and silver stained (left). Clustered heatmap and spectral counts of the mass spec analysis performed on selected pulled fractions are shown (right). FIG. 10H shows the Louvain modularity analysis performed on mass-spec analyses from glycerol gradients collected from SMARCD1, SMARCB1 and SMARCA4 purifications. Colors are generated as a function of the relations between the nodes (subunits) of the generated network. FIG. 10I shows the SDS-PAGE blot. Nuclear extracts from WT or core BAF subunit KO cell lines were subjected to immunoprecipitation with indicated antibodies. Eluted samples were SDS-PAGE separated and immunoblotted with indicated antibodies.

FIG. 11A-FIG. 11J show the cross-linknig mass-spectrometry analysis of PBAF complexes. FIG. 11A shows that HA-BRD7 was used as a bait for purification of PBAF complexes for CX-MS (Left), and the heat map reflecting distributions of total crosslinks from mammalian PBAF complex CX-MS (Right). Individual subunits are divided into domains and ordered according to FIG. 12C. FIG. 11B shows the correlation analysis of the total subunit crosslinks from CX-MS obtained from PHF10 and BRD7 datasets. FIG. 11C shows the SDS-PAGE. Native HA-BRD7 PBAF complexes were purified from WT HEK-293T cells and were subjected to glycerol gradient centrifugation, collected fractions were PAGE separated and silver stained. FIG. 11D shows the SDS-PAGE. Native HA-PHF10 PBAF complexes were purified from WT HEK-293T cells and were subjected to glycerol gradient centrifugation, collected fractions were PAGE separated and silver stained. FIG. 11E shows the immunoblot/co-IP analysis performed on PBAF subunit KO HEK-293T cells. Antibodies used for detection are indicated. FIG. 11F shows the distribution of self-crosslinks and inter-paralog crosslinks in PBAF complex CX-MS dataset. Redundant crosslinks were removed. FIG. 11G shows that HEK-293T cells were stably infected with GFP-PBRM1 or empty vector and used for co-IP/immunoblot analyses. Antibodies used for detection are indicated. FIG. 11H shows that HEK-293T cells were infected with WT V5-PBRM1, V5-PBRM1ABAH1 mutant variant or empty vector and used for WB-co-IP analysis. Antibodies used for detection are as indicated. FIG. 11I shows the WB-co-IP analysis performed on WT and ncBAF subunit KO cells. Antibodies used for detection are indicated. * indicates the non-specific band above BRD9 band in the input. FIG. 11J shows the total combinatorial possibilities across mSWI/SNF complex families (including tissue-specific subunits).

FIG. 12A-FIG. 12G show the assembly of alternative mSWI/SNF complexes, PBAF and ncBAF, and the full assembly pathway. FIG. 12A shows the silver stain performed on density sedimentation of HA-mARID2 PBAF complexes purified from HEK-293T cells (left), and the clustered heatmap of mass spec-called peptides and spectral counts on selected fractions (right). FIG. 12B shows the silver stain performed on density sedimentation of HA-PBRM1 PBAF complexes purified from HEK-293T cells (left), and the clustered heatmap of mass spec-called peptides and spectral counts on selected fractions (right). FIG. 12C shows the Louvian network analysis of PBAF subunit (PHF10 and BRD7) CX-MS datasets. FIG. 12D shows that HA-GLTSCR1L-bound ncBAF complexes were purified from WT HEK-293T, PAGE-separated and silver stained. Individual identified proteins are indicated. FIG. 12E shows the silver stain performed on density sedimentation of HA-GLTSCR1L-bound ncBAF complexes purified from HEK-293T cells (left), and the clustered heatmap of mass spec-called peptides and spectral counts on selected fractions (right). * indicates the non-specific contaminants in fraction 16. FIG. 12F shows the silver stain performed on density sedimentation of HA-BRD9 ncBAF complexes purified from HEK-293T cells (left), and the clustered heatmap of mass spec-called peptides and spectral counts on selected fractions are shown (right). FIG. 12G shows the schematic of the full mSWI/SNF complex assembly pathway. Subunit abbreviations are indicated. Numbers indicate the steps in assembly (see text).

FIG. 13A-FIG. 13J show the disruption of mSWI/SNF complex assembly in human disease. FIG. 13A shows the frequency of mSWI/SNF gene mutations across human cancers (TCGA). FIG. 13B shows the MS analysis of mSWI/SNF complex subunit relative abundance in complexes purified from indicated cell types (WT and subunit KO cells), normalized to WT SMARCC1 purifications. ASMARCD complexes were purified using SMARCE1; ASMARCEL ASMARCB1, ΔARID1/2, ΔARID1 and ASMARCA complexes were purified using HA-SMARCD1. FIG. 13C shows the correlation analysis reflecting impact of truncating mutations on mSWI/SNF subunit linkages. Subunits most frequently truncated exhibit higher proportions of inter-crosslinked sites lost. FIG. 13D shows the top-ranked cancer-associated missense mutations (TCGA). Mutations predicted to disrupt catalytic activity are in red. FIG. 13E shows the non-truncating mutations in ARID1A across human cancers mapped over intra crosslinks. The hotspot mutation in the highly crosslinked C-terminal CBRB region of the protein is indicated. FIG. 13F shows the truncating mutations in ARID1A across human cancers mapped over crosslinks to other BAF subunits. Position of the truncating mutation Y2254* used in this study is indicated by the arrow. FIG. 13G shows the (Top) cycloheximide chase experiment assessing half-life of ARID1A WT and G2087R mutant C-terminal region variants, and (Bottom) the quantification of WB normalized to GAPDH is shown above. FIG. 13H shows the MG-132 treatment (8 hours) of HEK-293T cells expressing ARID1A WT and G2087R C-terminal regions. FIG. 13I shows the silver stain performed on ARID1A WT, G2087R and Y2254* BAF complexes purified from HEK-293T cells. FIG. 13J shows the immunoblot of ARID1A WT, G2087R and Y2254*-bound BAF complexes purified from HEK-293T cells.

FIG. 14A-FIG. 14G show the Disease-associated perturbations to mSWI/SNF complex assembly. FIG. 14A shows the mutations in mSWI/SNF genes in human intellectual disability/developmental syndromes and other diseases. FIG. 14B shows the mutations in ACTL6A in autism spectrum disorders mapped over crosslinks to the BAF ATPase module. FIG. 14C shows the (Top) crosslinks in SMARCD1 and SMARCD, and (Bottom) the mutations in human specific granule deficiency (SGD) and crosslinks to other BAF subunits. FIG. 14D shows the silver stain analysis performed on glycerol gradient of HA-ARID1A G2087R-purified BAF complexes from HEK-293T cells. FIG. 14E shows the mRNA expression levels of the ARID1A and ARID1B transcripts in ARID1A-proficient and -deficient cancers (left). Boxplot of ARID1B expression in ARID1A-proficient and -deficient cancers (right). FIG. 14F shows the mRNA expression levels of the ARID1A and ARID1B transcripts in ARID1A-proficient and -deficient CCLE cancer cell lines (left). Boxplot of ARID1B expression in ARID1A-proficient and -deficient CCLE cell lines (right). FIG. 14G shows the boxplot of expression of ARID1A and ARID1B across CCLE cell lines. All represented cell lines have WT ARID 1A and ARID1B.

For any figure showing a bar histogram, curve, or other data associated with a legend, the bars, curve, or other data presented from left to right for each indication correspond directly and in order to the boxes from top to bottom of the legend.

DETAILED DESCRIPTION OF THE INVENTION

The present invention is based, at least in part, on the elucidation of the architecture and assembly pathway of three different classes of mammalian SWI/SNF complexes: canonical BAF, PBAF, and a newly defined complex, ncBAF, and the understanding of the requirement of each subunit for complex formation and stability. To establish a structural framework for mSWI/SNF complexes, a comprehensive, multifaceted approach involving complex and subcomplex purification, mass-spectrometry (MS), cross-linking mass-spectrometry (CX-MS), systematic genetic manipulation of subunits and subunit families, and human genetic studies was used. The analysis revealed that mammalian SWI/SNF complexes exist in three rather than two distinct, non-redundant final form complexes: canonical BAF, PBAF, and a newly-defined, atypical BAF complex termed non-canonical BAF (ncBAF). Importantly, the order of assembly and modular organization for each final form mSWI/SNF complex was established, and the full spectrum of endogenous combinatorial possibilities and the impact of individual subunit losses and mutations on complex architecture were defined. In addition, human disease-associated mutations within subunits and modules were mapped, which defines specific topological regions that are affected upon subunit perturbation. Accordingly, compositions based on the identified SWI/SNF complexes and methods of screening for modulators of formation and/or stability of the identified SWI/SNF complexes, are provided.

I. Definitions

The articles “a” and “an” are used herein to refer to one or to more than one (i.e. to at least one) of the grammatical object of the article. By way of example, “an element” means one element or more than one element.

The term “administering” is intended to include routes of administration which allow an agent to perform its intended function. Examples of routes of administration for treatment of a body which can be used include injection (subcutaneous, intravenous, parenterally, intraperitoneally, intrathecal, etc.), oral, inhalation, and transdermal routes. The injection can be bolus injections or can be continuous infusion. Depending on the route of administration, the agent can be coated with or disposed in a selected material to protect it from natural conditions which may detrimentally affect its ability to perform its intended function. The agent may be administered alone, or in conjunction with a pharmaceutically acceptable carrier. The agent also may be administered as a prodrug, which is converted to its active form in vivo.

Unless otherwise specified here within, the terms “antibody” and “antibodies” broadly encompass naturally-occurring forms of antibodies (e.g. IgG, IgA, IgM, IgE) and recombinant antibodies, such as single-chain antibodies, chimeric and humanized antibodies and multi-specific antibodies, as well as fragments and derivatives of all of the foregoing, which fragments and derivatives have at least an antigenic binding site. Antibody derivatives may comprise a protein or chemical moiety conjugated to an antibody.

In addition, intrabodies are well-known antigen-binding molecules having the characteristic of antibodies, but that are capable of being expressed within cells in order to bind and/or inhibit intracellular targets of interest (Chen et al. (1994) Human Gene Ther. 5:595-601). Methods are well-known in the art for adapting antibodies to target (e.g., inhibit) intracellular moieties, such as the use of single-chain antibodies (scFvs), modification of immunoglobulin VL domains for hyperstability, modification of antibodies to resist the reducing intracellular environment, generating fusion proteins that increase intracellular stability and/or modulate intracellular localization, and the like. Intracellular antibodies can also be introduced and expressed in one or more cells, tissues or organs of a multicellular organism, for example for prophylactic and/or therapeutic purposes (e.g., as a gene therapy) (see, at least PCT Publs. WO 08/020079, WO 94/02610, WO 95/22618, and WO 03/014960; U.S. Pat. No. 7,004,940; Cattaneo and Biocca (1997) Intracellular Antibodies: Development and Applications (Landes and Springer-Verlag publs.); Kontermann (2004) Methods 34:163-170; Cohen et al. (1998) Oncogene 17:2445-2456; Auf der Maur et al. (2001) FEBS Lett. 508:407-412; Shaki-Loewenstein et al. (2005) J. Immunol. Meth. 303:19-39).

The term “antibody” as used herein also includes an “antigen-binding portion” of an antibody (or simply “antibody portion”). The term “antigen-binding portion”, as used herein, refers to one or more fragments of an antibody that retain the ability to specifically bind to an antigen (e.g., a protein complex encompassed by the present invention, or a subunit thereof). It has been shown that the antigen-binding function of an antibody can be performed by fragments of a full-length antibody. Examples of binding fragments encompassed within the term “antigen-binding portion” of an antibody include (i) a Fab fragment, a monovalent fragment consisting of the VL, VH, CL and CH1 domains; (ii) a F(ab′)₂ fragment, a bivalent fragment comprising two Fab fragments linked by a disulfide bridge at the hinge region; (iii) a Fd fragment consisting of the VH and CH1 domains; (iv) a Fv fragment consisting of the VL and VH domains of a single arm of an antibody, (v) a dAb fragment (Ward et al., (1989) Nature 341:544-546), which consists of a VH domain; and (vi) an isolated complementarity determining region (CDR). Furthermore, although the two domains of the Fv fragment, VL and VH, are coded for by separate genes, they can be joined, using recombinant methods, by a synthetic linker that enables them to be made as a single protein chain in which the VL and VH regions pair to form monovalent polypeptides (known as single chain Fv (scFv); see e.g., Bird et al. (1988) Science 242:423-426; and Huston et al. (1988) Proc. Natl. Acad. Sci. USA 85:5879-5883; and Osbourn et al. 1998, Nature Biotechnology 16: 778). Such single chain antibodies are also intended to be encompassed within the term “antigen-binding portion” of an antibody. Any VH and VL sequences of specific scFv can be linked to human immunoglobulin constant region cDNA or genomic sequences, in order to generate expression vectors encoding complete IgG polypeptides or other isotypes. VH and VL can also be used in the generation of Fab, Fv or other fragments of immunoglobulins using either protein chemistry or recombinant DNA technology. Other forms of single chain antibodies, such as diabodies are also encompassed. Diabodies are bivalent, bispecific antibodies in which VH and VL domains are expressed on a single polypeptide chain, but using a linker that is too short to allow for pairing between the two domains on the same chain, thereby forcing the domains to pair with complementary domains of another chain and creating two antigen binding sites (see e.g., Holliger et al. (1993) Proc. Natl. Acad. Sci. U.S.A. 90:6444-6448; Poljak et al. (1994) Structure 2:1121-1123).

Still further, an antibody or antigen-binding portion thereof may be part of larger immunoadhesion polypeptides, formed by covalent or noncovalent association of the antibody or antibody portion with one or more other proteins or peptides. Examples of such immunoadhesion polypeptides include use of the streptavidin core region to make a tetrameric scFv polypeptide (Kipriyanov et al. (1995) Human Antibodies and Hybridomas 6:93-101) and use of a cysteine residue, protein subunit peptide and a C-terminal polyhistidine tag to make bivalent and biotinylated scFv polypeptides (Kipriyanov et al. (1994) Mol. Immunol. 31:1047-1058). Antibody portions, such as Fab and F(ab′)₂ fragments, can be prepared from whole antibodies using conventional techniques, such as papain or pepsin digestion, respectively, of whole antibodies. Moreover, antibodies, antibody portions and immunoadhesion polypeptides can be obtained using standard recombinant DNA techniques, as described herein.

Antibodies may be polyclonal or monoclonal; xenogeneic, allogeneic, or syngeneic; or modified forms thereof (e.g. humanized, chimeric, etc.). Antibodies may also be fully human. Preferably, antibodies of the invention bind specifically or substantially specifically to a protein complex. The terms “monoclonal antibodies” and “monoclonal antibody composition”, as used herein, refer to a population of antibody polypeptides that contain only one species of an antigen binding site capable of immunoreacting with a particular epitope of an antigen, whereas the term “polyclonal antibodies” and “polyclonal antibody composition” refer to a population of antibody polypeptides that contain multiple species of antigen binding sites capable of interacting with a particular antigen. A monoclonal antibody composition typically displays a single binding affinity for a particular antigen with which it immunoreacts.

Antibodies may also be “humanized,” which is intended to include antibodies made by a non-human cell having variable and constant regions which have been altered to more closely resemble antibodies that would be made by a human cell. For example, by altering the non-human antibody amino acid sequence to incorporate amino acids found in human germline immunoglobulin sequences. The humanized antibodies of the invention may include amino acid residues not encoded by human germline immunoglobulin sequences (e.g., mutations introduced by random or site-specific mutagenesis in vitro or by somatic mutation in vivo), for example in the CDRs. The term “humanized antibody”, as used herein, also includes antibodies in which CDR sequences derived from the germline of another mammalian species, have been grafted onto human framework sequences.

A “blocking” antibody or an antibody “antagonist” is one which inhibits or reduces at least one biological activity of the antigen(s) it binds. In certain embodiments, the blocking antibodies or antagonist antibodies or fragments thereof described herein substantially or completely inhibit a given biological activity of the antigen(s).

As used herein, the term “isotype” refers to the antibody class (e.g., IgM, IgG1, IgG2C, and the like) that is encoded by heavy chain constant region genes.

The term “coding region” refers to regions of a nucleotide sequence comprising codons which are translated into amino acid residues, whereas the term “noncoding region” refers to regions of a nucleotide sequence that are not translated into amino acids (e.g., 5′ and 3′ untranslated regions).

The term “complementary” refers to the broad concept of sequence complementarity between regions of two nucleic acid strands or between two regions of the same nucleic acid strand. It is known that an adenine residue of a first nucleic acid region is capable of forming specific hydrogen bonds (“base pairing”) with a residue of a second nucleic acid region which is antiparallel to the first region if the residue is thymine or uracil. Similarly, it is known that a cytosine residue of a first nucleic acid strand is capable of base pairing with a residue of a second nucleic acid strand which is antiparallel to the first strand if the residue is guanine. A first region of a nucleic acid is complementary to a second region of the same or a different nucleic acid if, when the two regions are arranged in an antiparallel fashion, at least one nucleotide residue of the first region is capable of base pairing with a residue of the second region. Preferably, the first region comprises a first portion and the second region comprises a second portion, whereby, when the first and second portions are arranged in an antiparallel fashion, at least about 50%, and preferably at least about 75%, at least about 90%, or at least about 95% of the nucleotide residues of the first portion are capable of base pairing with nucleotide residues in the second portion. More preferably, all nucleotide residues of the first portion are capable of base pairing with nucleotide residues in the second portion.

As used herein, the term “inhibiting” and grammatical equivalents thereof refer decrease, limiting, and/or blocking a particular action, function, or interaction. A reduced level of a given output or parameter need not, although it may, mean an absolute absence of the output or parameter. The invention does not require, and is not limited to, methods that wholly eliminate the output or parameter. The given output or parameter can be determined using methods well-known in the art, including, without limitation, immunohistochemical, molecular biological, cell biological, clinical, and biochemical assays, as discussed herein and in the examples. The opposite terms “promoting,” “increasing,” and grammatical equivalents thereof refer to the increase in the level of a given output or parameter that is the reverse of that described for inhibition or decrease.

As used herein, the term “interacting” or “interaction” means that two protein domains, fragments or complete proteins exhibit sufficient physical affinity to each other so as to bring the two “interacting protein domains, fragments or proteins physically close to each other. An extreme case of interaction is the formation of a chemical bond that results in continual and stable proximity of the two entities. Interactions that are based solely on physical affinities, although usually more dynamic than chemically bonded interactions, can be equally effective in co-localizing two proteins. Examples of physical affinities and chemical bonds include but are not limited to, forces caused by electrical charge differences, hydrophobicity, hydrogen bonds, Van der Waals force, ionic force, covalent linkages, and combinations thereof. The state of proximity between the interaction domains, fragments, proteins or entities may be transient or permanent, reversible or irreversible. In any event, it is in contrast to and distinguishable from contact caused by natural random movement of two entities. Typically, although not necessarily, an “interaction” is exhibited by the binding between the interaction domains, fragments, proteins, or entities. Examples of interactions include specific interactions between antigen and antibody, ligand and receptor, enzyme and substrate, and the like.

Generally, such an interaction results in an activity (which produces a biological effect) of one or both of said molecules. The activity may be a direct activity of one or both of the molecules, (e.g., signal transduction). Alternatively, one or both molecules in the interaction may be prevented from binding their ligand, and thus be held inactive with respect to ligand binding activity (e.g., binding its ligand and triggering or inhibiting an immune response). To inhibit such an interaction results in the disruption of the activity of one or more molecules involved in the interaction. To enhance such an interaction is to prolong or increase the likelihood of said physical contact, and prolong or increase the likelihood of said activity.

An “interaction” between two protein domains, fragments or complete proteins can be determined by a number of methods. For example, an interaction can be determined by functional assays. Such as the two-hybrid Systems. Protein-protein interactions can also be determined by various biophysical and biochemical approaches based on the affinity binding between the two interacting partners. Such biochemical methods generally known in the art include, but are not limited to, protein affinity chromatography, affinity blotting, immunoprecipitation, and the like. The binding constant for two interacting proteins, which reflects the strength or quality of the interaction, can also be determined using methods known in the art. See Phizicky and Fields, (1995) Microbiol. Rev., 59:94-123.

As used herein, a “kit” is any manufacture (e.g. a package or container) comprising at least one reagent, e.g. a probe, for specifically detecting or modulating the expression of a marker encompassed by the present invention. The kit may be promoted, distributed, or sold as a unit for performing the methods encompassed by the present invention.

As used herein, the term “modulate” includes up-regulation and down-regulation, e.g., enhancing or inhibiting the formation and/or stability of an protein complex encompassed by the present invention.

An “isolated protein” refers to a protein that is substantially free of other proteins, cellular material, separation medium, and culture medium when isolated from cells or produced by recombinant DNA techniques, or chemical precursors or other chemicals when chemically synthesized. An “isolated” or “purified” protein or biologically active portion thereof is substantially free of cellular material or other contaminating proteins from the cell or tissue source from which the protein subunit of a protein complex encompassed by the present invention, or fusion protein or fragment thereof, is derived, or substantially free from chemical precursors or other chemicals when chemically synthesized. The language “substantially free of cellular material” includes preparations of a protein subunit of a protein complex encompassed by the present invention, in which the protein is separated from cellular components of the cells from which it is isolated or recombinantly produced. In one embodiment, the language “substantially free of cellular material” includes preparations of a protein subunit, having less than about 30% (by dry weight) of non-subunit protein (also referred to herein as a “contaminating protein”), more preferably less than about 20% of non-subunit protein, still more preferably less than about 10% of non-subunit protein, and most preferably less than about 5% non-subunit protein. When protein subunit of a protein complex encompassed by the present invention, or fusion protein or fragment thereof, e.g., a biologically active fragment thereof, is recombinantly produced, it is also preferably substantially free of culture medium, i.e., culture medium represents less than about 20%, more preferably less than about 10%, and most preferably less than about 5% of the volume of the protein preparation.

As used herein, the term “nucleic acid molecule” is intended to include DNA molecules and RNA molecules. A nucleic acid molecule may be single-stranded or double-stranded, but preferably is double-stranded DNA. As used herein, the term “isolated nucleic acid molecule” is intended to refer to a nucleic acid molecule in which the nucleotide sequences are free of other nucleotide sequences, which other sequences may naturally flank the nucleic acid in human genomic DNA.

A nucleic acid is “operably linked” when it is placed into a functional relationship with another nucleic acid sequence. For instance, a promoter or enhancer is operably linked to a coding sequence if it affects the transcription of the sequence. With respect to transcription regulatory sequences, operably linked means that the DNA sequences being linked are contiguous and, where necessary to join two protein coding regions, contiguous and in reading frame. For switch sequences, operably linked indicates that the sequences are capable of effecting switch recombination.

For nucleic acids, the term “substantial homology” indicates that two nucleic acids, or designated sequences thereof, when optimally aligned and compared, are identical, with appropriate nucleotide insertions or deletions, in at least about 80% of the nucleotides, usually at least about 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, or more of the nucleotides, and more preferably at least about 97%, 98%, 99% or more of the nucleotides. Alternatively, substantial homology exists when the segments will hybridize under selective hybridization conditions, to the complement of the strand.

The percent identity between two sequences is a function of the number of identical positions shared by the sequences (i.e., % identity=#of identical positions/total #of positions×100), taking into account the number of gaps, and the length of each gap, which need to be introduced for optimal alignment of the two sequences. The comparison of sequences and determination of percent identity between two sequences can be accomplished using a mathematical algorithm, as described in the non-limiting examples below.

The percent identity between two nucleotide sequences can be determined using the GAP program in the GCG software package (available on the world wide web at the GCG company website), using a NWSgapdna. CMP matrix and a gap weight of 40, 50, 60, 70, or 80 and a length weight of 1, 2, 3, 4, 5, or 6. The percent identity between two nucleotide or amino acid sequences can also be determined using the algorithm of E. Meyers and W. Miller (CABIOS, 4:11 17 (1989)) which has been incorporated into the ALIGN program (version 2.0), using a PAM120 weight residue table, a gap length penalty of 12 and a gap penalty of 4. In addition, the percent identity between two amino acid sequences can be determined using the Needleman and Wunsch (J. Mol. Biol. (48):444 453 (1970)) algorithm which has been incorporated into the GAP program in the GCG software package (available on the world wide web at the GCG company website), using either a Blosum 62 matrix or a PAM250 matrix, and a gap weight of 16, 14, 12, 10, 8, 6, or 4 and a length weight of 1, 2, 3, 4, 5, or 6.

The nucleic acid and protein sequences encompassed by the present invention can further be used as a “query sequence” to perform a search against public databases to, for example, identify related sequences. Such searches can be performed using the NBLAST and)(BLAST programs (version 2.0) of Altschul, et al. (1990) J. Mol. Biol. 215:403 10. BLAST nucleotide searches can be performed with the NBLAST program, score=100, wordlength=12 to obtain nucleotide sequences homologous to the nucleic acid molecules encompassed by the present invention. BLAST protein searches can be performed with the) (BLAST program, score=50, wordlength=3 to obtain amino acid sequences homologous to the protein molecules encompassed by the present invention. To obtain gapped alignments for comparison purposes, Gapped BLAST can be utilized as described in Altschul et al., (1997) Nucleic Acids Res. 25(17):3389 3402. When utilizing BLAST and Gapped BLAST programs, the default parameters of the respective programs (e.g., XBLAST and NBLAST) can be used (available on the world wide web at the NCBI website).

The nucleic acids may be present in whole cells, in a cell lysate, or in a partially purified or substantially pure form. A nucleic acid is “isolated” or “rendered substantially pure” when purified away from other cellular components or other contaminants, e.g., other cellular nucleic acids or proteins, by standard techniques, including alkaline/SDS treatment, CsCl banding, column chromatography, agarose gel electrophoresis and others well-known in the art (see, F. Ausubel, et al., ed. Current Protocols in Molecular Biology, Greene Publishing and Wiley Interscience, New York (1987)).

A “transcribed polynucleotide” or “nucleotide transcript” is a polynucleotide (e.g. an mRNA, hnRNA, a cDNA, or an analog of such RNA or cDNA) which is complementary to or homologous with all or a portion of a mature mRNA made by transcription of a subunit nucleic acid and normal post-transcriptional processing (e.g. splicing), if any, of the RNA transcript, and reverse transcription of the RNA transcript.

An “RNA interfering agent” as used herein, is defined as any agent which interferes with or inhibits expression of a target protein subunit gene by RNA interference (RNAi). Such RNA interfering agents include, but are not limited to, nucleic acid molecules including RNA molecules which are homologous to a protein subunit gene encompassed by the present invention, or a fragment thereof, short interfering RNA (siRNA), and small molecules which interfere with or inhibit expression of a target protein subunit nucleic acid by RNA interference (RNAi).

“RNA interference (RNAi)” is an evolutionally conserved process whereby the expression or introduction of RNA of a sequence that is identical or highly similar to a target protein subunit nucleic acid results in the sequence specific degradation or specific post-transcriptional gene silencing (PTGS) of messenger RNA (mRNA) transcribed from that targeted gene (see Coburn, G. and Cullen, B. (2002) J. of Virology 76(18):9225), thereby inhibiting expression of the target protein subunit nucleic acid. In one embodiment, the RNA is double stranded RNA (dsRNA). This process has been described in plants, invertebrates, and mammalian cells. In nature, RNAi is initiated by the dsRNA-specific endonuclease Dicer, which promotes processive cleavage of long dsRNA into double-stranded fragments termed siRNAs. siRNAs are incorporated into a protein complex that recognizes and cleaves target mRNAs. RNAi can also be initiated by introducing nucleic acid molecules, e.g., synthetic siRNAs, shRNAs, or other RNA interfering agents, to inhibit or silence the expression of target protein subunit nucleic acids. As used herein, “inhibition of a protein subunit nucleic acid expression” or “inhibition of protein subunit gene expression” includes any decrease in expression or protein activity or level of the protein subunit nucleic acid or protein encoded by the protein subunit nucleic acid. The decrease may be of at least 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95% or 99% or more as compared to the expression of a protein subunit nucleic acid or the activity or level of the protein encoded by a protein subunit nucleic acid which has not been targeted by an RNA interfering agent.

In addition to RNAi, genome editing can be used to modulate the copy number or genetic sequence of a protein subunit of interest, such as constitutive or induced knockout or mutation of a protein subunit of interest, such as a protein subunit of an isolated modified protein complexes encompassed by the present invention. For example, the CRISPR-Cas system can be used for precise editing of genomic nucleic acids (e.g., for creating non-functional or null mutations). In such embodiments, the CRISPR guide RNA and/or the Cas enzyme may be expressed. For example, a vector containing only the guide RNA can be administered to an animal or cells transgenic for the Cas9 enzyme. Similar strategies may be used (e.g., designer zinc finger, transcription activator-like effectors (TALEs) or homing meganucleases). Such systems are well-known in the art (see, for example, U.S. Pat. No. 8,697,359; Sander and Joung (2014) Nat. Biotech. 32:347-355; Hale et al. (2009) Cell 139:945-956; Karginov and Hannon (2010) Mol. Cell 37:7; U.S. Pat. Publ. 2014/0087426 and 2012/0178169; Boch et al. (2011) Nat. Biotech. 29:135-136; Boch et al. (2009) Science 326:1509-1512; Moscou and Bogdanove (2009) Science 326:1501; Weber et al. (2011) PLoS One 6:e19722; Li et al. (2011) Nucl. Acids Res. 39:6315-6325; Zhang et al. (2011) Nat. Biotech. 29:149-153; Miller et al. (2011) Nat. Biotech. 29:143-148; Lin et al. (2014) Nucl. Acids Res. 42:e47). Such genetic strategies can use constitutive expression systems or inducible expression systems according to well-known methods in the art.

“Piwi-interacting RNA (piRNA)” is the largest class of small non-coding RNA molecules. piRNAs form RNA-protein complexes through interactions with piwi proteins. These piRNA complexes have been linked to both epigenetic and post-transcriptional gene silencing of retrotransposons and other genetic elements in germ line cells, particularly those in spermatogenesis. They are distinct from microRNA (miRNA) in size (26-31 nt rather than 21-24 nt), lack of sequence conservation, and increased complexity. However, like other small RNAs, piRNAs are thought to be involved in gene silencing, specifically the silencing of transposons. The majority of piRNAs are antisense to transposon sequences, suggesting that transposons are the piRNA target. In mammals it appears that the activity of piRNAs in transposon silencing is most important during the development of the embryo, and in both C. elegans and humans, piRNAs are necessary for spermatogenesis. piRNA has a role in RNA silencing via the formation of an RNA-induced silencing complex (RISC).

“Aptamers” are oligonucleotide or peptide molecules that bind to a specific target molecule. “Nucleic acid aptamers” are nucleic acid species that have been engineered through repeated rounds of in vitro selection or equivalently, SELEX (systematic evolution of ligands by exponential enrichment) to bind to various molecular targets such as small molecules, proteins, nucleic acids, and even cells, tissues and organisms. “Peptide aptamers” are artificial proteins selected or engineered to bind specific target molecules. These proteins consist of one or more peptide loops of variable sequence displayed by a protein scaffold. They are typically isolated from combinatorial libraries and often subsequently improved by directed mutation or rounds of variable region mutagenesis and selection. The “Affimer protein”, an evolution of peptide aptamers, is a small, highly stable protein engineered to display peptide loops which provides a high affinity binding surface for a specific target protein. It is a protein of low molecular weight, 12-14 kDa, derived from the cysteine protease inhibitor family of cystatins. Aptamers are useful in biotechnological and therapeutic applications as they offer molecular recognition properties that rival that of the commonly used biomolecule, antibodies. In addition to their discriminate recognition, aptamers offer advantages over antibodies as they can be engineered completely in a test tube, are readily produced by chemical synthesis, possess desirable storage properties, and elicit little or no immunogenicity in therapeutic applications.

“Short interfering RNA” (siRNA), also referred to herein as “small interfering RNA” is defined as an agent which functions to inhibit expression of a protein subunit nucleic acid, e.g., by RNAi. A siRNA may be chemically synthesized, may be produced by in vitro transcription, or may be produced within a host cell. In one embodiment, siRNA is a double stranded RNA (dsRNA) molecule of about 15 to about 40 nucleotides in length, preferably about 15 to about 28 nucleotides, more preferably about 19 to about 25 nucleotides in length, and more preferably about 19, 20, 21, or 22 nucleotides in length, and may contain a 3′ and/or 5′ overhang on each strand having a length of about 0, 1, 2, 3, 4, or 5 nucleotides. The length of the overhang is independent between the two strands, i.e., the length of the overhang on one strand is not dependent on the length of the overhang on the second strand. Preferably the siRNA is capable of promoting RNA interference through degradation or specific post-transcriptional gene silencing (PTGS) of the target messenger RNA (mRNA).

In another embodiment, a siRNA is a small hairpin (also called stem loop) RNA (shRNA). In one embodiment, these shRNAs are composed of a short (e.g., 19-25 nucleotide) antisense strand, followed by a 5-9 nucleotide loop, and the analogous sense strand. Alternatively, the sense strand may precede the nucleotide loop structure and the antisense strand may follow. These shRNAs may be contained in plasmids, retroviruses, and lentiviruses and expressed from, for example, the pol III U6 promoter, or another promoter (see, e.g., Stewart, et al. (2003) RNA April; 9(4):493-501 incorporated by reference herein).

RNA interfering agents, e.g., siRNA molecules, may be administered to a host cell or organism, to inhibit expression of a protein subunit gene of a protein complex encompassed by the present invention and thereby inhibit the formation of the protein complex.

The term “small molecule” is a term of the art and includes molecules that are less than about 1000 molecular weight or less than about 500 molecular weight. In one embodiment, small molecules do not exclusively comprise peptide bonds. In another embodiment, small molecules are not oligomeric. Exemplary small molecule compounds which can be screened for activity include, but are not limited to, peptides, peptidomimetics, nucleic acids, carbohydrates, small organic molecules (e.g., polyketides) (Cane et al. (1998) Science 282:63), and natural product extract libraries. In another embodiment, the compounds are small, organic non-peptidic compounds. In a further embodiment, a small molecule is not biosynthetic.

The term “specific binding” refers to antibody binding to a predetermined antigen. Typically, the antibody binds with an affinity (K_(D)) of approximately less than 10⁻⁷ M, such as approximately less than 10⁻⁸M, 10⁻⁹ M or 10⁻¹⁰ M or even lower when determined by surface plasmon resonance (SPR) technology in a BIACORE® assay instrument using an antigen of interest as the analyte and the antibody as the ligand, and binds to the predetermined antigen with an affinity that is at least 1.1-, 1.2-, 1.3-, 1.4-, 1.5-, 1.6-, 1.7-, 1.8-, 1.9-, 2.0-, 2.5-, 3.0-, 3.5-, 4.0-, 4.5-, 5.0-, 6.0-, 7.0-, 8.0-, 9.0-, or 10.0-fold or greater than its affinity for binding to a non-specific antigen (e.g., BSA, casein) other than the predetermined antigen or a closely-related antigen. The phrases “an antibody recognizing an antigen” and “an antibody specific for an antigen” are used interchangeably herein with the term “an antibody which binds specifically to an antigen.” Selective binding is a relative term referring to the ability of an antibody to discriminate the binding of one antigen over another.

As used herein, the term “protein complex” means a composite unit that is a combination of two or more proteins formed by interaction between the proteins. Typically, but not necessarily, a “protein complex” is formed by the binding of two or more proteins together through specific non-covalent binding interactions. However, covalent bonds may also be present between the interacting partners. For instance, the two interacting partners can be covalently crosslinked so that the protein complex becomes more stable. The protein complex may or may not include and/or be associated with other molecules such as nucleic acid, such as RNA or DNA, or lipids or further cofactors or moieties selected from a metal ions, hormones, second messengers, phosphate, sugars. A “protein complex” of the invention may also be part of or a unit of a larger physiological protein assembly.

The term “isolated protein complex” means a protein complex present in a composition or environment that is different from that found in nature, in its native or original cellular or body environment. Preferably, an “isolated protein complex” is separated from at least 50%, more preferably at least 75%, most preferably at least 90% of other naturally co-existing cellular or tissue components. Thus, an “isolated protein complex” may also be a naturally existing protein complex in an artificial preparation or a non-native host cell. An “isolated protein complex” may also be a “purified protein complex”, that is, a substantially purified form in a substantially homogenous preparation substantially free of other cellular components, other polypeptides, viral materials, or culture medium, or, when the protein components in the protein complex are chemically synthesized, free of chemical precursors or by-products associated with the chemical synthesis. A “purified protein complex” typically means a preparation containing preferably at least 75%, more preferably at least 85%, and most preferably at least 95% of a particular protein complex. A “purified protein complex” may be obtained from natural or recombinant host cells or other body samples by standard purification techniques, or by chemical synthesis.

The term “modified protein complex” refers to a protein complex present in a composition that is different from that found in nature, in its native or original cellular or body environment. The term “modification” as used herein refers to all modifications of a protein or protein complex of the invention including cleavage and addition or removal of a group. In some embodiments, the “modified protein complex” comprises at least one subunit that is modified, i.e., different from that found in nature, in its native or original cellular or body environment. The “modified subunit” may be, e.g., a derivative or fragment of the native subunit from which it derives from.

As used herein, the term “domain” means a functional portion, segment or region of a protein, or polypeptide. “Interaction domain” refers specifically to a portion, segment or region of a protein, polypeptide or protein fragment that is responsible for the physical affinity of that protein, protein fragment or isolated domain for another protein, protein fragment or isolated domain.

If not stated otherwise, the term “compound” as used herein are include but are not limited to peptides, nucleic acids, carbohydrates, natural product extract libraries, organic molecules, preferentially small organic molecules, inorganic molecules, including but not limited to chemicals, metals and organometallic molecules.

The terms “derivatives” or “analogs of subunit proteins” or “variants” as used herein include, but are not limited, to molecules comprising regions that are substantially homologous to the subunit proteins, in various embodiments, by at least 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95% or 99% identity over an amino acid sequence of identical size or when compared to an aligned sequence in which the alignment is done by a computer homology program known in the art, or whose encoding nucleic acid is capable of hybridizing to a sequence encoding the component protein under stringent, moderately stringent, or nonstringent conditions. It means a protein which is the outcome of a modification of the naturally occurring protein, by amino acid substitutions, deletions and additions, respectively, which derivatives still exhibit the biological function of the naturally occurring protein although not necessarily to the same degree. The biological function of such proteins can e.g. be examined by suitable available in vitro assays as provided in the invention.

The term “functionally active” as used herein refers to a polypeptide, namely a fragment or derivative, having structural, regulatory, or biochemical functions of the protein according to the embodiment of which this polypeptide, namely fragment or derivative is related to.

“Function-conservative variants” are those in which a given amino acid residue in a protein or enzyme has been changed without altering the overall conformation and function of the polypeptide, including, but not limited to, replacement of an amino acid with one having similar properties (e.g., polarity, hydrogen bonding potential, acidic, basic, hydrophobic, aromatic, and the like). Amino acids other than those indicated as conserved may differ in a protein so that the percent protein or amino acid sequence similarity between any two proteins of similar function may vary and may be, for example, from 70% to 99% as determined according to an alignment scheme such as by the Cluster Method, wherein similarity is based on the MEGALIGN algorithm. A “function-conservative variant” also includes a polypeptide which has at least 60% amino acid identity as determined by BLAST or FASTA algorithms, preferably at least 75%, more preferably at least 85%, still preferably at least 90%, and even more preferably at least 95%, and which has the same or substantially similar properties or functions as the native or parent protein to which it is compared.

The terms “polypeptide fragment” or “fragment”, when used in reference to a reference polypeptide, refers to a polypeptide in which amino acid residues are deleted as compared to the reference polypeptide itself, but where the remaining amino acid sequence is usually identical to the corresponding positions in the reference polypeptide. Such deletions may occur at the amino-terminus, internally, or at the carboxyl-terminus of the reference polypeptide, or alternatively both. Fragments typically are at least 5, 6, 8 or 10 amino acids long, at least 14 amino acids long, at least 20, 30, 40 or 50 amino acids long, at least 75 amino acids long, or at least 100, 150, 200, 300, 500 or more amino acids long. They can be, for example, at least and/or including 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 120, 140, 160, 180, 200, 220, 240, 260, 280, 300, 320, 340, 360, 380, 400, 420, 440, 460, 480, 500, 520, 540, 560, 580, 600, 620, 640, 660, 680, 700, 720, 740, 760, 780, 800, 820, 840, 860, 880, 900, 920, 940, 960, 980, 1000, 1020, 1040, 1060, 1080, 1100, 1120, 1140, 1160, 1180, 1200, 1220, 1240, 1260, 1280, 1300, 1320, 1340 or more long so long as they are less than the length of the full-length polypeptide. Alternatively, they can be no longer than and/or excluding such a range so long as they are less than the length of the full-length polypeptide.

“Homologous” as used herein, refers to nucleotide sequence similarity between two regions of the same nucleic acid strand or between regions of two different nucleic acid strands. When a nucleotide residue position in both regions is occupied by the same nucleotide residue, then the regions are homologous at that position. A first region is homologous to a second region if at least one nucleotide residue position of each region is occupied by the same residue. Homology between two regions is expressed in terms of the proportion of nucleotide residue positions of the two regions that are occupied by the same nucleotide residue. By way of example, a region having the nucleotide sequence 5′-ATTGCC-3′ and a region having the nucleotide sequence 5′-TATGGC-3′ share 50% homology. Preferably, the first region comprises a first portion and the second region comprises a second portion, whereby, at least about 50%, and preferably at least about 75%, at least about 90%, or at least about 95% of the nucleotide residue positions of each of the portions are occupied by the same nucleotide residue. More preferably, all nucleotide residue positions of each of the portions are occupied by the same nucleotide residue.

The term “probe” refers to any molecule which is capable of selectively binding to a specifically intended target molecule, for example, a nucleotide transcript or protein encoded by or corresponding to a marker. Probes can be either synthesized by one skilled in the art, or derived from appropriate biological preparations. For purposes of detection of the target molecule, probes may be specifically designed to be labeled, as described herein. Examples of molecules that can be utilized as probes include, but are not limited to, RNA, DNA, proteins, antibodies, and organic molecules.

As used herein, the term “host cell” is intended to refer to a cell into which a nucleic acid encompassed by the present invention, such as a recombinant expression vector encompassed by the present invention, has been introduced. The terms “host cell” and “recombinant host cell” are used interchangeably herein. It should be understood that such terms refer not only to the particular subject cell but to the progeny or potential progeny of such a cell. Because certain modifications may occur in succeeding generations due to either mutation or environmental influences, such progeny may not, in fact, be identical to the parent cell, but are still included within the scope of the term as used herein.

As used herein, the term “vector” refers to a nucleic acid capable of transporting another nucleic acid to which it has been linked. One type of vector is a “plasmid”, which refers to a circular double stranded DNA loop into which additional DNA segments may be ligated. Another type of vector is a viral vector, wherein additional DNA segments may be ligated into the viral genome. Certain vectors are capable of autonomous replication in a host cell into which they are introduced (e.g., bacterial vectors having a bacterial origin of replication and episomal mammalian vectors). Other vectors (e.g., non-episomal mammalian vectors) are integrated into the genome of a host cell upon introduction into the host cell, and thereby are replicated along with the host genome. Moreover, certain vectors are capable of directing the expression of genes to which they are operatively linked. Such vectors are referred to herein as “recombinant expression vectors” or simply “expression vectors”. In general, expression vectors of utility in recombinant DNA techniques are often in the form of plasmids. In the present specification, “plasmid” and “vector” may be used interchangeably as the plasmid is the most commonly used form of vector. However, the invention is intended to include such other forms of expression vectors, such as viral vectors (e.g., replication defective retroviruses, adenoviruses and adeno-associated viruses), which serve equivalent functions.

The term “substantially free of chemical precursors or other chemicals” includes preparations of antibody, polypeptide, peptide or fusion protein in which the protein is separated from chemical precursors or other chemicals which are involved in the synthesis of the protein. In one embodiment, the language “substantially free of chemical precursors or other chemicals” includes preparations of antibody, polypeptide, peptide or fusion protein having less than about 30% (by dry weight) of chemical precursors or non-antibody, polypeptide, peptide or fusion protein chemicals, more preferably less than about 20% chemical precursors or non-antibody, polypeptide, peptide or fusion protein chemicals, still more preferably less than about 10% chemical precursors or non-antibody, polypeptide, peptide or fusion protein chemicals, and most preferably less than about 5% chemical precursors or non-antibody, polypeptide, peptide or fusion protein chemicals.

The term “activity” when used in connection with proteins or protein complexes means any physiological or biochemical activities displayed by or associated with a particular protein or protein complex including but not limited to activities exhibited in biological processes and cellular functions, ability to interact with or bind another molecule or a moiety thereof, binding affinity or specificity to certain molecules, in vitro or in vivo stability (e.g., protein degradation rate, or in the case of protein complexes ability to maintain the form of protein complex), antigenicity and immunogenecity, enzymatic activities, etc. Such activities may be detected or assayed by any of a variety of suitable methods as will be apparent to skilled artisans.

As used herein, the term “interaction antagonist” means a compound that interferes with, blocks, disrupts or destabilizes a protein-protein interaction; blocks or interferes with the formation of a protein complex, or destabilizes, disrupts or dissociates an existing protein complex.

The term “interaction agonist” as used herein means a compound that triggers, initiates, propagates, nucleates, or otherwise enhances the formation of a protein protein interaction; triggers, initiates, propagates, nucleates, or otherwise enhances the formation of a protein complex; or stabilizes an existing protein complex.

The terms “polypeptides” and “proteins” are, where applicable, used interchangeably herein. They may be chemically modified, e.g. post-translationally modified. For example, they may be glycosylated or comprise modified amino acid residues. They may also be modified by the addition of a signal sequence to promote their secretion from a cell where the polypeptide does not naturally contain such a sequence. They may be tagged with a tag. They may be tagged with different labels which may assists in identification of the proteins in a protein complex. Polypeptides/proteins for use in the invention may be in a substantially isolated form. It will be understood that the polypeptide/protein may be mixed with carriers or diluents which will not interfere with the intended purpose of the polypeptide and still be regarded as substantially isolated. A polypeptide/protein for use in the invention may also be in a substantially purified form, in which case it will generally comprise the polypeptide in a preparation in which more than 50%, e.g. more than 80%, 90%, 95% or 99%, by weight of the polypeptide in the preparation is a polypeptide of the invention.

The terms “hybrid protein”, “hybrid polypeptide,” “hybrid peptide”, “fusion protein”, “fusion polypeptide”, and “fusion peptide” are used herein interchangeably to mean a non-naturally occurring protein having a specified polypeptide molecule covalently linked to one or more polypeptide molecules that do not naturally link to the specified polypeptide. Thus, a “hybrid protein” may be two naturally occurring proteins or fragments thereof linked together by a covalent linkage. A “hybrid protein” may also be a protein formed by covalently linking two artificial polypeptides together. Typically but not necessarily, the two or more polypeptide molecules are linked or fused together by a peptide bond forming a single non-branched polypeptide chain.

The term “tag” as used herein is meant to be understood in its broadest sense and to include, but is not limited to any suitable enzymatic, fluorescent, or radioactive labels and suitable epitopes, including but not limited to HA-tag, Myc-tag, T7, His-tag, FLAG-tag, Calmodulin binding proteins, glutathione-S-transferase, strep-tag, KT3-epitope, EEF-epitopes, green-fluorescent protein and variants thereof.

The term “SWI/SNF complex” refers to SWItch/Sucrose Non-Fermentable, a nucleosome remodeling complex found in both eukaryotes and prokaryotes (Neigeborn Carlson (1984) Genetics 108:845-858; Stern et al. (1984) J. Mol. Biol. 178:853-868). The SWI/SNF complex was first discovered in the yeast, Saccharomyces cerevisiae, named after yeast mating types switching (SWI) and sucrose nonfermenting (SNF) pathways (Workman and Kingston (1998) Annu Rev Biochem. 67:545-579; Sudarsanam and Winston (2000) Trends Genet. 16:345-351). It is a group of proteins comprising, at least, SWI1, SWI2/SNF2, SWI3, SWI5, and SWI6, as well as other polypeptides (Pazin and Kadonaga (1997) Cell 88:737-740). A genetic screening for suppressive mutations of the SWI/SNF phenotypes identified different histones and chromatin components, suggesting that these proteins were possibly involved in histone binding and chromatin organization (Winston and Carlson (1992) Trends Genet. 8:387-391). Biochemical purification of the SWI/SNF2p in S. cerevisiae demonstrated that this protein was part of a complex containing an additional 11 polypeptides, with a combined molecular weight over 1.5 MDa. The SWI/SNF complex contains the ATPase Swi2/Snf2p, two actin-related proteins (Arp7p and Arp9) and other subunits involved in DNA and protein-protein interactions. The purified SWI/SNF complex was able to alter the nucleosome structure in an ATP-dependent manner (Workman and Kingston (1998), supra; Vignali et al. (2000) Mol Cell Biol. 20:1899-1910). The structures of the SWI/SNF and RSC complexes are highly conserved but not identical, reflecting an increasing complexity of chromatin (e.g., an increased genome size, the presence of DNA methylation, and more complex genetic organization) through evolution. For this reason, the SWI/SNF complex in higher eukaryotes maintains core components, but also substitute or add on other components with more specialized or tissue-specific domains. Yeast contains two distinct and similar remodeling complexes, SWI/SNF and RSC (Remodeling the Structure of Chromatin). In Drosophila, the two complexes are called BAP (Brahma Associated Protein) and PBAP (Polybromo-associated BAP) complexes. The human analogs are BAF (Brgl Associated Factors, or SWI/SNF-A) and PBAF (Polybromo-associated BAF, or SWI/SNF-B). As shown in FIG. 9 , the BAF complex comprises, at least, BAF250A (ARID1A), BAF250B (ARID1B), BAF57 (SMARCE1), BAF190/BRM (SMARCA2), BAF47 (SMARCB1), BAF53A (ACTL6A), BRG1/BAF190 (SMARCA4), BAF155 (SMARCC1), and BAF170 (SMARCC2). The PBAF complex comprises, at last, BAF200 (ARID2), BAF180 (PBRM1), BRD7, BAF45A (PHF10), BRG1/BAF190 (SMARCA4), BAF155 (SMARCC1), and BAF170 (SMARCC2). As in Drosophila, human BAF and PBAF share the different core components BAF47, BAF57, BAF60, BAF155, BAF170, BAF45 and the two actins b-Actin and BAF53 (Mohrmann and Verrijzer (2005) Biochim Biophys Acta. 1681:59-73). The central core of the BAF and PBAF is the ATPase catalytic subunit BRG1/hBRM, which contains multiple domains to bind to other protein subunits and acetylated histones. For a summary of different complex subunits and their domain structure, see Tang et al. (2010) Prog Biophys Mol Biol. 102:122-128 (e.g., FIG. 3 ), Hohmann and Vakoc (2014) Trends Genet. 30:356-363 (e.g., FIG. 1 ), and Kadoch and Crabtree (2015) Sci. Adv. 1:e1500447. For chromatin remodeling, the SWI/SNF complex use the energy of ATP hydrolysis to slide the DNA around the nucleosome. The first step consists in the binding between the remodeler and the nucleosome. This binding occurs with nanomolar affinity and reduces the digestion of nucleosomal DNA by nucleases. The 3-D structure of the yeast RSC complex was first solved and imaged using negative stain electron microscopy (Asturias et al. (2002) Proc Natl Acad Sci USA 99:13477-13480). The first Cryo-EM structure of the yeast SWI/SNF complex was published in 2008 (Dechassa et al. 2008). DNA footprinting data showed that the SWI/SNF complex makes close contacts with only one gyre of nucleosomal DNA. Protein crosslinking showed that the ATPase SWI2/SNF2p and Swi5p (the homologue of Ini 1p in human), Snf6, Swi29, Snf11 and Sw82p (not conserved in human) make close contact with the histones. Several individual SWI/SNF subunits are encoded by gene families, whose protein products are mutually exclusive in the complex (Wu et al. (2009) Cell 136:200-206). Thus, only one paralog is incorporated in a given SWI/SNF assembly. The only exceptions are BAF155 and BAF170, which are always present in the complex as homo- or hetero-dimers.

Combinatorial association of SWI/SNF subunits could in principle give rise to hundreds of distinct complexes, although the exact number has yet to be determined (Wu et al. (2009), supra). Genetic evidence suggests that distinct subunit configurations of SWI/SNF are equipped to perform specialized functions. As an example, SWI/SNF contains one of two ATPase subunits, BRG1 or BRM/SMARCA2, which share 75% amino acid sequence identity (Khavari et al. (1993) Nature 366:170-174). While in certain cell types BRG1 and BRM can compensate for loss of the other subunit, in other contexts these two ATPases perform divergent functions (Strobeck et al. (2002) J Biol Chem. 277:4782-4789; Hoffman et al. (2014) Proc Natl Acad Sci USA. 111:3128-3133). In some cell types, BRG1 and BRM can even functionally oppose one another to regulate differentiation (Flowers et al. (2009) J Biol Chem. 284:10067-10075). The functional specificity of BRG1 and BRM has been linked to sequence variations near their N-terminus, which have different interaction specificities for transcription factors (Kadam and Emerson (2003) Mol Cell. 11:377-389). Another example of paralogous subunits that form mutually exclusive SWI/SNF complexes are ARID1A/BAF250A, ARID1B/BAF250B, and ARID2/BAF200. ARID1A and ARID1B share 60% sequence identity, but yet can perform opposing functions in regulating the cell cycle, with MYC being an important downstream target of each paralog (Nagl et al. (2007) EMBO J. 26:752-763). ARID2 has diverged considerably from ARID1A/ARID1B and exists in a unique SWI/SNF assembly known as PBAF (or SWI/SNF-B), which contains several unique subunits not found in ARID1A/B-containing complexes. The composition of SWI/SNF can also be dynamically reconfigured during cell fate transitions through cell type-specific expression patterns of certain subunits. For example, BAF53A/ACTL6A is repressed and replaced by BAF53B/ACTL6B during neuronal differentiation, a switch that is essential for proper neuronal functions in vivo (Lessard et al. (2007) Neuron 55:201-215). These studies stress that SWI/SNF in fact represents a collection of multi-subunit complexes whose integrated functions control diverse cellular processes, which is also incorporated in the scope of definitions of the instant disclosure. Two recently published meta-analyses of cancer genome sequencing data estimate that nearly 20% of human cancers harbor mutations in one (or more) of the genes encoding SWI/SNF (Kadoch et al. (2013) Nat Genet. 45:592-601; Shain and Pollack (2013) PLoS One. 8:e55119). Such mutations are generally loss-of-function, implicating SWI/SNF as a major tumor suppressor in diverse cancers. Specific SWI/SNF gene mutations are generally linked to a specific subset of cancer lineages: SNF5 is mutated in malignant rhabdoid tumors (MRT), PBRM1/BAF180 is frequently inactivated in renal carcinoma, and BRG1 is mutated in non-small cell lung cancer (NSCLC) and several other cancers. In the instant disclosure, the scope of “SWI/SNF complex” may cover at least one fraction or the whole complex (e.g., some or all subunit proteins/other components), either in the human BAF/PBAF forms or their homologs/orthologs in other species (e.g., the yeast and Drosophila forms described herein). Preferably, a “SWI/SNF complex” described herein contains at least part of the full complex bio-functionality, such as binding to other subunits/components, binding to DNA/histone, catalyzing ATP, promoting chromatin remodeling, etc.

The term “BAF complex” refers to at least one type of mammalian SWI/SNF complexes. Its nucleosome remodeling activity can be reconstituted with a set of four core subunits (BRG1/SMARCA4, SNF5/SMARCB1, BAF155/SMARCC1, and BAF170/SMARCC2), which have orthologs in the yeast complex (Phelan et al. (1999) Mol Cell. 3:247-253). However, mammalian SWI/SNF contains several subunits not found in the yeast counterpart, which can provide interaction surfaces for chromatin (e.g. acetyl-lysine recognition by bromodomains) or transcription factors and thus contribute to the genomic targeting of the complex (Wang et al. (1996) EMBO J. 15:5370-5382; Wang et al. (1996) Genes Dev. 10:2117-2130; Nie et al. (2000)). A key attribute of mammalian SWI/SNF is the heterogeneity of subunit configurations that can exist in different tissues and even in a single cell type (e.g., as BAF, PBAF, neural progenitor BAF (npBAF), neuron BAF (nBAF), embryonic stem cell BAF (esBAF), etc.). In some embodiments, the BAF complex described herein refers to one type of mammalian SWI/SNF complexes, which is different from PBAF complexes.

The term “PBAF complex” refers to one type of mammalian SWI/SNF complexes originally known as SWI/SNF-B. It is highly related to the BAF complex and can be separated with conventional chromatographic approaches. For example, human BAF and PBAF complexes share multiple identical subunits (such as BRG, BAF170, BAF155, BAF60, BAF57, BAF53, BAF45, actin, SS18, and hSNF5/INI1). However, while BAF contains BAF250 subunit, PBAF contains BAF180 and BAF200, instead (Lemon et al. (2001) Nature 414:924-998; Yan et al. (2005) Genes Dev. 19:1662-1667). Moreover, they do have selectivity in regulating interferon-responsive genes (Yan et al. (2005), supra, showing that BAF200, but not BAF180, is required for PBAF to mediate expression of IFITM1 gene induced by IFN-α, while the IFITM3 gene expression is dependent on BAF but not PBAF). Due to these differences, PBAF, but not BAF, was able to activate vitamin D receptor-dependent transcription on a chromatinzed template in vitro (Lemon et al. (2001), supra). The 3-D structure of human PBAF complex preserved in negative stain was found to be similar to yeast RSC but dramatically different from yeast SWI/SNF (Leschziner et al. (2005) Structure 13:267-275).

The term “BRG” or “BRG1/BAF190 (SMARCA4)” refers to a subunit of the SWI/SNF complex, which can be find in either BAF or PBAF complex. It is an ATP-depedendent helicase and a transcription activator, encoded by the SMARCA4 gene. BRG1 can also bind BRCA1, as well as regulate the expression of the tumorigenic protein CD44. BRG1 is important for development past the pre-implantation stage. Without having a functional BRG1, exhibited with knockout research, the embryo will not hatch out of the zona pellucida, which will inhibit implantation from occurring on the endometrium (uterine wall). BRG1 is also crucial to the development of sperm. During the first stages of meiosis in spermatogenesis there are high levels of BRG1. When BRG1 is genetically damaged, meiosis is stopped in prophase 1, hindering the development of sperm and would result in infertility. More knockout research has concluded BRG1's aid in the development of smooth muscle. In a BRG1 knockout, smooth muscle in the gastrointestinal tract lacks contractility, and intestines are incomplete in some cases. Another defect occurring in knocking out BRG1 in smooth muscle development is heart complications such as an open ductus arteriosus after birth (Kim et al. (2012) Development 139:1133-1140; Zhang et al. (2011) Mol. Cell. Biol. 31:2618-2631). Mutations in SMARCA4 were first recognized in human lung cancer cell lines (Medina et al. (2008) Hum. Mut. 29:617-622). Later it was recognized that mutations exist in a significant frequency of medulloblastoma and pancreatic cancers among other tumor subtypes (Jones et al. (2012) Nature 488:100-105; Shain et al. (2012) Proc Natl Acad Sci USA 109:E252-E259; Shain and Pollack (2013), supra). Mutations in BRG1 (or SMARCA4) appear to be mutually exclusive with the presence of activation at any of the MYC-genes, which indicates that the BRG1 and MYC proteins are functionally related. Another recent study demonstrated a causal role of BRG1 in the control of retinoic acid and glucocorticoid-induced cell differentiation in lung cancer and in other tumor types. This enables the cancer cell to sustain undifferentiated gene expression programs that affect the control of key cellular processes. Furthermore, it explains why lung cancer and other solid tumors are completely refractory to treatments based on these compounds that are effective therapies for some types of leukemia (Romero et al. (2012) EMBO Mol. Med. 4:603-616). The role of BRG1 in sensitivity or resistance to anti-cancer drugs had been recently highlighted by the elucidation of the mechanisms of action of darinaparsin, an arsenic-based anti-cancer drugs. Darinaparsin has been shown to induce phosphorylation of BRG1, which leads to its exclusion from the chromatin. When excluded from the chromatin, BRG1 can no longer act as a transcriptional co-regulator. This leads to the inability of cells to express HO-1, a cytoprotective enzyme. BRG1 has been shown to interact with proteins such as ACTL6A, ARID1A, ARID1B, BRCA1, CTNNB1, CBXS, CREBBP, CCNE1, ESR1, FANCA, HSP90B1, ING1, Myc, NR3C1, P53, POLR2A, PHB, SIN3A, SMARCB1, SMARCC1, SMARCC2, SMARCE1, STAT2, STK11, etc.

The term “BRG” or “BRG1/BAF190 (SMARCA4)” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human BRG1(SMARCA4) cDNA and human BRG1 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, seven different human BRG1 isoforms are known. Human BRG1 isoform A (NP_001122321.1) is encodable by the transcript variant 1 (NM_001128849.1), which is the longest transcript. Human BRG1 isoform B (NP_001122316.1 or NP_003063.2) is encodable by the transcript variant 2 (NM_001128844.1), which differs in the 5′ UTR and lacks an alternate exon in the 3′ coding region, compared to the variant 1, and also by the transcript variant 3 (NM_003072.3), which lacks an alternate exon in the 3′ coding region compared to variant 1. Human BRG1 isoform C (NP_001122317.1) is encodable by the transcript variant 4 (NM_001128845.1), which lacks two alternate in-frame exons and uses an alternate splice site in the 3′ coding region, compared to variant 1. Human BRG1 isoform D (NP_001122318.1) is encodable by the transcript variant 5 (NM_001128846.1), which lacks two alternate in-frame exons and uses two alternate splice sites in the 3′ coding region, compared to variant 1. Human BRG1 isoform E (NP_001122319.1) is encodable by the transcript variant 6 (NM_001128847.1), which lacks two alternate in-frame exons in the 3′ coding region, compared to variant 1. Human BRG1 isoform F (NP_001122320.1) is encodable by the transcript variant 7 (NM_001128848.1), which lacks two alternate in-frame exons and uses an alternate splice site in the 3′ coding region, compared to variant 1. Nucleic acid and polypeptide sequences of BRG1 orthologs in organisms other than humans are well known and include, for example, chimpanzee BRG1 (XM_016935029.1 and XP_016790518.1, XM_016935038.1 and XP_016790527.1, XM_016935039.1 and XP_016790528.1, XM_016935036.1 and XP_016790525.1, XM_016935037.1 and XP_016790526.1, XM_016935041.1 and XP_016790530.1, XM_016935040.1 and XP_016790529.1, XM_016935042.1 and XP_016790531.1, XM_016935043.1 and XP_016790532.1, XM_016935035.1 and XP_016790524.1, XM_016935032.1 and XP_016790521.1, XM_016935033.1 and XP_016790522.1, XM_016935030.1 and XP_016790519.1, XM_016935031.1 and XP_016790520.1, and XM_016935034.1 and XP_016790523.1), Rhesus monkey BRG1 (XM_015122901.1 and XP_014978387.1, XM_015122902.1 and XP_014978388.1, XM_015122903.1 and XP_014978389.1, XM_015122906.1 and XP_014978392.1, XM_015122905.1 and XP_014978391.1, XM_015122904.1 and XP_014978390.1, XM_015122907.1 and XP_014978393.1, XM_015122909.1 and XP_014978395.1, and XM_015122910.1 and XP_014978396.1), dog BRG1 (XM_014122046.1 and XP_013977521.1, XM_014122043.1 and XP_013977518.1, XM_014122042.1 and XP_013977517.1, XM_014122041.1 and XP_013977516.1, XM_014122045.1 and XP_013977520.1, and XM_014122044.1 and XP_013977519.1), cattle BRG1 (NM_001105614.1 and NP_001099084.1), rat BRG1 (NM_134368.1 and NP_599195.1).

Anti-BRG1 antibodies suitable for detecting BRG1 protein are well-known in the art and include, for example, MABE1118, MABE121, MABE60, and 07-478 (poly- and mono-clonal antibodies from EMD Millipore, Billerica, Mass.), AM26021PU-N, AP23972PU-N, TA322909, TA322910, TA327280, TA347049, TA347050, TA347851, and TA349038 (antibodies from OriGene Technologies, Rockville, Md.), NB100-2594, AF5738, NBP2-22234, NBP2-41270, NBP1-51230, and NBP1-40379 (antibodes from Novus Biologicals, Littleton, Colo.), ab110641, ab4081, ab215998, ab108318, ab70558, ab118558, ab133257, ab92496, ab196535, and ab196315 (antibodies from AbCam, Cambridge, Mass.), Cat #: 720129, 730011, 730051, MA1-10062, PA5-17003, and PA5-17008 (antibodies from ThermoFisher Scientific, Waltham, Mass.), GTX633391, GTX32478, GTX31917, GTX16472, and GTX50842 (antibodies from GeneTex, Irvine, Calif.), antibody 7749 (ProSci, Poway, Calif.), Brg-1 (N-15), Brg-1 (N-15) X, Brg-1 (H-88), Brg-1 (H-88) X, Brg-1 (P-18), Brg-1 (P-18) X, Brg-1 (G-7), Brg-1 (G-7) X, Brg-1 (H-10), and Brg-1 (H-10) X (antibodies from Santa Cruz Biotechnology, Dallas, Tex.), antibody of Cat. AF5738 (R&D Systmes, Minneapolis, Minn.), etc. In addition, reagents are well-known for detecting BRG1 expression. Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing BRG1 Expression can be found in the commercial product lists of the above-referenced companies. PFI 3 is a known small molecule inhibitor of polybromo 1 and BRG1 (e.g., Cat. B7744 from APExBIO, Houston, Tex.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding BRG1 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe an BRG1 molecule encompassed by the present invention.

The term “BRM” or “BRM/BAF190 (SMARCA2)” refers to a subunit of the SWI/SNF complex, which can be found in either BAF or PBAF complexes. It is an ATP-depedendent helicase and a transcription activator, encoded by the SMARCA2 gene. The catalytic core of the SWI/SNF complex can be either of two closely related ATPases, BRM or BRG1, with the potential that the choice of alternative subunits is a key determinant of specificity. Instead of impeding differentiation as was seen with BRG1 depletion, depletion of BRM caused accelerated progression to the differentiation phenotype. BRM was found to regulate genes different from those as BRG1 targets and be capable of overriding BRG1-dependent activation of the osteocalcin promoter, due to its interaction with different ARID family members (Flowers et al. (2009), supra). The known binding partners for BRM include, for example, ACTL6A, ARID1B, CEBPB, POLR2A, Prohibitin, SIN3A, SMARCB1, and SMARCC1.

The term “BRM” or “BRM/BAF190 (SMARCA2)” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human BRM (SMARCA2) cDNA and human BRM protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, seven different human BRM isoforms are known. Human BRM (SMARCA2) isoform A (NP_003061.3 or NP_001276325.1) is encodable by the transcript variant 1 (NM_003070.4), which is the longest transcript, or the transcript variant 3 (NM_001289396.1), which differs in the 5′ UTR, compared to variant 1. Human BRM (SMARCA2) isoform B (NP_620614.2) is encodable by the transcript variant 2 (NM_139045.3), which lacks an alternate in-frame exon in the coding region, compared to variant 1. Human BRM (SMARCA2) isoform C (NP_001276326.1) is encodable by the transcript variant 4 (NM_001289397.1), which uses an alternate in-frame splice site and lacks an alternate in-frame exon in the 3′ coding region, compared to variant 1. Human BRM (SMARCA2) isoform D (NP_001276327.1) is encodable by the transcript variant 5 (NM_001289398.1), which differs in the 5′ UTR, lacks a portion of the 5′ coding region, and initiates translation at an alternate downstream start codon, compared to variant 1. Human BRM (SMARCA2) isoform E (NP_001276328.1) is encodable by the transcript variant 6 (NM_001289399.1), which differs in the 5′ UTR, lacks a portion of the 5′ coding region, and initiates translation at an alternate downstream start codon, compared to variant 1. Human BRM (SMARCA2) isoform F (NP_001276329.1) is encodable by the transcript variant 7 (NM_001289400.1), which differs in the 5′ UTR, lacks a portion of the 5′ coding region, and initiates translation at an alternate downstream start codon, compared to variant 1. Nucleic acid and polypeptide sequences of BRM orthologs in organisms other than humans are well known and include, for example, chimpanzee BRM (XM_016960529.2 and XP_016816018.2), dog BRM (XM_005615906.3 and XP_005615963.1, XM_845066.5 and XP_850159.1, XM_005615905.3 and XP_005615962.1, XM_022421616.1 and) XP_022277324.1, XM_005615903.3 and XP_005615960.1, and XM_005615902.3 and XP_005615959.1), cattle BRM (NM_001099115.2 and NP_001092585.1), mouse BRM (NM_011416.2 and NP_035546.2, NM_026003.2 and NP_080279.1, and NM_001347439.1 and NP_001334368.1), rat BRM (NM_001004446.1 and NP_001004446.1), chicken BRM (NM_205139.1 and NP_990470.1), and zebrafish BRM (NM_001044775.2 and NP_001038240.1). Representative sequences of BRM (SMARCA2) orthologs are presented below in Table 1.

Anti-BRM antibodies suitable for detecting BRM protein are well-known in the art and include, for example, antibody MABE89 (EMD Millipore, Billerica, Mass.), antibody TA351725 (OriGene Technologies, Rockville, Md.), NBP1-90015, NBP1-80042, NB100-55308, NB100-55309, NB100-55307, and H00006595-M06 (antibodes from Novus Biologicals, Littleton, Colo.), ab15597, ab12165, ab58188, and ab200480 (antibodies from AbCam, Cambridge, Mass.), Cat #: 11966 and 6889 (antibodies from Cell Signaling, Danvers, Mass.), etc. In addition, reagents are well-known for detecting BRM expression. Multiple clinical tests of SMARCA2 are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000517266.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing BRM Expression can be found in the commercial product lists of the above-referenced companies. For example, BRM RNAi product H00006595-R02 (Novus Biologicals), siRNA products #sc-29831 and sc-29834 and CRISPR product #sc-401049-KO-2 from Santa Cruz Biotechnology, RNAi products SR304470 and TL301508V, and CRISPR product KN215950 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding BRM molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe an BRM molecule encompassed by the present invention.

The term “BAF250A” or “ARID1A” refers to AT-rich interactive domain-containing protein 1A, a subunit of the SWI/SNF complex, which can be find in BAF but not PBAF complex. In humans there are two BAF250 isoforms, BAF250A/ARID1A and BAF250B/ARID1B. They are thought to be E3 ubiquitin ligases that target histone H2B (Li et al. (2010) Mol. Cell. Biol. 30:1673-1688). ARID1A is highly expressed in the spleen, thymus, prostate, testes, ovaries, small intestine, colon and peripheral leukocytes. ARID1A is involved in transcriptional activation and repression of select genes by chromatin remodeling. It is also involved in vitamin D-coupled transcription regulation by associating with the WINAC complex, a chromatin-remodeling complex recruited by vitamin D receptor. ARID1A belongs to the neural progenitors-specific chromatin remodeling (npBAF) and the neuron-specific chromatin remodeling (nBAF) complexes, which are involved in switching developing neurons from stem/progenitors to post-mitotic chromatin remodeling as they exit the cell cycle and become committed to their adult state. ARID1A also plays key roles in maintaining embryonic stem cell pluripotency and in cardiac development and function (Lei et al. (2012) J. Biol. Chem. 287:24255-24262; Gao et al. (2008) Proc. Natl. Acad. Sci. U.S.A. 105:6656-6661). Loss of BAF250a expression was seen in 42% of the ovarian clear cell carcinoma samples and 21% of the endometrioid carcinoma samples, compared with just 1% of the high-grade serous carcinoma samples. ARID1A deficiency also impairs the DNA damage checkpoint and sensitizes cells to PARP inhibitors (Shen et al. (2015) Cancer Discov. 5:752-767). Human ARID protein has 2285 amino acids and a molecular mass of 242045 Da, with at least a DNA-binding domain that can specifically bind an AT-rich DNA sequence, recognized by a SWI/SNF complex at the beta-globin locus, and a C-terminus domain for glucocorticoid receptor-dependent transcriptional activation. ARID1A has been shown to interact with proteins such as SMARCB1/BAF47 (Kato et al. (2002) J. Biol. Chem. 277:5498-505; Wang et al. (1996) EMBO J. 15:5370-5382) and SMARCA4/BRG1 (Wang et al. (1996), supra; Zhao et al. (1998) Cell 95:625-636), etc.

The term “BAF250A” or “ARID1A” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human BAF250A (ARID1A) cDNA and human BAF250A (ARID1A) protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human ARID1A isoforms are known. Human ARID1A isoform A (NP_006006.3) is encodable by the transcript variant 1 (NM_006015.4), which is the longer transcript. Human ARID1A isoform B (NP_624361.1) is encodable by the transcript variant 2 (NM_139135.2), which lacks a segment in the coding region compared to variant 1. Isoform B thus lacks an internal segment, compared to isoform A. Nucleic acid and polypeptide sequences of ARID1A orthologs in organisms other than humans are well known and include, for example, chimpanzee ARID1A (XM_016956953.1 and XP_016812442.1, XM_016956958.1 and XP_016812447.1, and XM_009451423.2 and XP_009449698.2), Rhesus monkey ARID1A (XM_015132119.1 and XP_014987605.1, and XM_015132127.1 and XP_014987613.1), dog ARID1A (XM_847453.5 and XP_852546.3, XM_005617743.2 and XP_005617800.1, XM_005617742.2 and XP_005617799.1, XM_005617744.2 and XP_005617801.1, XM_005617746.2 and XP_005617803.1, and XM_005617745.2 and XP_005617802.1), cattle ARID1A (NM_001205785.1 and NP_001192714.1), rat ARID1A (NM_001106635.1 and NP_001100105.1).

Anti-ARID1A antibodies suitable for detecting ARID1A protein are well-known in the art and include, for example, antibody Cat#04-080 (EMD Millipore, Billerica, Mass.), antibodies TA349170, TA350870, and TA350871 (OriGene Technologies, Rockville, Md.), antibodies NBP1-88932, NB100-55334, NBP2-43566, NB100-55333, and H00008289-Q01 (Novus Biologicals, Littleton, Colo.), antibodies ab182560, ab182561, ab176395, and ab97995 (AbCam, Cambridge, Mass.), antibodies Cat #: 12354 and 12854 (Cell Signaling Technology, Danvers, Mass.), antibodies GTX129433, GTX129432, GTX632013, GTX12388, and GTX31619 (GeneTex, Irvine, Calif.), etc. In addition, reagents are well-known for detecting ARID1A expression. For example, multiple clinical tests for ARID1A are available at NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000520952.1 for mental retardation, offered by Centogene AG, Germany). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing ARID1A Expression can be found in the commercial product lists of the above-referenced companies, such as RNAi products H00008289-R01, H00008289-R02, and H00008289-R03 (Novus Biologicals) and CRISPR products KN301547G1 and KN301547G2 (Origene). Other CRISPR products include sc-400469 (Santa Cruz Biotechnology) and those from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding ARID1A molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe an ARID1A molecule encompassed by the present invention.

The term “loss-of-function mutation” for BAF250A/ARID1A refers to any mutation in an ARID1A-related nucleic acid or protein that results in reduced or eliminated ARID1A protein amounts and/or function. For example, nucleic acid mutations include single-base substitutions, multi-base substitutions, insertion mutations, deletion mutations, frameshift mutations, missesnse mutations, nonsense mutations, splice-site mutations, epigenetic modifications (e.g., methylation, phosphorylation, acetylation, ubiquitylation, sumoylation, histone acetylation, histone deacetylation, and the like), and combinations thereof. In some embodiments, the mutation is a “nonsynonymous mutation,” meaning that the mutation alters the amino acid sequence of ARID1A. Such mutations reduce or eliminate ARID1A protein amounts and/or function by eliminating proper coding sequences required for proper ARID1A protein translation and/or coding for ARID1A proteins that are non-functional or have reduced function (e.g., deletion of enzymatic and/or structural domains, reduction in protein stability, alteration of sub-cellular localization, and the like). Such mutations are well-known in the art. In addition, a representative list describing a wide variety of structural mutations correlated with the functional result of reduced or eliminated ARID1A protein amounts and/or function is described in the Tables and the Examples.

The term “BAF250B” or “ARID1B” refers to AT-rich interactive domain-containing protein 1B, a subunit of the SWI/SNF complex, which can be find in BAF but not PBAF complex. ARID1B and ARID1A are alternative and mutually exclusive ARID-subunits of the SWI/SNF complex. Germline mutations in ARID1B are associated with Coffin-Siris syndrome (Tsurusaki et al. (2012) Nat. Genet. 44:376-378; Santen et al. (2012) Nat. Genet. 44:379-380). Somatic mutations in ARID1B are associated with several cancer subtypes, suggesting that it is a tumor suppressor gene (Shai and Pollack (2013) PLoS ONE 8:e55119; Sausen et al. (2013) Nat. Genet. 45:12-17; Shain et al. (2012) Proc. Natl. Acad. Sci. U.S.A. 109:E252-E259; Fujimoto et al. (2012) Nat. Genet. 44:760-764). Human ARID1A protein has 2236 amino acids and a molecular mass of 236123 Da, with at least a DNA-binding domain that can specifically bind an AT-rich DNA sequence, recognized by a SWI/SNF complex at the beta-globin locus, and a C-terminus domain for glucocorticoid receptor-dependent transcriptional activation. ARID has been shown to interact with SMARCA4/BRG1 (Hurlstone et al. (2002) Biochem. J. 364:255-264; Inoue et al. (2002) J. Biol. Chem. 277:41674-41685 and SMARCA2/BRM (Inoue et al. (2002), supra).

The term “BAF250B” or “ARID1B” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human BAF250B (ARID1B) cDNA and human BAF250B (ARID1B) protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, three different human ARID1B isoforms are known. Human ARID1B isoform A (NP_059989.2) is encodable by the transcript variant 1 (NM_017519.2). Human ARID1B isoform B (NP_065783.3) is encodable by the transcript variant 2 (NM_020732.3). Human ARID1B isoform C (NP_001333742.1) is encodable by the transcript variant 3 (NM_001346813.1). Nucleic acid and polypeptide sequences of ARID1B orthologs in organisms other than humans are well known and include, for example, Rhesus monkey ARID1B (XM_015137088.1 and XP_014992574.1), dog ARID1B (XM_014112912.1 and XP_013968387.1), cattle ARID1B (XM_010808714.2 and XP_010807016.1, and XM_015464874.1 and XP_015320360.1), rat ARID1B (XM_017604567.1 and XP_017460056.1).

Anti-ARID1B antibodies suitable for detecting ARID1B protein are well-known in the art and include, for example, antibody Cat #ABE316 (EMD Millipore, Billerica, Mass.), antibody TA315663 (OriGene Technologies, Rockville, Md.), antibodies H00057492-M02, H00057492-M01, NB100-57485, NBP1-89358, and NB100-57484 (Novus Biologicals, Littleton, Colo.), antibodies ab57461, ab69571, ab84461, and ab163568 (AbCam, Cambridge, Mass.), antibodies Cat #: PA5-38739, PA5-49852, and PA5-50918 (ThermoFisher Scientific, Danvers, Mass.), antibodies GTX130708, GTX60275, and GTX56037 (GeneTex, Irvine, Calif.), ARID1B (KMN1) Antibody and other antibodies (Santa Cruz Biotechnology), etc. In addition, reagents are well-known for detecting ARID1B expression. For example, multiple clinical tests for ARID1B are available at NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000520953.1 for mental retardation, offered by Centogene AG, Germany). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing ARID1B Expression can be found in the commercial product lists of the above-referenced companies, such as RNAi products H00057492-R03, H00057492-R01, and H00057492-R02 (Novus Biologicals) and CRISPR products KN301548 and KN214830 (Origene). Other CRISPR products include sc-402365 (Santa Cruz Biotechnology) and those from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding ARID1B molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe an ARID1B molecule encompassed by the present invention.

The term “loss-of-function mutation” for BAF250B/ARID1B refers to any mutation in an ARID1B-related nucleic acid or protein that results in reduced or eliminated ARID1B protein amounts and/or function. For example, nucleic acid mutations include single-base substitutions, multi-base substitutions, insertion mutations, deletion mutations, frameshift mutations, missesnse mutations, nonsense mutations, splice-site mutations, epigenetic modifications (e.g., methylation, phosphorylation, acetylation, ubiquitylation, sumoylation, histone acetylation, histone deacetylation, and the like), and combinations thereof. In some embodiments, the mutation is a “nonsynonymous mutation,” meaning that the mutation alters the amino acid sequence of ARID1B. Such mutations reduce or eliminate ARID1B protein amounts and/or function by eliminating proper coding sequences required for proper ARID1B protein translation and/or coding for ARID1B proteins that are non-functional or have reduced function (e.g., deletion of enzymatic and/or structural domains, reduction in protein stability, alteration of sub-cellular localization, and the like). Such mutations are well-known in the art. In addition, a representative list describing a wide variety of structural mutations correlated with the functional result of reduced or eliminated ARID1B protein amounts and/or function is described in the Tables and the Examples.

The term “PBRM1” or “BAF180” refers to protein Polybromo-1, which is a subunit of ATP-dependent chromatin-remodeling complexes. PBRM1 functions in the regulation of gene expression as a constituent of the evolutionary-conserved SWI/SNF chromatin remodelling complexes (Euskirchen et al. (2012) J. Biol. Chem. 287:30897-30905). Beside BRD7 and BAF200, PBRM1 is one of the unique components of the SWI/SNF-B complex, also known as polybromo/BRG1-associated factors (or PBAF), absent in the SWI/SNF-A (BAF) complex (Xue et al. (2000) Proc Natl Acad Sci USA. 97:13015-13020; Brownlee et al. (2012) Biochem Soc Trans. 40:364-369). On that account, and because it contains bromodomains known to mediate binding to acetylated histones, PBRM1 has been postulated to target PBAF complex to specific chromatin sites, therefore providing the functional selectivity for the complex (Xue et al. (2000), supra; Lemon et al. (2001) Nature 414:924-928; Brownlee et al. (2012), supra). Although direct evidence for PBRM1 involvement is lacking, SWI/SNF complexes have also been shown to play a role in DNA damage response (Park et al. (2006) EMBO J. 25:3986-3997). In vivo studies have shown that PBRM1 deletion leads to embryonic lethality in mice, where PBRM1 is required for mammalian cardiac chamber maturation and coronary vessel formation (Wang et al. (2004) Genes Dev. 18:3106-3116; Huang et al. (2008) Dev Biol. 319:258-266). PBRM1 mutations are most predominant in renal cell carcinomas (RCCs) and have been detected in over 40% of cases, placing PBRM1 second (after VHL) on the list of most frequently mutated genes in this cancer (Varela et al. (2011) Nature 469:539-542; Hakimi et al. (2013) Eur Urol. 63:848-854; Pena-Llopis et al. (2012) Nat Genet. 44:751-759; Pawlowski et al. (2013) Int J Cancer. 132:E11-E17). PBRM1 mutations have also been found in a smaller group of breast and pancreatic cancers (Xia et al. (2008) Cancer Res. 68:1667-1674; Shain et al. (2012) Proc Natl Acad Sci USA.109:E252-E259; Numata et al. (2013) Int J Oncol. 42:403-410). PBRM1 mutations are more common in patients with advance stages (Hakimi et al. (2013), supra) and loss of PBRM1 protein expression has been associated with advanced tumour stage, low differentiation grade and worse patient outcome (Pawlowski et al. (2013), supra). In another study, no correlation between PBRM1 status and tumour grade was found (Pena-Llopis et al. (2012), supra). Although PBRM1-mutant tumours are associated with better prognosis than BAP1-mutant tumours, tumours mutated for both PBRM1 and BAP1 exhibit the greatest aggressiveness (Kapur et al. (2013) Lancet Oncol. 14:159-167). PBRM1 is ubiquitously expressed during mouse embryonic development (Wang et al. (2004), supra) and has been detected in various human tissues including pancreas, kidney, skeletal muscle, liver, lung, placenta, brain, heart, intestine, ovaries, testis, prostate, thymus and spleen (Xue et al. (2000), supra; Horikawa and Barrett (2002) DNA Seq. 13:211-215).

PBRM1 protein localises to the nucleus of cells (Nicolas and Goodwin (1996) Gene 175:233-240). As a component of the PBAF chromatin-remodelling complex, it associates with chromatin (Thompson (2009) Biochimie. 91:309-319), and has been reported to confer the localisation of PBAF complex to the kinetochores of mitotic chromosomes (Xue et al. (2000), supra). Human PBRM1 gene encodes a 1582 amino acid protein, also referred to as BAF180. Six bromodomains (BD1-6), known to recognize acetylated lysine residues and frequently found in chromatin-associated proteins, constitute the N-terminal half of PBRM1 (e.g., six BD domains at amino acid residue no. 44-156, 182-284, 383-484, 519-622, 658-762, and 775-882 of SEQ ID NO:2). The C-terminal half of PBRM1 contains two bromo-adjacent homology (BAH) domains (BAH1 and BAH2, e.g., at amino acid residue no. 957-1049 and 1130-1248 of SE ID NO:2), present in some proteins involved in transcription regulation. High mobility group (HMG) domain is located close to the C-terminus of PBRM1 (e.g., amino acid residue no. 1328-1377 of SEQ ID NO:2). HMG domains are found in a number of factors regulating DNA-dependent processes where HMG domains often mediate interactions with DNA.

The term “PBRM1” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human PBRM1 cDNA and human PBRM1 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human PBRM1 isoforms are known. Human PBRM1 transcript variant 2 (NM_181042.4) represents the longest transcript. Human PBRM1 transcript variant 1 (NM_018313.4, having a CDS from the 115-4863 nucleotide residue of SEQ ID NO:1) differs in the 5′ UTR and uses an alternate exon and splice site in the 3′ coding region, thus encoding a distinct protein sequence (NP_060783.3, as SEQ ID NO:2) of the same length as the isoform (NP_851385.1) encoded by variant 2. Nucleic acid and polypeptide sequences of PBRM1 orthologs in organisms other than humans are well known and include, for example, chimpanzee PBRM1 (XM_009445611.2 and XP_009443886.1, XM_009445608.2 and XP_009443883.1, XM_009445602.2 and XP_009443877.1, XM_016941258.1 and XP_016796747.1, XM_016941256.1 and XP_016796745.1, XM_016941249.1 and) XP_016796738.1, XM_016941260.1 and XP_016796749.1, XM_016941253.1 and XP_016796742.1 XM_016941250.1 and XP_016796739.1, XM_016941261.1 and XP_016796750.1 XM_009445605.2 and XP_009443880.1, XM_016941252.1 and XP_016796741.1 XM_009445603.2 and XP_009443878.1, XM_016941263.1 and XP_016796752.1 XM_016941262.1 and XP_016796751.1, XM_009445604.2 and XP_009443879.1 XM_016941251.1 and XP_016796740.1, XM_016941257.1 and XP_016796746.1 XM_016941255.1 and XP_016796744.1, XM_016941254.1 and XP_016796743.1 XM_016941265.1 and XP_016796754.1, XM_016941264.1 and XP_016796753.1 XM_016941248.1 and XP_016796737.1, XM_009445617.2 and XP_009443892.1 XM_009445616.2 and XP_009443891.1, XM_009445619.2 and XP_009443894.1 XM_009445615.2 and XP_009443890.1, XM_009445618.2 and XP_009443893.1, and XM_016941266.1 and XP_016796755.1), rhesus monkey PBRM1 XM_015130736.1 and XP_014986222.1, XM_015130739.1 and XP_014986225.1, XM_015130737.1 and XP_014986223.1, XM_015130740.1 and XP_014986226.1, XM_015130727.1 and XP_014986213.1, XM_015130726.1 and XP_014986212.1, XM_015130728.1 and XP_014986214.1, XM_015130743.1 and XP_014986229.1, XM_015130731.1 and XP_014986217.1, XM_015130745.1 and XP_014986231.1, XM_015130741.1 and XP_014986227.1, XM_015130734.1 and XP_014986220.1, XM_015130744.1 and XP_014986230.1, XM_015130748.1 and XP_014986234.1, XM_015130746.1 and XP_014986232.1, XM_015130742.1 and XP_014986228.1, XM_015130747.1 and XP_014986233.1, XM_015130730.1 and XP_014986216.1, XM_015130732.1 and XP_014986218.1, XM_015130733.1 and XP_014986219.1, XM_015130735.1 and XP_014986221.1, XM_015130738.1 and XP_014986224.1, and XM_015130725.1 and XP_014986211.1), dog PBRM1 (XM_005632441.2 and XP_005632498.1 XM_014121868.1 and XP_013977343.1, XM_005632451.2 and XP_005632508.1 XM_014121867.1 and XP_013977342.1, XM_005632440.2 and XP_005632497.1 XM_005632446.2 and XP_005632503.1, XM_533797.5 and XP_533797.4 XM_005632442.2 and XP_005632499.1, XM_005632439.2 and XP_005632496.1 XM_014121869.1 and XP_013977344.1, XM_005632448.1 and XP_005632505.1 XM_005632449.1 and XP_005632506.1, XM_005632452.1 and XP_005632509.1 XM_005632445.1 and XP_005632502.1, XM_005632450.1 and XP_005632507.1 XM_005632453.1 and XP_005632510.1, XM_014121870.1 and XP_013977345.1 XM_005632443.1 and XP_005632500.1, XM_005632444.1 and XP_005632501.1, and XM_005632447.2 and XP_005632504.1), cow PBRM1 (XM_005222983.3 and XP_005223040.1, XM_005222979.3 and XP_005223036.1, XM_015459550.1 and XP_015315036.1, XM_015459551.1 and XP_015315037.1, XM_015459548.1 and XP_015315034.1, XM_010817826.1 and XP_010816128.1, XM_010817829.1 and XP_010816131.1, XM_010817830.1 and XP_010816132.1, XM_010817823.1 and XP_010816125.1, XM_010817824.2 and XP_010816126.1, XM_010817819.2 and XP_010816121.1, XM_010817827.2 and XP_010816129.1, XM_010817828.2 and XP_010816130.1, XM_010817817.2 and XP_010816119.1, and XM_010817818.2 and XP_010816120.1), mouse PBRM1 (NM_001081251.1 and NP_001074720.1), chicken PBRM1 (NM_205165.1 and NP_990496.1), tropical clawed frog PBRM1 (XM_018090224.1 and XP_017945713.1), zebrafish PBRM1 (XM_009305786.2 and XP_009304061.1, XM_009305785.2 and XP_009304060.1, and XM_009305787.2 and XP_009304062.1), fruit fly PBRM1 (NM_143031.2 and NP_651288.1), and worm PBRM1 (NM_001025837.3 and NP_001021008.1 and. NM_001025838.2 and NP_001021009.1). Representative sequences of PBRM1 orthologs are presented below in Table 1. Anti-PBRM1 antibodies suitable for detecting PBRM1 protein are well-known in the art and include, for example, ABE70 (rabbit polyclonal antibody, EMD Millipore, Billerica, Mass.), TA345237 and TA345238 (rabbit polyclonal antibodies, OriGene Technologies, Rockville, Md.), NBP2-30673 (mouse monoclonal) and other polyclonal antibodes (Novus Biologicals, Littleton, Colo.), ab196022 (rabiit mAb, AbCam, Cambridge, Mass.), PAH437Hu01 and PAH437Hu02 (rabbit polyclonal antibodies, Cloud-Clone Corp., Houston, Tex.), GTX100781 (GeneTex, Irvine, Calif.), 25-498 (ProSci, Poway, Calif.), sc-367222 (Santa Cruz Biotechnology, Dallas, Tex.), etc. In addition, reagents are well-known for detecting PBRM1 expression (see, for example, PBRM1 Hu-Cy3 or Hu-Cy5 SmartFlare™ RNA Detection Probe (EMD Millipore). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing PBRM1 expression can be found in the commercial product lists of the above-referenced companies. Ribavirin and PFI 3 are known PBRM1 inhibitors. It is to be noted that the term can further be used to refer to any combination of features described herein regarding PBRM1 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe an PBRM1 molecule encompassed by the present invention.

The term “PBRM1 loss of function mutation” refers to any mutation in a PBRM1-related nucleic acid or protein that results in reduced or eliminated PBRM1 protein amounts and/or function. For example, nucleic acid mutations include single-base substitutions, multi-base substitutions, insertion mutations, deletion mutations, frameshift mutations, missesnse mutations, nonsense mutations, splice-site mutations, epigenetic modifications (e.g., methylation, phosphorylation, acetylation, ubiquitylation, sumoylation, histone acetylation, histone deacetylation, and the like), and combinations thereof. In some embodiments, the mutation is a “nonsynonymous mutation,” meaning that the mutation alters the amino acid sequence of PBRM1. Such mutations reduce or eliminate PBRM1 protein amounts and/or function by eliminating proper coding sequences required for proper PBRM1 protein translation and/or coding for PBRM1 proteins that are non-functional or have reduced function (e.g., deletion of enzymatic and/or structural domains, reduction in protein stability, alteration of sub-cellular localization, and the like). Such mutations are well-known in the art. In addition, a representative list describing a wide variety of structural mutations correlated with the functional result of reduced or eliminated PBRM1 protein amounts and/or function is described in Table 1 and the Examples. Without being bound by theory, it is believed that nonsense, frameshift, and splice-site mutations are particularly amenable to PBRM1 loss of function because they are known to be indicative of lack of PBRM1 expression in cell lines harboring such mutations. The term “BAF200” or “ARID2” refers to AT-rich interactive domain-containing protein 2, a subunit of the SWI/SNF complex, which can be found in PBAF but not BAF complexes. It facilitates ligand-dependent transcriptional activation by nuclear receptors. The ARID2 gene, located on chromosome 12q in humans, consists of 21 exons; orthologs are known from mouse, rat, cattle, chicken, and mosquito (Zhao et al. (2011) Oncotarget 2:886-891). A conditional knockout mouse line, called Arid2^(tmla(EUCOMNI)Wtsi) was generated as part of the International Knockout Mouse Consortium program, a high-throughput mutagenesis project to generate and distribute animal models of disease (Skames et al. (2011) Nature 474:337-342). Human ARID2 protein has 1835 amino acids and a molecular mass of 197391 Da. The ARID2 protein contains two conserved C-terminal C2H2 zinc fingers motifs, a region rich in the amino acid residues proline and glutamine, a RFX (regulatory factor X)-type winged-helix DNA-binding domain (e.g., amino acids 521-601 of SEQ ID NO:8), and a conserved N-terminal AT-rich DNA interaction domain (e.g., amino acids 19-101 of SEQ ID NO:8; Zhao et al. (2011), supra). Mutation studies have revealed ARID2 to be a significant tumor suppressor in many cancer subtypes. ARID2 mutations are prevalent in hepatocellular carcinoma (Li et al. (2011) Nature Genetics. 43:828-829) and melanoma (Hodis et al. (2012) Cell 150:251-263; Krauthammer et al. (2012) Nature Genetics. 44:1006-1014). Mutations are present in a smaller but significant fraction in a wide range of other tumors (Shain and Pollack (2013), supra). ARID2 mutations are enriched in hepatitis C virus-associated hepatocellular carcinoma in the U.S. and European patient populations compared with the overall mutation frequency (Zhao et al. (2011), supra). The known binding partners for ARID2 include, e.g., Serum Response Factor (SRF) and SRF cofactors MYOCD, NKX2-5 and SRFBP1.

The term “BAF200” or “ARID2” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. ReRepresentative human ARID2 cDNA and human ARID2 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human ARID2 isoforms are known. Human ARID2 isoform A (NP_689854.2) is encodable by the transcript variant 1 (NM_152641.3), which is the longer transcript. Human ARID2 isoform B (NP_001334768.1) is encodable by the transcript variant 2 (NM_001347839.1), which differs in the 3′ UTR and 3′ coding region compared to isoform A. The encoded isoform B has a shorter C-terminus compared to isoform A. Nucleic acid and polypeptide sequences of ARID2 orthologs in organisms other than humans are well known and include, for example, chimpanzee ARID2 (XM_016923581.1 and XP_016779070.1, and XM_016923580.1 and XP_016779069.1), Rhesus monkey ARID2 (XM_015151522.1 and XP_015007008.1), dog ARID2 (XM_003433553.2 and XP_003433601.2; and XM_014108583.1 and XP_013964058.1), cattle ARID2 (XM_002687323.5 and XP_002687369.1; and XM_015463314.1 and XP_015318800.1), mouse ARID2 (NM_175251.4 and NP_780460.3), rat ARID2 (XM_345867.8 and XP_345868.4; and XM_008776620.1 and XP_008774842.1), chicken ARID2 (XM_004937552.2 and XP_004937609.1, XM_004937551.2 and XP_004937608.1, XM_004937554.2 and XP_004937611.1, and XM_416046.5 and XP_416046.2), tropical clawed frog ARID2 (XM_002932805.4 and XP_002932851.1, XM_018092278.1 and) XP_017947767.1, and XM_018092279.1 and XP_017947768.1), and zebrafish ARID2 (NM_001077763.1 and NP_001071231.1, and XM_005164457.3 and XP_005164514.1). ReRepresentative sequences of ARID2 orthologs are presented below in Table 1.

Anti-ARID2 antibodies suitable for detecting ARID2 protein are well-known in the art and include, for example, antibodies ABE316 and 04-080 (EMD Millipore, Billerica, Mass.), antibodies NBP1-26615, NBP2-43567, and NBP1-26614 (Novus Biologicals, Littleton, Colo.),antibodies ab51019, ab166850, ab113283, and ab56082 (AbCam, Cambridge, Mass.), antibodies Cat #: PA5-35857 and PA5-51258 (ThermoFisher Scinetific, Waltham, Mass.), antibodies GTX129444, GTX129443, and GTX632011 (GeneTex, Irvine, Calif.), ARID2 (H-182) Antibody, ARID2 (H-182) X Antibody, ARID2 (S-13) Antibody, ARID2 (S-13) X Antibody, ARID2 (E-3) Antibody, and ARID2 (E-3) X Antibody (Santa Cruz Biotechnology), etc. In addition, reagents are well-known for detecting ARID2 expression. Multiple clinical tests of PBRM1 are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000541481.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing ARID2 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA product #SR316272, shRNA products #TR306601, TR505226, TG306601, SR420583, and CRISPER products #KN212320 and KN30154 from Origene Technologies (Rockville, Md.), RNAi product H00196528-R01 (Novus Biologicals), CRISPER gRNA products from GenScript (Cat. #KN301549 and KN212320, Piscataway, N.J.) and from Santa Cruz (sc-401863), and RNAi products from Santa Cruz (Cat #sc-96225 and sc-77400). It is to be noted that the term can further be used to refer to any combination of features described herein regarding ARID2 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe an ARID2 molecule encompassed by the present invention.

The term “loss-of-function mutation” for BAF200/ARID2 refers to any mutation in a ARID2-related nucleic acid or protein that results in reduced or eliminated ARID2 protein amounts and/or function. For example, nucleic acid mutations include single-base substitutions, multi-base substitutions, insertion mutations, deletion mutations, frameshift mutations, missesnse mutations, nonsense mutations, splice-site mutations, epigenetic modifications (e.g., methylation, phosphorylation, acetylation, ubiquitylation, sumoylation, histone acetylation, histone deacetylation, and the like), and combinations thereof. In some embodiments, the mutation is a “nonsynonymous mutation,” meaning that the mutation alters the amino acid sequence of ARID2. Such mutations reduce or eliminate ARID2 protein amounts and/or function by eliminating proper coding sequences required for proper ARID2 protein translation and/or coding for ARID2 proteins that are non-functional or have reduced function (e.g., deletion of enzymatic and/or structural domains, reduction in protein stability, alteration of sub-cellular localization, and the like). Such mutations are well-known in the art. In addition, a reRepresentative list describing a wide variety of structural mutations correlated with the functional result of reduced or eliminated ARID2 protein amounts and/or function is described in the Tables and the Examples.

The term “BRD7” refers to Bromodomain-containing protein 7, a subunit of the SWI/SNF complex, which can be found in PBAF but not BAF complexes. BRD7 is a transcriptional corepressor that binds to target promoters (e.g., the ESR1 promoter) and down-regulates the expression of target genes, leading to increased histone H3 acetylation at Lys-9 (H3K9ac). BRD7 can recruit other proteins such as BRCA1 and POU2F1 to, e.g., the ESR1 promoter for its function. BRD7 activates the Wnt signaling pathway in a DVL1-dependent manner by negatively regulating the GSK3B phosphotransferase activity, while BRD7 induces dephosphorylation of GSK3B at Tyr-216. BRD7 is also a coactivator for TP53-mediated activation of gene transcription and is required for TP53-mediated cell-cycle arrest in response to oncogene activation. BRD7 promotes acetylation of TP53 at Lys-382, and thereby promotes efficient recruitment of TP53 to target promoters. BRD7 also inhibits cell cycle progression from G1 to S phase. For studies on BRD7 functions, see Zhou et al. (2006) J. Cell. Biochem. 98:920-930; Harte et al. (2010) Cancer Res. 70:2538-2547; Drost et al. (2010) Nat. Cell Biol. 12:380-389. The known binding partners for BRD7 also include, e.g., Tripartite Motif Containing 24 (TRIM24), Protein Tyrosine Phosphatase, Non-Receptor Type 13 (PTPN13), Dishevelled Segment Polarity Protein 1 (DVL1), interferon regulatory factor 2 (IRF2) (Staal et al. (2000) J. Cell. Physiol. US 185:269-279) and heterogeneous nuclear ribonucleoprotein U-like protein 1 (HNRPUL1) (Kzhyshkowska et al. (2003) Biochem. J. England. 371:385-393). Human BRD7 protein has 651 amino acids and a molecular mass of 74139 Da, with a N-terminal nuclear localization signal (e.g., amino acids 65-96 of SEQ ID NO:14), a Bromo-BRD7-like domain (e.g., amino acids 135-232 of SEQ ID NO:14), and a DUF3512 domain (e.g., amino acids 287-533 of SEQ ID NO:14).

The term “BRD7” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. ReRepresentative human BRD7 cDNA and human BRD7 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human BRD7 isoforms are known. Human BRD7 isoform A (NP_001167455.1) is encodable by the transcript variant 1 (NM_001173984.2), which is the longer transcript. Human BRD7 isoform B (NP_037395.2) is encodable by the transcript variant 2 (NM_013263.4), which uses an alternate in-frame splice site in the 3′ coding region, compared to variant 1. The resulting isoform B lacks one internal residue, compared to isoform A. Nucleic acid and polypeptide sequences of BRD7 orthologs in organisms other than humans are well known and include, for example, chimpanzee BRD7 (XM_009430766.2 and XP_009429041.1, XM_016929816.1 and XP_016785305.1, XM_016929815.1 and XP_016785304.1, and XM_003315094.4 and XP_003315142.1), Rhesus monkey BRD7 (XM_015126104.1 and) XP_014981590.1, XM_015126103.1 and XP_014981589.1, XM_001083389.3 and XP_001083389.2, and XM_015126105.1 and XP_014981591.1), dog BRD7 (XM_014106954.1 and XP_013962429.1), cattle BRD7 (NM_001103260.2 and NP_001096730.1), mouse BRD7 (NM_012047.2 and NP_036177.1), chicken BRD7 (NM_001005839.1 and NP_001005839.1), tropical clawed frog BRD7 (NM_001008007.1 and NP_001008008.1), and zebrafish BRD7 (NM_213366.2 and NP_998531.2). Representative sequences of BRD7 orthologs are presented below in Table 1.

Anti-BRD7 antibodies suitable for detecting BRD7 protein are well-known in the art and include, for example, antibody TA343710 (Origene), antibody NBP1-28727 (Novus Biologicals, Littleton, Colo.), antibodies ab56036, ab46553, ab202324, and ab114061 (AbCam, Cambridge, Mass.), antibodies Cat #: 15125 and 14910 (Cell Signaling), antibody GTX118755 (GeneTex, Irvine, Calif.), BRD7 (P-13) Antibody, BRD7 (T-12) Antibody, BRD7 (H-77) Antibody, BRD7 (H-2) Antibody, and BRD7 (B-8) Antibody (Santa Cruz Biotechnology), etc. In addition, reagents are well-known for detecting BRD7 expression. A clinical test of BRD7 is available in NIH Genetic Testing Registry (GTR®) with GTR Test ID: GTR000540400.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing BRD7 expression can be found in the commercial product lists of the above-referenced companies, such as shRNA product #TR100001 and CRISPER products #KN302255 and KN208734 from Origene Technologies (Rockville, Md.), RNAi product H00029117-R01 (Novus Biologicals), and small molecule inhibitors BI 9564 and TP472 (Tocris Bioscience, UK). It is to be noted that the term can further be used to refer to any combination of features described herein regarding BRD7 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe an BRD7 molecule encompassed by the present invention.

The term “loss-of-function mutation” for BRD7 refers to any mutation in a BRD7-related nucleic acid or protein that results in reduced or eliminated BRD7 protein amounts and/or function. For example, nucleic acid mutations include single-base substitutions, multi-base substitutions, insertion mutations, deletion mutations, frameshift mutations, missesnse mutations, nonsense mutations, splice-site mutations, epigenetic modifications (e.g., methylation, phosphorylation, acetylation, ubiquitylation, sumoylation, histone acetylation, histone deacetylation, and the like), and combinations thereof. In some embodiments, the mutation is a “nonsynonymous mutation,” meaning that the mutation alters the amino acid sequence of BRD7. Such mutations reduce or eliminate BRD7 protein amounts and/or function by eliminating proper coding sequences required for proper BRD7 protein translation and/or coding for BRD7 proteins that are non-functional or have reduced function (e.g., deletion of enzymatic and/or structural domains, reduction in protein stability, alteration of sub-cellular localization, and the like). Such mutations are well-known in the art. In addition, a reRepresentative list describing a wide variety of structural mutations correlated with the functional result of reduced or eliminated BRD7 protein amounts and/or function is described in the Tables and the Examples.

The term “BAF45A” or “PHF10” refers to PHD finger protein 10, a subunit of the PBAF complex having two zinc finger domains at its C-terminus. PHF10 belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and is required for the proliferation of neural progenitors. During neural development a switch from a stem/progenitor to a post-mitotic chromatin remodeling mechanism occurs as neurons exit the cell cycle and become committed to their adult state. The transition from proliferating neural stem/progenitor cells to post-mitotic neurons requires a switch in subunit composition of the npBAF and nBAF complexes. As neural progenitors exit mitosis and differentiate into neurons, npBAF complexes which contain ACTL6A/BAF53A and PHF10/BAF45A, are exchanged for homologous alternative ACTL6B/BAF53B and DPF1/BAF45B or DPF3/BAF45C subunits in neuron-specific complexes (nBAF). The npBAF complex is essential for the self-renewal/proliferative capacity of the multipotent neural stem cells. The nBAF complex along with CREST plays a role regulating the activity of genes essential for dendrite growth. PHF10 gene encodes at least two types of evolutionarily conserved, ubiquitously expressed isoforms that are incorporated into the PBAF complex in a mutually exclusive manner. One isoform contains C-terminal tandem PHD fingers, which in the other isoform are replaced by the consensus sequence for phosphorylation-dependent SUMO 1 conjugation (PDSM) (Brechalov et al. (2014) Cell Cycle 13:1970-1979). PBAF complexes containing different PHF10 isoforms can bind to the promoters of the same genes but produce different effects on the recruitment of Pol II to the promoter and on the level of gene transcription. PHF10 is a transcriptional repressor of caspase 3 and impares the programmed cell death pathway in human gastric cancer at the transcriptional level (Wei et al. (2010) Mol Cancer Ther. 9:1764-1774). Knockdown of PHF10 expression in gastric cancer cells led to significant induction of caspase-3 expression at both the RNA and protein levels and thus induced alteration of caspase-3 substrates in a time-dependent manner (Wei et al. (2010), supra). Results from luciferase assays by the same group indicated that PHF10 acted as a transcriptional repressor when the two PHD domains contained in PHF10 were intact. Human PHF10 protein has 498 amino acids and a molecular mass of 56051 Da, with two domains essential to induce neural progenitor proliferation (e.g., amino acids 89-185 and 292-334 of SEQ ID NO:20) and two PHD finger domains (e.g., amino acids 379-433 and 435-478 of SEQ ID NO:20). By similarity, PHF 10 binds to ACTL6A/BAF53A, SMARCA2/BRM/BAF190B, SMARCA4/BRG1/BAF190A and PBRM1/BAF180.

The term “BAF45A” or “PHF10” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. ReRepresentative human PHF10 cDNA and human PHF10 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human PHF10 isoforms are known. Human PHF10 isoform A (NP_060758.2) is encodable by the transcript variant 1 (NM_018288.3), which is the longer transcript. Human PHF10 isoform B (NP_579866.2) is encodable by the transcript variant 2 (NM_133325.2), which uses an alternate splice junction which results in six fewer nt when compared to variant 1. The isoform B lacks 2 internal amino acids compared to isoform A. Nucleic acid and polypeptide sequences of PHF10 orthologs in organisms other than humans are well known and include, for example, chimpanzee PHF10 (XM_016956680.1 and XP_016812169.1, XM_016956679.1 and XP_016812168.1, and XM_016956681.1 and XP_016812170.1), Rhesus monkey PHF10 (XM_015137735.1 and XP_014993221.1, and XM_015137734.1 and XP_014993220.1), dog PHF10 (XM_005627727.2 and XP_005627784.1, XM_005627726.2 and XP_005627783.1, XM_532272.5 and XP_532272.4, XM_014118230.1 and XP_013973705.1, and XM_014118231.1 and XP_013973706.1), cattle PHF10 (NM_001038052.1 and NP_001033141.1), mouse PHF10 (NM_024250.4 and NP_077212.3), rat PHF10 (NM_001024747.2 and NP_001019918.2), chicken PHF10 (XM_015284374.1 and XP_015139860.1), tropical clawed frog PHF10 (NM_001030472.1 and NP_001025643.1), zebrafish PHF10 (NM_200655.3 and NP_956949.3), and C. elegans PHF10 (NM_001047648.2 and NP_001041113.1, NM_001047647.2 and NP_001041112.1, and NM_001313168.1 and NP_001300097.1). Representative sequences of PHF10 orthologs are presented below in Table 1.

Anti-PHF10 antibodies suitable for detecting PHF10 protein are well-known in the art and include, for example, antibody TA346797 (Origene), antibodies NBP1-52879, NBP2-19795, NBP2-33759, and H00055274-B01P (Novus Biologicals, Littleton, Colo.), antibodies ab154637, ab80939, and ab68114 (AbCam, Cambridge, Mass.), antibody Cat #PA5-30678 (ThermoFisher Scientific), antibody Cat #26-352 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting PHF10 expression. A clinical test of PHF10 for hereditary disease is available with the test ID no. GTR000536577 in NIH Genetic Testing Registry (GTR®), offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing PHF10 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA product #sc-95343 and sc-152206 and CRISPER products #sc-410593 from Santa Cruz Biotechnology, RNAi products H00055274-R01 and H00055274-R02 (Novus Biologicals), and multiple CRISPER products from GenScript (Piscataway, N.J.). Human PHF10 knockout cell (from HAP1 cell line) is also available from Horizon Discovery (Cat #HZGHC002778c011, UK). It is to be noted that the term can further be used to refer to any combination of features described herein regarding PHF10 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe an PHF10 molecule encompassed by the present invention.

The term “loss-of-function mutation” for BAF45A/PHF10 refers to any mutation in a PHF10-related nucleic acid or protein that results in reduced or eliminated PHF10 protein amounts and/or function. For example, nucleic acid mutations include single-base substitutions, multi-base substitutions, insertion mutations, deletion mutations, frameshift mutations, missesnse mutations, nonsense mutations, splice-site mutations, epigenetic modifications (e.g., methylation, phosphorylation, acetylation, ubiquitylation, sumoylation, histone acetylation, histone deacetylation, and the like), and combinations thereof. In some embodiments, the mutation is a “nonsynonymous mutation,” meaning that the mutation alters the amino acid sequence of PHF10. Such mutations reduce or eliminate PHF10 protein amounts and/or function by eliminating proper coding sequences required for proper PHF10 protein translation and/or coding for PHF10 proteins that are non-functional or have reduced function (e.g., deletion of enzymatic and/or structural domains, reduction in protein stability, alteration of sub-cellular localization, and the like). Such mutations are well-known in the art. In addition, a reRepresentative list describing a wide variety of structural mutations correlated with the functional result of reduced or eliminated PHF10 protein amounts and/or function is described in the Tables and the Examples.

The term “SMARCC1” refers to SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1. SMARCC1 is a member of the SWI/SNF family of proteins, whose members display helicase and ATPase activities and which are thought to regulate transcription of certain genes by altering the chromatin structure around those genes. The encoded protein is part of the large ATP-dependent chromatin remodeling complex SNF/SWI and contains a predicted leucine zipper motif typical of many transcription factors. SMARCC1 is a component of SWI/SNF chromatin remodeling complexes that carry out key enzymatic activities, changing chromatin structure by altering DNA-histone contacts within a nucleosome in an ATP-dependent manner. SMARCC1 stimulates the ATPase activity of the catalytic subunit of the complex (Phelan et al. (1999) Mol Cell 3:247-253). SMARCC1 belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and the neuron-specific chromatin remodeling complex (nBAF complex). During neural development a switch from a stem/progenitor to a postmitotic chromatin remodeling mechanism occurs as neurons exit the cell cycle and become committed to their adult state. The transition from proliferating neural stem/progenitor cells to postmitotic neurons requires a switch in subunit composition of the npBAF and nBAF complexes. As neural progenitors exit mitosis and differentiate into neurons, npBAF complexes which contain ACTL6A/BAF53A and PHF10/BAF45A, are exchanged for homologous alternative ACTL6B/BAF53B and DPF1/BAF45B or DPF3/BAF45C subunits in neuron-specific complexes (nBAF). The npBAF complex is essential for the self-renewal/proliferative capacity of the multipotent neural stem cells. The nBAF complex along with CREST plays a role regulating the activity of genes essential for dendrite growth. Human SMARCC1 protein has 1105 amino acids and a molecular mass of 122867 Da. Binding partners of SMARCC1 include, e.g., NR3C1, SMARD1, TRIP12, CEBPB, KDM6B, and MKKS.

The term “SMARCC1” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SMARCC1 cDNA and human SMARCC1 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, human SMARCC1 protein (NP_003065.3) is encodable by the transcript (NM_003074.3). Nucleic acid and polypeptide sequences of SMARCC1 orthologs in organisms other than humans are well known and include, for example, chimpanzee SMARCC1 (XM_016940956.2 and) XP_016796445.1, XM_001154676.6 and XP_001154676.1, XM_016940957.1 and) XP_016796446.1, and XM_009445383.3 and XP_009443658.1), Rhesus monkey SMARCC1 (XM_015126104.1 and XP_014981590.1, XM_015126103.1 and XP_014981589.1, XM_001083389.3 and XP_001083389.2, and XM_015126105.1 and XP_014981591.1), dog SMARCC1 (XM_533845.6 and XP_533845.2, XM_014122183.2 and XP_013977658.1, and XM_014122184.2 and XP_013977659.1), cattle SMARCC1 (XM_024983285.1 and XP_024839053.1), mouse SMARCC1 (NM_009211.2 and NP_033237.2), rat SMARCC1 (NM_001106861.1 and NP_001100331.1), chicken SMARCC1 (XM_025147375.1 and XP_025003143.1, and XM_015281170.2 and) XP_015136656.2), tropical clawed frog SMARCC1 (XM_002942718.4 and XP_002942764.2), and zebrafish SMARCC1 (XM_003200246.5 and XP_003200294.1, and XM_005158282.4 and XP_005158339.1). Representative sequences of SMARCC1 orthologs are presented below in Table 1.

Anti-SMARCC1 antibodies suitable for detecting SMARCC1 protein are well-known in the art and include, for example, antibody TA334040 (Origene), antibodies NBP1-88720, NBP2-20415, NBP1-88721, and NB100-55312 (Novus Biologicals, Littleton, Colo.), antibodies ab172638, ab126180, and ab22355 (AbCam, Cambridge, Mass.), antibody Cat #PA5-30174 (ThermoFisher Scientific), antibody Cat #27-825 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting SMARCC1. A clinical test of SMARCC1 for hereditary disease is available with the test ID no. GTR000558444.1 in NIH Genetic Testing Registry (GTR®), offered by Tempus Labs, Inc., (Chicago, Ill.). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SMARCC1 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-29780 and sc-29781 and CRISPR product #sc-400838 from Santa Cruz Biotechnology, RNAi products SR304474 and TL309245V, and CRISPR product KN208534 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SMARCC1 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SMARCC1 molecule encompassed by the present invention.

The term “SMARCC2” refers to SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 2. SMARCC2 is an important paralog of gene SMARCC1. SMARCC2 is a member of the SWI/SNF family of proteins, whose members display helicase and ATPase activities and which are thought to regulate transcription of certain genes by altering the chromatin structure around those genes. The encoded protein is part of the large ATP-dependent chromatin remodeling complex SNF/SWI and contains a predicted leucine zipper motif typical of many transcription factors. SMARCC2 is a component of SWI/SNF chromatin remodeling complexes that carry out key enzymatic activities, changing chromatin structure by altering DNA-histone contacts within a nucleosome in an ATP-dependent manner (Kadam et al. (2000) Genes Dev 14:2441-2451). SMARCC2 can stimulate the ATPase activity of the catalytic subunit of the complex (Phelan et al. (1999) Mol Cell 3:247-253). SMARCC2 is required for CoREST dependent repression of neuronal specific gene promoters in non-neuronal cells (Battaglioli et al. (2002) J Biol Chem 277:41038-41045). SMARCC2 belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and the neuron-specific chromatin remodeling complex (nBAF complex). SMARCC2 is a critical regulator of myeloid differentiation, controlling granulocytopoiesis and the expression of genes involved in neutrophil granule formation. Human SMARCC2 protein has 1214 amino acids and a molecular mass of 132879 Da. Binding partners of SMARCC2 include, e.g., SIN3A, SMARD1, KDM6B, and RCOR1.

The term “SMARCC2” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SMARCC2 cDNA (NM_003074.3) and human SMARCC2 protein sequences (NP_003065.3) are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, four different human SMARCC2 isoforms are known. Human SMARCC2 isoform a (NP_003066.2) is encodable by the transcript variant 1 (NM_003075.4). Human SMARCC2 isoform b (NP_620706.1) is encodable by the transcript variant 2 (NM_139067.3), which contains an alternate in-frame exon in the central coding region and uses an alternate in-frame splice site in the 3′ coding region, compared to variant 1. The encoded isoform (b), contains a novel internal segment, lacks a segment near the C-terminus, and is shorter than isoform a. Human SMARCC2 isoform c (NP_001123892.1) is encodable by the transcript variant 3 (NM_001130420.2), which contains an alternate in-frame exon in the central coding region and contains alternate in-frame segment in the 3′ coding region, compared to variant 1. The encoded isoform (c), contains a novel internal segment, lacks a segment near the C-terminus, and is shorter than isoform a. Human SMARCC2 isoform d (NP_001317217.1) is encodable by the transcript variant 4 (NM_001330288.1), which contains an alternate in-frame exon in the central coding region compared to variant 1. The encoded isoform (d), contains the same N- and C-termini, but is longer than isoform a. Nucleic acid and polypeptide sequences of SMARCC2 orthologs in organisms other than humans are well known and include, for example, chimpanzee SMARCC2 (XM_016923208.2 and XP_016778697.1, XM_016923212.2 and XP_016778701.1, XM_016923214.2 and XP_016778703.1, XM_016923210.2 and XP_016778699.1, XM_016923209.2 and XP_016778698.1, XM_016923213.2 and XP_016778702.1, XM_016923211.2 and XP_016778700.1, and XM_016923216.2 and XP_016778705.1), Rhesus monkey SMARCC2 (XM_015151975.1 and XP_015007461.1, XM_015151976.1 and XP_015007462.1, XM_015151974.1 and XP_015007460.1, XM_015151969.1 and XP_015007455.1, XM_015151972.1 and XP_015007458.1, XM_015151973.1 and XP_015007459.1, and XM_015151970.1 and XP_015007456.1), dog SMARCC2 (XM_022424046.1 and XP_022279754.1, XM_014117150.2 and XP_013972625.1, XM_014117149.2 and XP_013972624.1, XM_005625493.3 and XP_005625550.1, XM_014117151.2 and XP_013972626.1, XM_005625492.3 and XP_005625549.1, XM_005625495.3 and XP_005625552.1, XM_005625494.3 and XP_005625551.1, and XM_022424047.1 and XP_022279755.1), cattle SMARCC2 (NM_001172224.1 and NP_001165695.1), mouse SMARCC1 (NM_001114097.1 and NP_001107569.1, NM_001114096.1 and NP_001107568.1, and NM_198160.2 and NP_937803.1), rat SMARCC2 (XM_002729767.5 and XP_002729813.2, XM_006240805.3 and XP_006240867.1, XM_006240806.3 and XP_006240868.1, XM_001055795.6 and XP_001055795.1, XM_006240807.3 and XP_006240869.1, XM_008765050.2 and XP_008763272.1, XM_017595139.1 and XP_017450628.1, XM_001055673.6 and XP_001055673.1, and XM_001055738.6 and XP_001055738.1), and zebrafish SMARCC2 (XM_021474611.1 and XP_021330286.1). Representative sequences of SMARCC2 orthologs are presented below in Table 1.

Anti-SMARCC2 antibodies suitable for detecting SMARCC2 protein are well-known in the art and include, for example, antibody TA314552 (Origene), antibodies NBP1-90017 and NBP2-57277 (Novus Biologicals, Littleton, Colo.), antibodies ab71907, ab84453, and ab64853 (AbCam, Cambridge, Mass.), antibody Cat #PA5-54351 (ThermoFisher Scientific), etc. In addition, reagents are well-known for detecting SMARCC2. A clinical test of SMARCC2 for hereditary disease is available with the test ID no. GTR000546600.2 in NIH Genetic Testing Registry (GTR®), offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SMARCC2 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-29782 and sc-29783 and CRISPR product #sc-402023 from Santa Cruz Biotechnology, RNAi products SR304475 and TL301505V, and CRISPR product KN203744 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SMARCC2 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SMARCC2 molecule encompassed by the present invention.

The term “SMARCD1” refers to SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily D member 1. SMARCD1 is a member of the SWI/SNF family of proteins, whose members display helicase and ATPase activities and which are thought to regulate transcription of certain genes by altering the chromatin structure around those genes. The encoded protein is part of the large ATP-dependent chromatin remodeling complex SNF/SWI and has sequence similarity to the yeast Swp73 protein. SMARCD1 is a component of SWI/SNF chromatin remodeling complexes that carry out key enzymatic activities, changing chromatin structure by altering DNA-histone contacts within a nucleosome in an ATP-dependent manner (Wang et al. (1996) Genes Dev 10:2117-2130). SMARCD1 belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and the neuron-specific chromatin remodeling complex (nBAF complex). SMARCD1 has a strong influence on vitamin D-mediated transcriptional activity from an enhancer vitamin D receptor element (VDRE). SMARCD1 a link between mammalian SWI-SNF-like chromatin remodeling complexes and the vitamin D receptor (VDR) heterodimer (Koszewski et al. (2003) J Steroid Biochem Mol Biol 87:223-231). SMARCD1 mediates critical interactions between nuclear receptors and the BRG1/SMARCA4 chromatin-remodeling complex for transactivation (Hsiao et al. (2003) Mol Cell Biol 23:6210-6220). Human SMARCD1 protein has 515 amino acids and a molecular mass of 58233 Da. Binding partners of SMARCD1 include, e.g., ESR1, NR3C1, NR1H4, PGR, SMARCA4, SMARCC1 and SMARCC2.

The term “SMARCD1” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SMARCD1 cDNA and human SMARCD1 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human SMARCD1 isoforms are known. Human SMARCD1 isoform a (NP_003067.3) is encodable by the transcript variant 1 (NM_003076.4), which is the longer transcript. Human SMARCD1 isoform b (NP_620710.2) is encodable by the transcript variant 2 (NM_139071.2), which lacks an alternate in-frame exon, compared to variant 1, resulting in a shorter protein (isoform b), compared to isoform a. Nucleic acid and polypeptide sequences of SMARCD1 orthologs in organisms other than humans are well known and include, for example, chimpanzee SMARCD1 (XM_016923432.2 and XP_016778921.1, XM_016923431.2 and XP_016778920.1, and XM_016923433.2 and XP_016778922.1), Rhesus monkey SMARCD1 (XM_001111275.3 and XP_001111275.3, XM_001111166.3 and XP_001111166.3, and XM_001111207.3 and XP_001111207.3), dog SMARCD1 (XM_543674.6 and XP_543674.4), cattle SMARCD1 (NM_001038559.2 and NP_001033648.1), mouse SMARCD1 (NM_031842.2 and NP_114030.2), rat SMARCD1 (NM_001108752.1 and NP_001102222.1), chicken SMARCD1 (XM_424488.6 and XP_424488.3), tropical clawed frog SMARCD1 (NM_001004862.1 and NP_001004862.1), and zebrafish SMARCD1 (NM_198358.1 and NP_938172.1). Representative sequences of SMARCD1 orthologs are presented below in Table 1.

Anti-SMARCD1 antibodies suitable for detecting SMARCD1 protein are well-known in the art and include, for example, antibody TA344378 (Origene), antibodies NBP1-88719 and NBP2-20417 (Novus Biologicals, Littleton, Colo.), antibodies ab224229, ab83208, and ab86029 (AbCam, Cambridge, Mass.), antibody Cat #PA5-52049 (ThermoFisher Scientific), etc. In addition, reagents are well-known for detecting SMARCD1. A clinical test of SMARCD1 for hereditary disease is available with the test ID no. GTR000558444.1 in NIH Genetic Testing Registry (GTR®), offered by Tempus Labs, Inc., (Chicago, Ill.). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SMARCD1 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-72597 and sc-725983 and CRISPR product #sc-402641 from Santa Cruz Biotechnology, RNAi products SR304476 and TL301504V, and CRISPR product KN203474 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SMARCD1 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SMARCD1 molecule encompassed by the present invention.

The term “SMARCD2” refers to SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily D member 2. SMARCD2 is a member of the SWI/SNF family of proteins, whose members display helicase and ATPase activities and which are thought to regulate transcription of certain genes by altering the chromatin structure around those genes. The encoded protein is part of the large ATP-dependent chromatin remodeling complex SNF/SWI and has sequence similarity to the yeast Swp73 protein. SMARCD2 is a component of SWI/SNF chromatin remodeling complexes that carry out key enzymatic activities, changing chromatin structure by altering DNA-histone contacts within a nucleosome in an ATP-dependent manner (Euskirchen et al. (2012) J Biol Chem 287:30897-30905; Kadoch et al. (2015) Sci Adv 1(5):e1500447). SMARCD2 is a critical regulator of myeloid differentiation, controlling granulocytopoiesis and the expression of genes involved in neutrophil granule formation (Witzel et al. (2017) Nat Genet 49:742-752). Human SMARCD2 protein has 531 amino acids and a molecular mass of 589213 Da. Binding partners of SMARCD2 include, e.g., UNKL and CEBPE.

The term “SMARCD2” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SMARCD2 cDNA and human SMARCD2 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, three different human SMARCD2 isoforms are known. Human SMARCD2 isoform 1 (NP_001091896.1) is encodable by the transcript variant 1 (NM_001098426.1). Human SMARCD2 isoform 2 (NP_001317368.1) is encodable by the transcript variant 2 (NM_001330439.1). Human SMARCD2 isoform 3 (NP_001317369.1) is encodable by the transcript variant 3 (NM_001330440.1). Nucleic acid and polypeptide sequences of SMARCD2 orthologs in organisms other than humans are well known and include, for example, chimpanzee SMARCD2 (XM_009433047.3 and XP_009431322.1, XM_001148723.6 and XP_001148723.1, XM_009433048.3 and XP_009431323.1, XM_009433049.3 and XP_009431324.1, XM_024350546.1 and XP_024206314.1, and XM_024350547.1 and XP_024206315.1), Rhesus monkey SMARCD2 (XM_015120093.1 and XP_014975579.1), dog SMARCD2 (XM_022422831.1 and XP_022278539.1, XM_005624251.3 and XP_005624308.1, XM_845276.5 and XP_850369.1, and XM_005624252.3 and XP_005624309.1), cattle SMARCD2 (NM_001205462.3 and NP_001192391.1), mouse SMARCC1 (NM_001130187.1 and NP_001123659.1, and NM_031878.2 and NP_114084.2), rat SMARCD2 (NM_031983.2 and NP_114189.1), chicken SMARCD2 (XM_015299406.2 and XP_015154892.1), tropical clawed frog SMARCD2 (NM_001045802.1 and NP_001039267.1), and zebrafish SMARCD2 (XM_687657.6 and XP_692749.2, and XM_021480266.1 and XP_021335941.1). Representative sequences of SMARCD2 orthologs are presented below in Table 1.

Anti-SMARCD2 antibodies suitable for detecting SMARCD2 protein are well-known in the art and include, for example, antibody TA335791 (Origene), antibodies H00006603-M02 and H00006603-M01 (Novus Biologicals, Littleton, Colo.), antibodies ab81622, ab56241, and ab221084 (AbCam, Cambridge, Mass.), antibody Cat #51-805 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting SMARCD2. A clinical test of SMARCD2 for hereditary disease is available with the test ID no. GTR000558444.1 in NIH Genetic Testing Registry (GTR®), offered by Tempus Labs, Inc., (Chicago, Ill.). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SMARCD2 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-93762 and sc-153618 and CRISPR product #sc-403091 from Santa Cruz Biotechnology, RNAi products SR304477 and TL309244V, and CRISPR product KN214286 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SMARCD2 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SMARCD2 molecule encompassed by the present invention.

The term “SMARCD3” refers to SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily D member 3. SMARCD3 is a member of the SWI/SNF family of proteins, whose members display helicase and ATPase activities and which are thought to regulate transcription of certain genes by altering the chromatin structure around those genes. The encoded protein is part of the large ATP-dependent chromatin remodeling complex SNF/SWI and has sequence similarity to the yeast Swp73 protein. SMARCD3 is a component of SWI/SNF chromatin remodeling complexes that carry out key enzymatic activities, changing chromatin structure by altering DNA-histone contacts within a nucleosome in an ATP-dependent manner. SMARCD3 stimulates nuclear receptor mediated transcription. SMARCD3 belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and the neuron-specific chromatin remodeling complex (nBAF complex). Human SMARCD3 protein has 483 amino acids and a molecular mass of 55016 Da. Binding partners of SMARCD3 include, e.g., PPARG/NR1C3, RXRA/NR1F1, ESR1, NR5A1, NR5A2/LRH1 and other transcriptional activators including the HLH protein SREBF1/SREBP1 and the homeobox protein PBX1.

The term “SMARCD3” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SMARCD3 cDNA and human SMARCD3 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human SMARCD3 isoforms are known. Human SMARCD3 isoform 1 (NP_001003802.1 and NP_003069.2) is encodable by the transcript variant 1 (NM_001003802.1) and the transcript variant 2 (NM_003078.3). Human SMARCD2 isoform 2 (NP_001003801.1) is encodable by the transcript variant 3 (NM_001003801.1). Nucleic acid and polypeptide sequences of SMARCD3 orthologs in organisms other than humans are well known and include, for example, chimpanzee SMARCD3 (XM_016945944.2 and XP_016801433.1, XM_016945946.2 and XP_016801435.1, XM_016945945.2 and XP_016801434.1, and XM_016945943.2 and XP_016801432.1), Rhesus monkey SMARCD3 (NM_001260684.1 and NP_001247613.1), cattle SMARCD3 (NM_001078154.1 and NP_001071622.1), mouse SMARCC3 (NM_025891.3 and NP_080167.3), rat SMARCD3 (NM_001011966.1 and NP_001011966.1). Representative sequences of SMARCD3 orthologs are presented below in Table 1.

Anti-SMARCD3 antibodies suitable for detecting SMARCD3 protein are well-known in the art and include, for example, antibody TA811107 (Origene), antibodies H00006604-M01 and NBP2-39013 (Novus Biologicals, Littleton, Colo.), antibodies ab171075, ab131326, and ab50556 (AbCam, Cambridge, Mass.), antibody Cat #720131 (ThermoFisher Scientific), antibody Cat #28-327 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting SMARCD3. A clinical test of SMARCD3 for hereditary disease is available with the test ID no. GTR000558444.1 in NIH Genetic Testing Registry (GTR®), offered by Tempus Labs, Inc., (Chicago, Ill.). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SMARCD3 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-89355 and sc-108054 and CRISPR product #sc-402705 from Santa Cruz Biotechnology, RNAi products SR304478 and TL309243V, and CRISPR product KN201135 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SMARCD3 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SMARCD3 molecule encompassed by the present invention.

The term “SMARCB1” refers to SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily B member 1. The protein encoded by this gene is part of a complex that relieves repressive chromatin structures, allowing the transcriptional machinery to access its targets more effectively. The encoded nuclear protein may also bind to and enhance the DNA joining activity of HIV-1 integrase. This gene has been found to be a tumor suppressor, and mutations in it have been associated with malignant rhabdoid tumors. SMARCB1 is a core component of the BAF (SWI/SNF) complex. This ATP-dependent chromatin-remodeling complex plays important roles in cell proliferation and differentiation, in cellular antiviral activities and inhibition of tumor formation. The BAF complex is able to create a stable, altered form of chromatin that constrains fewer negative supercoils than normal. This change in supercoiling would be due to the conversion of up to one-half of the nucleosomes on polynucleosomal arrays into asymmetric structures, termed altosomes, each composed of 2 histones octamers. SMARCB1 stimulates in vitro the remodeling activity of SMARCA4/BRG1/BAF190A. SMARCB1 is involved in activation of CSF1 promoter. SMARCB1 belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and the neuron-specific chromatin remodeling complex (nBAF complex). SMARCB1 plays a key role in cell-cycle control and causes cell cycle arrest in GO/G1. Human SMARCB1 protein has 385 amino acids and a molecular mass of 44141 Da. Binding partners of SMARCB1 include, e.g., CEBPB, PIH1D1, MYK, PPP1R15A, and MAEL SMARCB1 binds tightly to the human immunodeficiency virus-type 1 (HIV-1) integrase in vitro and stimulates its DNA-joining activity. SMARCB1 interacts with human papillomavirus 18 E1 protein to stimulate its viral replication (Lee et al. (1999) Nature 399:487-491). SMARCB1 interacts with Epstein-Barr virus protein EBNA-2 (Wu et al. (1996) J Virol 70:6020-6028). SMARCB1 binds to double-stranded DNA.

The term “SMARCB1” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SMARCB1 cDNA and human SMARCB1 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, four different human SMARCB1 isoforms are known. Human SMARCB1 isoform a (NP_003064.2) is encodable by the transcript variant 1 (NM_003073.4). Human SMARCB1 isoform b (NP_001007469.1) is encodable by the transcript variant 2 (NM_001007468.2). Human SMARCB1 isoform c (NP_001304875.1) is encodable by the transcript variant 3 (NM_001317946.1). Human SMARCB1 isoform d (NP_001349806.1) is encodable by the transcript variant 4 (NM_001362877.1). Nucleic acid and polypeptide sequences of SMARCB1 orthologs in organisms other than humans are well known and include, for example, chimpanzee SMARCC1 (XM_001169712.6 and XP_001169712.1, XM_016939577.2 and XP_016795066.1, XM_515023.6 and XP_515023.2, and XM_016939576.2 and XP_016795065.1), Rhesus monkey SMARCB1 (NM_001257888.2 and NP_001244817.1), dog SMARCB1 (XM_543533.6 and XP_543533.2, and XM_852177.5 and XP_857270.2), cattle SMARCB1 (NM_001040557.2 and NP_001035647.1), mouse SMARCB1 (NM_011418.2 and NP_035548.1, and NM_001161853.1 and NP_001155325.1), rat SMARCB1 (NM_001025728.1 and NP_001020899.1), chicken SMARCB1 (NM_001039255.1 and NP_001034344.1), tropical clawed frog SMARCB1 (NM_001006818.1 and NP_001006819.1), and zebrafish SMARCB1 (NM_001007296.1 and NP_001007297.1). Representative sequences of SMARCB1 orthologs are presented below in Table 1.

Anti-SMARCB1 antibodies suitable for detecting SMARCB1 protein are well-known in the art and include, for example, antibody TA350434 (Origene), antibodies H00006598-M01 and NBP1-90014 (Novus Biologicals, Littleton, Colo.), antibodies ab222519, ab12167, and ab192864 (AbCam, Cambridge, Mass.), antibody Cat #PA5-53932 (ThermoFisher Scientific), antibody Cat #51-916 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting SMARCB1. A clinical test of SMARCB1 for hereditary disease is available with the test ID no. GTR000517131.2 in NIH Genetic Testing Registry (GTR®), offered by Fulgent Genetics Clinical Diagnostics Lab (Temple City, Calif.). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SMARCB1 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-304473 and sc-35670 and CRISPR product #sc-401485 from Santa Cruz Biotechnology, RNAi products SR304478 and TL309246V, and CRISPR product KN217885 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SMARCB1 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SMARCB1 molecule encompassed by the present invention.

The term “SMARCE1” refers to SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily E member 1. The protein encoded by this gene is part of the large ATP-dependent chromatin remodeling complex SWI/SNF, which is required for transcriptional activation of genes normally repressed by chromatin. The encoded protein, either alone or when in the SWI/SNF complex, can bind to 4-way junction DNA, which is thought to mimic the topology of DNA as it enters or exits the nucleosome. The protein contains a DNA-binding HMG domain, but disruption of this domain does not abolish the DNA-binding or nucleosome-displacement activities of the SWI/SNF complex. Unlike most of the SWI/SNF complex proteins, this protein has no yeast counterpart. SMARCE1 is a component of SWI/SNF chromatin remodeling complexes that carry out key enzymatic activities, changing chromatin structure by altering DNA-histone contacts within a nucleosome in an ATP-dependent manner. SMARCE1 belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and the neuron-specific chromatin remodeling complex (nBAF complex). SMARCE1 is required for the coactivation of estrogen responsive promoters by SWI/SNF complexes and the SRC/p160 family of histone acetyltransferases (HATs). SMARCE1 also specifically interacts with the CoREST corepressor resulting in repression of neuronal specific gene promoters in non-neuronal cells. Human SMARCE1 protein has 411 amino acids and a molecular mass of 46649 Da. SMARCE1 interacts with BRDT, and also binds to the SRC/p160 family of histone acetyltransferases (HATs) composed of NCOA1, NCOA2, and NCOA3. SMARCE1 interacts with RCOR1/CoREST, NR3C1 and ZMIM2/ZIMP7.

The term “SMARCE1” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SMARCE1 cDNA and human SMARCE1 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, human SMARCE1 protein (NP_003070.3) is encodable by transcript (NM_003079.4). Nucleic acid and polypeptide sequences of SMARCE1 orthologs in organisms other than humans are well known and include, for example, chimpanzee SMARCE1 (XM_009432223.3 and XP_009430498.1, XM_511478.7 and XP_511478.2, XM_009432222.3 and XP_009430497.1, and XM_001169953.6 and XP_001169953.1), Rhesus monkey SMARCE1 (NM_001261306.1 and NP_001248235.1), cattle SMARCE1 (NM_001099116.2 and NP_001092586.1), mouse SMARCE1 (NM_020618.4 and NP_065643.1), rat SMARCE1 (NM_001024993.1 and NP_001020164.1), chicken SMARCE1 (NM_001006335.2 and NP_001006335.2), tropical clawed frog SMARCE1 (NM_001005436.1 and NP_001005436.1), and zebrafish SMARCE1 (NM_201298.1 and NP_958455.2). Representative sequences of SMARCE1 orthologs are presented below in Table 1.

Anti-SMARCE1 antibodies suitable for detecting SMARCE1 protein are well-known in the art and include, for example, antibody TA335790 (Origene), antibodies NBP1-90012 and NB100-2591 (Novus Biologicals, Littleton, Colo.), antibodies ab131328, ab228750, and ab137081 (AbCam, Cambridge, Mass.), antibody Cat #PA5-18185 (ThermoFisher Scientific), antibody Cat #57-670 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting SMARCE1. A clinical test of SMARCE1 for hereditary disease is available with the test ID no. GTR000558444.1 in NIH Genetic Testing Registry (GTR®), offered by Tempus Labs, Inc., (Chicago, Ill.). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SMARCE1 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-45940 and sc-45941 and CRISPR product #sc-404713 from Santa Cruz Biotechnology, RNAi products SR304479 and TL309242, and CRISPR product KN217885 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SMARCE1 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SMARCE1 molecule encompassed by the present invention.

The term “DPF1” refers to Double PHD Fingers 1. DPF1 has an important role in developing neurons by participating in regulation of cell survival, possibly as a neurospecific transcription factor. DPF1 belongs to the neuron-specific chromatin remodeling complex (nBAF complex). During neural development a switch from a stem/progenitor to a post-mitotic chromatin remodeling mechanism occurs as neurons exit the cell cycle and become committed to their adult state. The transition from proliferating neural stem/progenitor cells to post-mitotic neurons requires a switch in subunit composition of the npBAF and nBAF complexes. As neural progenitors exit mitosis and differentiate into neurons, npBAF complexes which contain ACTL6A/BAF53A and PHF10/BAF45A, are exchanged for homologous alternative ACTL6B/BAF53B and DPF1/BAF45B or DPF3/BAF45C subunits in neuron-specific complexes (nBAF). The npBAF complex is essential for the self-renewal/proliferative capacity of the multipotent neural stem cells. The nBAF complex along with CREST plays a role regulating the activity of genes essential for dendrite growth. Human DPF1 protein has 380 amino acids and a molecular mass of 425029 Da. DPF1 is a component of neuron-specific chromatin remodeling complex (nBAF complex) composed of at least, ARID1A/BAF250A or ARID1B/BAF250B, SMARCD1/BAF60A, SMARCD3/BAF60C, SMARCA2/BRM/BAF190B, SMARCA4/BRG1/BAF190A, SMARCB1/BAF47, SMARCC1/BAF155, SMARCE1/BAF57, SMARCC2/BAF170, DPF1/BAF45B, DPF3/BAF45C, ACTL6B/BAF53B and actin.

The term “DPF1” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human DPF1 cDNA and human DPF1 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, five different human DPF1 isoforms are known. Human DPF1 isoform a (NP_001128627.1) is encodable by the transcript variant 1 (NM_001135155.2). Human DPF1 isoform b (NP_004638.2) is encodable by the transcript variant 2 (NM_004647.3). Human DPF1 isoform c (NP_001128628.1) is encodable by the transcript variant 3 (NM_001135156.2). Human DPF1 isoform d (NP_001276907.1) is encodable by the transcript variant 4 (NM_001289978.1). Human DPF1 isoform e (NP_001350508.1) is encodable by the transcript variant 5 (NM_001363579.1). Nucleic acid and polypeptide sequences of DPF1 orthologs in organisms other than humans are well known and include, for example, Rhesus monkey DPF1 (XM_015123830.1 and XP_014979316.1, XM_015123829.1 and XP_014979315.1, XM_015123835.1 and XP_014979321.1, XM_015123831.1 and XP_014979317.1, XM_015123833.1 and) XP_014979319.1, and XM_015123832.1 and XP_014979318.1), cattle DPF1 (NM_001076855.1 and NP_001070323.1), mouse DPF1 (NM_013874.2 and NP_038902.1), rat DPF1 (NM_001105729.3 and NP_001099199.2), and tropical clawed frog DPF1 (NM_001097276.1 and NP_001090745.1). Representative sequences of DPF1 orthologs are presented below in Table 1.

Anti-DPF1 antibodies suitable for detecting DPF1 protein are well-known in the art and include, for example, antibody TA311193 (Origene), antibodies NBP2-13932 and NBP2-19518 (Novus Biologicals, Littleton, Colo.), antibodies ab199299, ab173160, and ab3940 (AbCam, Cambridge, Mass.), antibody Cat #PA5-61895 (ThermoFisher Scientific), antibody Cat #28-079 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting DPF1. Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing DPF1 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-97084 and sc-143155 and CRISPR product #sc-409539 from Santa Cruz Biotechnology, RNAi products SR305389 and TL313388V, and CRISPR product KN213721 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding DPF1 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a DPF1 molecule encompassed by the present invention.

The term “DPF2” refers to Double PHD Fingers 2. DPF2 protein is a member of the d4 domain family, characterized by a zinc finger-like structural motif. It functions as a transcription factor which is necessary for the apoptotic response following deprivation of survival factors. It likely serves a regulatory role in rapid hematopoietic cell growth and turnover. This gene is considered a candidate gene for multiple endocrine neoplasia type I, an inherited cancer syndrome involving multiple parathyroid, enteropancreatic, and pituitary tumors. DPF2 is a transcription factor required for the apoptosis response following survival factor withdrawal from myeloid cells. DPF2also has a role in the development and maturation of lymphoid cells. Human DPF2 protein has 391 amino acids and a molecular mass of 44155 Da.

The term “DPF2” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human DPF2 cDNA and human DPF2 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human DPF2 isoforms are known. Human DPF2 isoform 1 (NP_006259.1) is encodable by the transcript variant 1 (NM_006268.4). Human DPF2 isoform 2 (NP_001317237.1) is encodable by the transcript variant 2 (NM_001330308.1). Nucleic acid and polypeptide sequences of DPF2 orthologs in organisms other than humans are well known and include, for example, chimpanzee DPF2 (NM_001246651.1 and NP_001233580.1), Rhesus monkey DPF2 (XM_002808062.2 and XP_002808108.2, and XM_015113800.1 and XP_014969286.1), dog DPF2 (XM_861495.5 and XP_866588.1, and XM_005631484.3 and XP_005631541.1), cattle DPF2 (NM_001100356.1 and NP_001093826.1), mouse DPF2 (NM_001291078.1 and NP_001278007.1, and NM_011262.5 and NP_035392.1), rat DPF2 (NM_001108516.1 and NP_001101986.1), chicken DPF2 (NM_204331.1 and NP_989662.1), tropical clawed frog DPF2 (NM_001197172.2 and NP_001184101.1), and zebrafish DPF2 (NM_001007152.1 and NP_001007153.1). Representative sequences of DPF2 orthologs are presented below in Table 1.

Anti-DPF2 antibodies suitable for detecting DPF2 protein are well-known in the art and include, for example, antibody TA312307 (Origene), antibodies NBP1-76512 and NBP1-87138 (Novus Biologicals, Littleton, Colo.), antibodies ab134942, ab232327, and ab227095 (AbCam, Cambridge, Mass.), etc. In addition, reagents are well-known for detecting DPF2. A clinical test of DPF2 for hereditary disease is available with the test ID no. GTR000536833.2 in NIH Genetic Testing Registry (GTR®), offered by Fulgent Genetics Clinical Diagnostics Lab (Temple City, Calif.). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing DPF2 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-97031 and sc-143156 and CRISPR product #sc-404801-KO-2 from Santa Cruz Biotechnology, RNAi products SR304035 and TL313387V, and CRISPR product KN202364 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding DPF2 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a DPF2 molecule encompassed by the present invention.

The term “DPF3” refers to Double PHD Fingers 3, a member of the D4 protein family. The encoded protein is a transcription regulator that binds acetylated histones and is a component of the BAF chromatin remodeling complex. DPF3 belongs to the neuron-specific chromatin remodeling complex (nBAF complex). During neural development a switch from a stem/progenitor to a post-mitotic chromatin remodeling mechanism occurs as neurons exit the cell cycle and become committed to their adult state. The transition from proliferating neural stem/progenitor cells to post-mitotic neurons requires a switch in subunit composition of the npBAF and nBAF complexes. As neural progenitors exit mitosis and differentiate into neurons, npBAF complexes which contain ACTL6A/BAF53A and PHF10/BAF45A, are exchanged for homologous alternative ACTL6B/BAF53B and DPF1/BAF45B or DPF3/BAF45C subunits in neuron-specific complexes (nBAF). The npBAF complex is essential for the self-renewal/proliferative capacity of the multipotent neural stem cells. The nBAF complex along with CREST plays a role regulating the activity of genes essential for dendrite growth (By similarity). DPF3 is a muscle-specific component of the BAF complex, a multiprotein complex involved in transcriptional activation and repression of select genes by chromatin remodeling (alteration of DNA-nucleosome topology). DPF3 specifically binds acetylated lysines on histone 3 and 4 (H3K14ac, H3K9ac, H4K5ac, H4K8ac, H4K12ac, H4K16ac). In the complex, DPF3 acts as a tissue-specific anchor between histone acetylations and methylations and chromatin remodeling. DPF3 plays an essential role in heart and skeletal muscle development. Human DPF3 protein has 378 amino acids and a molecular mass of 43084 Da. The PHD-type zinc fingers of DPF3 mediate its binding to acetylated histones. DPF3 belongs to the requiem/DPF family.

The term “DPF3” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human DPF3 cDNA and human DPF3 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, four different human DPF3 isoforms are known. Human DPF3 isoform 1 (NP_036206.3) is encodable by the transcript variant 1 (NM_012074.4). Human DPF3 isoform 2 (NP_001267471.1) is encodable by the transcript variant 2 (NM_001280542.1). Human DPF3 isoform 3 (NP_001267472.1) is encodable by the transcript variant 3 (NM_001280543.1). Human DPF3 isoform 4 (NP_001267473.1) is encodable by the transcript variant 4 (NM_001280544.1). Nucleic acid and polypeptide sequences of DPF3 orthologs in organisms other than humans are well known and include, for example, chimpanzee DPF3 (XM_016926314.2 and XP_016781803.1, XM_016926316.2 and XP_016781805.1, and XM_016926315.2 and XP_016781804.1), dog DPF3 (XM_014116039.1 and XP_013971514.1), mouse DPF3 (NM_001267625.1 and NP_001254554.1, NM_001267626.1 and NP_001254555.1, and NM_058212.2 and NP_478119.1), chicken DPF3 (NM_204639.2 and NP_989970.1), tropical clawed frog DPF3 (NM_001278413.1 and NP_001265342.1), and zebrafish DPF3 (NM_001111169.1 and NP_001104639.1). Representative sequences of DPF3 orthologs are presented below in Table 1.

Anti-DPF3 antibodies suitable for detecting DPF3 protein are well-known in the art and include, for example, antibody TA335655 (Origene), antibodies NBP2-49494 and NBP2-14910 (Novus Biologicals, Littleton, Colo.), antibodies ab180914, ab127703, and ab85360 (AbCam, Cambridge, Mass.), antibody PA5-38011 (ThermoFisher Scientific), antibody Cat #7559 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting DPF3. Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing DPF3 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-97031 and sc-92150 and CRISPR product #sc-143157 from Santa Cruz Biotechnology, RNAi products SR305368 and TL313386V, and CRISPR product KN218937 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding DPF3 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a DPF3 molecule encompassed by the present invention.

The term “ACTL6A” refers to Actin Like 6A, a family member of actin-related proteins (ARPs), which share significant amino acid sequence identity to conventional actins. Both actins and ARPs have an actin fold, which is an ATP-binding cleft, as a common feature. The ARPs are involved in diverse cellular processes, including vesicular transport, spindle orientation, nuclear migration and chromatin remodeling. This gene encodes a 53 kDa subunit protein of the BAF (BRG1/brm-associated factor) complex in mammals, which is functionally related to SWI/SNF complex in S. cerevisiae and Drosophila; the latter is thought to facilitate transcriptional activation of specific genes by antagonizing chromatin-mediated transcriptional repression. Together with beta-actin, it is required for maximal ATPase activity of BRG1, and for the association of the BAF complex with chromatin/matrix. ACTL6A is a component of SWI/SNF chromatin remodeling complexes that carry out key enzymatic activities, changing chromatin structure by altering DNA-histone contacts within a nucleosome in an ATP-dependent manner. ACTL6A is required for maximal ATPase activity of SMARCA4/BRG1/BAF190A and for association of the SMARCA4/BRG1/BAF190A containing remodeling complex BAF with chromatin/nuclear matrix. ACTL6A belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and is required for the proliferation of neural progenitors. During neural development a switch from a stem/progenitor to a post-mitotic chromatin remodeling mechanism occurs as neurons exit the cell cycle and become committed to their adult state. The transition from proliferating neural stem/progenitor cells to post-mitotic neurons requires a switch in subunit composition of the npBAF and nBAF complexes. As neural progenitors exit mitosis and differentiate into neurons, npBAF complexes which contain ACTL6A/BAF53A and PHF10/BAF45A, are exchanged for homologous alternative ACTL6B/BAF53B and DPF1/BAF45B or DPF3/BAF45C subunits in neuron-specific complexes (nBAF). The npBAF complex is essential for the self-renewal/proliferative capacity of the multipotent neural stem cells. The nBAF complex along with CREST plays a role regulating the activity of genes essential for dendrite growth. ACTL6A is a component of the NuA4 histone acetyltransferase (HAT) complex which is involved in transcriptional activation of select genes principally by acetylation of nucleosomal histones H4 and H2A. This modification may both alter nucleosome—DNA interactions and promote interaction of the modified histones with other proteins which positively regulate transcription. This complex may be required for the activation of transcriptional programs associated with oncogene and proto-oncogene mediated growth induction, tumor suppressor mediated growth arrest and replicative senescence, apoptosis, and DNA repair. NuA4 may also play a direct role in DNA repair when recruited to sites of DNA damage. Putative core component of the chromatin remodeling IN080 complex which is involved in transcriptional regulation, DNA replication and probably DNA repair. Human ACTL6A protein has 429 amino acids and a molecular mass of 47461 Da.

The term “ACTL6A” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human ACTL6A cDNA and human ACTL6A protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human ACTL6A isoforms are known. Human ACTL6A isoform 1 (NP_004292.1) is encodable by the transcript variant 1 (NM_004301.4). Human ACTL6A isoform 2 (NP_817126.1 and NP_829888.1) is encodable by the transcript variant 2 (NM_177989.3) and transcript variant 3 (NM_178042.3). Nucleic acid and polypeptide sequences of ACTL6A orthologs in organisms other than humans are well known and include, for example, chimpanzee ACTL6A (NM_001271671.1 and NP_001258600.1), Rhesus monkey ACTL6A (NM_001104559.1 and NP_001098029.1), cattle ACTL6A (NM_001105035.1 and NP_001098505.1), mouse ACTL6A (NM_019673.2 and NP_062647.2), rat ACTL6A (NM_001039033.1 and NP_001034122.1), chicken ACTL6A (XM_422784.6 and XP_422784.3), tropical clawed frog ACTL6A (NM_204006.1 and NP_989337.1), and zebrafish ACTL6A (NM_173240.1 and NP_775347.1). Representative sequences of ACTL6A orthologs are presented below in Table 1.

Anti-ACTL6A antibodies suitable for detecting ACTL6A protein are well-known in the art and include, for example, antibody TA345058 (Origene), antibodies NB100-61628 and NBP2-55376 (Novus Biologicals, Littleton, Colo.), antibodies ab131272 and ab189315 (AbCam, Cambridge, Mass.), antibody 702414 (ThermoFisher Scientific), antibody Cat #45-314 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting ACTL6A. Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing ACTL6A expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-60239 and sc-60240 and CRISPR product #sc-403200-KO-2 from Santa Cruz Biotechnology, RNAi products SR300052 and TL306860V, and CRISPR product KN201689 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding ACTL6A molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe an ACTL6A molecule encompassed by the present invention.

The term “β-Actin” refers to Actin Beta. This gene encodes one of six different actin proteins. Actins are highly conserved proteins that are involved in cell motility, structure, integrity, and intercellular signaling. The encoded protein is a major constituent of the contractile apparatus and one of the two nonmuscle cytoskeletal actins that are ubiquitously expressed. Mutations in this gene cause Baraitser-Winter syndrome 1, which is characterized by intellectual disability with a distinctive facial appearance in human patients. Numerous pseudogenes of this gene have been identified throughout the human genome. Actins are highly conserved proteins that are involved in various types of cell motility and are ubiquitously expressed in all eukaryotic cells. Actin is found in two main states: G-actin is the globular monomeric form, whereas F-actin forms helical polymers. Both G- and F-actin are intrinsically flexible structures. Human β-Actin protein has 375 amino acids and a molecular mass of 41737 Da. The binding partners of β-Actin include, e.g., CPNE1, CPNE4, DHX9, GCSAM, ERBB2, XPO6, and EMD.

The term “β-Actin” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human β-Actin cDNA and human β-Actin protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, human β-Actin (NP_001092.1) is encodable by the transcript (NM_001101.4). Nucleic acid and polypeptide sequences of 13-Actin orthologs in organisms other than humans are well known and include, for example, chimpanzee β-Actin (NM_001009945.1 and NP_001009945.1), Rhesus monkey β-Actin (NM_001033084.1 and NP_001028256.1), dog β-Actin (NM_001195845.2 and NP_001182774.2), cattle β-Actin (NM_173979.3 and NP_776404.2), mouse β-Actin (NM_007393.5 and NP_031419.1), rat β-Actin (NM_031144.3 and NP_112406.1), chicken β-Actin (NM_205518.1 and NP_990849.1), and tropical clawed frog β-Actin (NM_213719.1 and NP_998884.1). Representative sequences of β-Actin orthologs are presented below in Table 1.

Anti-β-Actin antibodies suitable for detecting β-Actin protein are well-known in the art and include, for example, antibody TA353557 (Origene), antibodies NB600-501 and NB600-503 (Novus Biologicals, Littleton, Colo.), antibodies ab8226 and ab8227 (AbCam, Cambridge, Mass.), antibody AM4302 (ThermoFisher Scientific), antibody Cat #PM-7669-biotin (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting 13-Actin. Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing β-Actin expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-108069 and sc-108070 and CRISPR product #sc-400000-KO-2 from Santa Cruz Biotechnology, RNAi products SR300047 and TL314976V, and CRISPR product KN203643 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding β-Actin molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a β-Actin molecule encompassed by the present invention.

The term “BCL7A” refers to BCL Tumor Suppressor 7A. This gene is directly involved, with Myc and IgH, in a three-way gene translocation in a Burkitt lymphoma cell line. As a result of the gene translocation, the N-terminal region of the gene product is disrupted, which is thought to be related to the pathogenesis of a subset of high-grade B cell non-Hodgkin lymphoma. The N-terminal segment involved in the translocation includes the region that shares a strong sequence similarity with those of BCL7B and BCL7C. Diseases associated with BCL7A include Lymphoma and Burkitt Lymphoma. An important paralog of this gene is BCL7C. Human BCL7A protein has 210 amino acids and a molecular mass of 22810 Da.

The term “BCL7A” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human BCL7A cDNA and human BCL7A protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human BCL7A isoforms are known. Human BCL7A isoform a (NP_066273.1) is encodable by the transcript variant 1 (NM_020993.4). Human BCL7A isoform b (NP_001019979.1) is encodable by the transcript variant 2 (NM_001024808.2). Nucleic acid and polypeptide sequences of BCL7A orthologs in organisms other than humans are well known and include, for example, chimpanzee BCL7A (XM_009426452.3 and XP_009424727.2, and XM_016924434.2 and XP_016779923.1), Rhesus monkey BCL7A (XM_015153012.1 and XP_015008498.1, and XM_015153013.1 and XP_015008499.1), dog BCL7A (XM_543381.6 and XP_543381.2, and XM_854760.5 and XP_859853.1), cattle BCL7A (XM_024977701.1 and XP_024833469.1, and XM_024977700.1 and XP_024833468.1), mouse BCL7A (NM_029850.3 and NP_084126.1), rat BCL7A (XM_017598515.1 and XP_017454004.1), chicken BCL7A (XM_004945565.3 and XP_004945622.1, and XM_415148.6 and XP_415148.2), tropical clawed frog BCL7A (NM_001006871.1 and NP_001006872.1), and zebrafish BCL7A (NM_212560.1 and NP_997725.1). Representative sequences of BCL7A orthologs are presented below in Table 1.

Anti-BCL7A antibodies suitable for detecting BCL7A protein are well-known in the art and include, for example, antibody TA344744 (Origene), antibodies NBP1-30941 and NBP1-91696 (Novus Biologicals, Littleton, Colo.), antibodies ab137362 and ab1075 (AbCam, Cambridge, Mass.), antibody PA5-27123 (ThermoFisher Scientific), antibody Cat #45-325 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting BCL7A. Multiple clinical tests of BCL7A are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000541481.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing BCL7A expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-96136 and sc-141671 and CRISPR product #sc-410702 from Santa Cruz Biotechnology, RNAi products SR300417 and TL314490V, and CRISPR product KN210489 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding BCL7A molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a BCL7A molecule encompassed by the present invention.

The term “BCL7B” refers to BCL Tumor Suppressor 7B, a member of the BCL7 family including BCL7A, BCL7B and BCL7C proteins. This member is BCL7B, which contains a region that is highly similar to the N-terminal segment of BCL7A or BCL7C proteins. The BCL7A protein is encoded by the gene known to be directly involved in a three-way gene translocation in a Burkitt lymphoma cell line. This gene is located at a chromosomal region commonly deleted in Williams syndrome. This gene is highly conserved from C. elegans to human. BCL7B is a positive regulator of apoptosis. BCL7B plays a role in the Wnt signaling pathway, negatively regulating the expression of Wnt signaling components CTNNB1 and HMGA1 (Uehara et al. (2015) PLoS Genet 11(1):e1004921). BCL7B is involved in cell cycle progression, maintenance of the nuclear structure and stem cell differentiation (Uehara et al. (2015) PLoS Genet 11(1):e1004921). It plays a role in lung tumor development or progression. Human BCL7B protein has 202 amino acids and a molecular mass of 22195 Da.

The term “BCL7B” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human BCL7B cDNA and human BCL7B protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, three different human BCL7B isoforms are known. Human BCL7B isoform 1 (NP_001698.2) is encodable by the transcript variant 1 (NM_001707.3). Human BCL7B isoform 2 (NP_001184173.1) is encodable by the transcript variant 2 (NM_001197244.1). Human BCL7B isoform 3 (NP_001287990.1) is encodable by the transcript variant 3 (NM_001301061.1). Nucleic acid and polypeptide sequences of BCL7B orthologs in organisms other than humans are well known and include, for example, chimpanzee BCL7B (XM_003318671.3 and XP_003318719.1, and XM_003318672.3 and XP_003318720.1), Rhesus monkey BCL7B (NM_001194509.1 and NP_001181438.1), dog BCL7B (XM_546926.6 and XP_546926.1, and XM_005620975.2 and XP_005621032.1), cattle BCL7B (NM_001034775.2 and NP_001029947.1), mouse BCL7B (NM_009745.2 and NP_033875.2), chicken BCL7B (XM_003643231.4 and XP_003643279.1, XM_004949975.3 and XP_004950032.1, and XM_025142155.1 and XP_024997923.1), tropical clawed frog BCL7B (NM_001103072.1 and NP_001096542.1), and zebrafish BCL7B (NM_001006018.1 and NP_001006018.1, and NM_213165.1 and NP_998330.1). Representative sequences of BCL7B orthologs are presented below in Table 1.

Anti-BCL7B antibodies suitable for detecting BCL7B protein are well-known in the art and include, for example, antibody TA809485 (Origene), antibodies H00009275-M01 and NBP2-34097 (Novus Biologicals, Littleton, Colo.), antibodies ab130538 and ab172358 (AbCam, Cambridge, Mass.), antibody MA527163 (ThermoFisher Scientific), antibody Cat #58-996 (ProSci, Poway, Calif.), etc. In addition, reagents are well-known for detecting BCL7B. Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing BCL7B expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-89728 and sc-141672 and CRISPR product #sc-411262 from Santa Cruz Biotechnology, RNAi products SR306141 and TL306418V, and CRISPR product KN201696 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding BCL7B molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a BCL7B molecule encompassed by the present invention.

The term “BCL7C” refers to BCL Tumor Suppressor 7C, a member of the BCL7 family including BCL7A, BCL7B and BCL7C proteins. This gene is identified by the similarity of its product to the N-terminal region of BCL7A protein. BCL7C may play an anti-apoptotic role. Diseases associated with BCL7C include Lymphoma. Human BCL7C protein has 217 amino acids and a molecular mass of 23468 Da.

The term “BCL7C” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human BCL7C cDNA and human BCL7C protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human BCL7C isoforms are known. Human BCL7C isoform 1 (NP_001273455.1) is encodable by the transcript variant 1 (NM_001286526.1). Human BCL7C isoform 2 (NP_004756.2) is encodable by the transcript variant 2 (NM_004765.3). Nucleic acid and polypeptide sequences of BCL7C orthologs in organisms other than humans are well known and include, for example, chimpanzee BCL7C (XM_016929717.2 and XP_016785206.1, XM_016929716.2 and XP_016785205.1, and XM_016929718.2 and XP_016785207.1), Rhesus monkey BCL7C (NM_001265776.2 and NP_001252705.1), cattle BCL7C (NM_001099722.1 and NP_001093192.1), mouse BCL7C (NM_001347652.1 and NP_001334581.1, and NM_009746.2 and NP_033876.1), and rat BCL7C (NM_001106298.1 and NP_001099768.1). Representative sequences of BCL7C orthologs are presented below in Table 1.

Anti-BCL7C antibodies suitable for detecting BCL7C protein are well-known in the art and include, for example, antibody TA347083 (Origene), antibodies NBP2-15559 and NBP1-86441 (Novus Biologicals, Littleton, Colo.), antibodies ab126944 and ab231278 (AbCam, Cambridge, Mass.), antibody PA5-30308 (ThermoFisher Scientific), etc. In addition, reagents are well-known for detecting BCL7C. Multiple clinical tests of BCL7C are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000540637.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing BCL7C expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-93022 and sc-141673 and CRISPR product #sc-411261 from Santa Cruz Biotechnology, RNAi products SR306140 and TL315552V, and CRISPR product KN205720 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding BCL7C molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a BCL7C molecule encompassed by the present invention.

The term “SMARCA4” refers to SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4, a member of the SWI/SNF family of proteins and is highly similar to the brahma protein of Drosophila. Members of this family have helicase and ATPase activities and are thought to regulate transcription of certain genes by altering the chromatin structure around those genes. The encoded protein is part of the large ATP-dependent chromatin remodeling complex SNF/SWI, which is required for transcriptional activation of genes normally repressed by chromatin. In addition, this protein can bind BRCA1, as well as regulate the expression of the tumorigenic protein CD44. Mutations in this gene cause rhabdoid tumor predisposition syndrome type 2. SMARCA4 is a component of SWI/SNF chromatin remodeling complexes that carry out key enzymatic activities, changing chromatin structure by altering DNA-histone contacts within a nucleosome in an ATP-dependent manner. SMARCA4 is a component of the CREST-BRG1 complex, a multiprotein complex that regulates promoter activation by orchestrating a calcium-dependent release of a repressor complex and a recruitment of an activator complex. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC repressor complex. Upon calcium influx, RB1 is dephosphorylated by calcineurin, which leads to release of the repressor complex. At the same time, there is increased recruitment of CREBBP to the promoter by a CREST-dependent mechanism, which leads to transcriptional activation. The CREST-BRG1 complex also binds to the NR2B promoter, and activity-dependent induction of NR2B expression involves a release of HDAC1 and recruitment of CREBBP. SMARCA4 belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and the neuron-specific chromatin remodeling complex (nBAF complex). During neural development a switch from a stem/progenitor to a postmitotic chromatin remodeling mechanism occurs as neurons exit the cell cycle and become committed to their adult state. The transition from proliferating neural stem/progenitor cells to postmitotic neurons requires a switch in subunit composition of the npBAF and nBAF complexes. As neural progenitors exit mitosis and differentiate into neurons, npBAF complexes which contain ACTL6A/BAF53A and PHF10/BAF45A, are exchanged for homologous alternative ACTL6B/BAF53B and DPF1/BAF45B or DPF3/BAF45C subunits in neuron-specific complexes (nBAF). The npBAF complex is essential for the self-renewal/proliferative capacity of the multipotent neural stem cells. The nBAF complex along with CREST plays a role regulating the activity of genes essential for dendrite growth. SMARCA4/BAF190A promote neural stem cell self-renewal/proliferation by enhancing Notch-dependent proliferative signals, while concurrently making the neural stem cell insensitive to SHH-dependent differentiating cues. SMARCA4 acts as a corepressor of ZEB1 to regulate E-cadherin transcription and is required for induction of epithelial-mesenchymal transition (EMT) by ZEB1. Human SMARCA4 protein has 1647 amino acids and a molecular mass of 184646 Da. The known binding partners of SMARCA4 include, e.g., PHF10/BAF45A, MYOG, IKFZ1, ZEB1, NR3C1, PGR, SMARD1, TOPBP1 and ZMIM2/ZIMP7.

The term “SMARCA4” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SMARCA4 cDNA and human SMARCA4 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, six different human SMARCA4 isoforms are known. Human SMARCA4 isoform A (NP_001122321.1) is encodable by the transcript variant 1 (NM_001128849.1). Human SMARCA4 isoform B (NP_001122316.1 and NP_003063.2) is encodable by the transcript variant 2 (NM_001128844.1) and the transcript variant 3 (NM_003072.3). Human SMARCA4 isoform C (NP_001122317.1) is encodable by the transcript variant 4 (NM_001128845.1). Human SMARCA4 isoform D (NP_001122318.1) is encodable by the transcript variant 5 (NM_001128846.1). Human SMARCA4 isoform E (NP_001122319.1) is encodable by the transcript variant 6 (NM_001128847.1). Human SMARCA4 isoform F (NP_001122320.1) is encodable by the transcript variant 7 (NM_001128848.1). Nucleic acid and polypeptide sequences of SMARCA4 orthologs in organisms other than humans are well known and include, for example, Rhesus monkey SMARCA4 (XM_015122901.1 and) XP_014978387.1, XM_015122902.1 and XP_014978388.1, XM_015122903.1 and XP_014978389.1, XM_015122906.1 and XP_014978392.1, XM_015122905.1 and XP_014978391.1, XM_015122904.1 and XP_014978390.1, XM_015122907.1 and XP_014978393.1, XM_015122909.1 and XP_014978395.1, and XM_015122910.1 and XP_014978396.1), cattle SMARCA4 (NM_001105614.1 and NP_001099084.1), mouse SMARCA4 (NM_001174078.1 and NP_001167549.1, NM_011417.3 and NP_035547.2, NM_001174079.1 and NP_001167550.1, NM_001357764.1 and NP_001344693.1), rat SMARCA4 (NM_134368.1 and NP_599195.1), chicken SMARCA4 (NM_205059.1 and NP_990390.1), and zebrafish SMARCA4 (NM_181603.1 and NP_853634.1). Representative sequences of SMARCA4 orthologs are presented below in Table 1.

Anti-SMARCA4 antibodies suitable for detecting SMARCA4 protein are well-known in the art and include, for example, antibody AM26021PU-N(Origene), antibodies NB100-2594 and AF5738 (Novus Biologicals, Littleton, Colo.), antibodies ab110641 and ab4081 (AbCam, Cambridge, Mass.), antibody 720129 (ThermoFisher Scientific), antibody 7749 (ProSci), etc. In addition, reagents are well-known for detecting SMARCA4. Multiple clinical tests of SMARCA4 are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000517106.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SMARCA4 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-29827 and sc-44287 and CRISPR product #sc-400168 from Santa Cruz Biotechnology, RNAi products SR321835 and TL309249V, and CRISPR product KN219258 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SMARCA4 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SMARCA4 molecule encompassed by the present invention.

The term “SS18” refers to SS18, NBAF Chromatin Remodeling Complex Subunit. SS18 functions synergistically with RBM14 as a transcriptional coactivator. Isoform 1 and isoform 2 of SS18 function in nuclear receptor coactivation. Isoform 1 and isoform 2 of SS18 function in general transcriptional coactivation. Diseases associated with SS18 include Sarcoma, Synovial Cell Sarcoma. Among its related pathways are transcriptional misregulation in cancer and chromatin regulation/acetylation. Human SS18 protein has 418 amino acids and a molecular mass of 45929 Da. The known binding partners of SS18 include, e.g., MLLT10 and RBM14 isoform 1.

The term “SS18” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SS18 cDNA and human SS18 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, three different human SS18 isoforms are known. Human SS18 isoform 1 (NP_001007560.1) is encodable by the transcript variant 1 (NM_001007559.2). Human SS18 isoform 2 (NP_005628.2) is encodable by the transcript variant 2 (NM_005637.3). Human SS18 isoform 3 (NP_001295130.1) is encodable by the transcript variant 3 (NM_001308201.1). Nucleic acid and polypeptide sequences of SS18 orthologs in organisms other than humans are well known and include, for example, dog SS18 (XM_005622940.3 and XP_005622997.1, XM_537295.6 and XP_537295.3, XM_003434925.4 and XP_003434973.1, and XM_005622941.3 and XP_005622998.1), mouse SS18 (NM_009280.2 and NP_033306.2, NM_001161369.1 and NP_001154841.1, NM_001161370.1 and NP_001154842.1, and NM_001161371.1 and NP_001154843.1), rat SS18 (NM_001100900.1 and NP_001094370.1), chicken SS18 (XM_015277943.2 and) XP_015133429.1, and XM_015277944.2 and XP_015133430.1), tropical clawed frog SS18 (XM_012964966.1 and XP_012820420.1, XM_018094711.1 and XP_017950200.1, XM_012964964.2 and XP_012820418.1, and XM_012964965.2 and XP_012820419.1), and zebrafish SS18 (NM_001291325.1 and NP_001278254.1, and NM_199744.2 and NP_956038.1). Representative sequences of BRD7 orthologs are presented below in Table 1.

Anti-SS18 antibodies suitable for detecting SS18 protein are well-known in the art and include, for example, antibody TA314572 (Origene), antibodies NBP2-31777 and NBP2-31612 (Novus Biologicals, Littleton, Colo.), antibodies ab179927 and ab89086 (AbCam, Cambridge, Mass.), antibody PA5-63745 (ThermoFisher Scientific), etc. In addition, reagents are well-known for detecting SS18. Multiple clinical tests of SS18 are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000546059.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SS18 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-38449 and sc-38450 and CRISPR product #sc-401575 from Santa Cruz Biotechnology, RNAi products SR304614 and TL309102V, and CRISPR product KN215192 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SS18 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SS18 molecule encompassed by the present invention.

The term “SS18L1” refers to SS18L1, NBAF Chromatin Remodeling Complex Subunit. This gene encodes a calcium-responsive transactivator which is an essential subunit of a neuron-specific chromatin-remodeling complex. The structure of this gene is similar to that of the SS18 gene. Mutations in this gene are involved in amyotrophic lateral sclerosis (ALS). SS18L1 is a transcriptional activator which is required for calcium-dependent dendritic growth and branching in cortical neurons. SS18L1 recruits CREB-binding protein (CREBBP) to nuclear bodies. SS18L1 is a component of the CREST-BRG1 complex, a multiprotein complex that regulates promoter activation by orchestrating a calcium-dependent release of a repressor complex and a recruitment of an activator complex. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC1 repressor complex. Upon calcium influx, RB1 is dephosphorylated by calcineurin, which leads to release of the repressor complex. At the same time, there is increased recruitment of CREBBP to the promoter by a CREST-dependent mechanism, which leads to transcriptional activation. The CREST-BRG1 complex also binds to the NR2B promoter, and activity-dependent induction of NR2B expression involves a release of HDAC1 and recruitment of CREBBP. Human SS18L1 protein has 396 amino acids and a molecular mass of 42990 Da. The known binding partners of SS18L1 include, e.g., CREBBP (via N-terminus), EP300 and SMARCA4/BRG1.

The term “SS18L1” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human SS18L1 cDNA and human SS18L1 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, two different human SS18L1 isoforms are known. Human SS18L1 isoform 1 (NP_945173.1) is encodable by the transcript variant 1 (NM_198935.2), which encodes the longer isoform. Human SS18L1 isoform 2 (NP_001288707.1) is encodable by the transcript variant 2 (NM_001301778.1), which has an additional exon in the 5′ region and an alternate splice acceptor site, which results in translation initiation at a downstream AUG start codon, compared to variant 1. The resulting isoform (2) has a shorter N-terminus, compared to isoform 1. Nucleic acid and polypeptide sequences of SS18L1 orthologs in organisms other than humans are well known and include, for example, Rhesus monkey SS18 (XM_015148655.1 and XP_015004141.1, XM_015148658.1 and XP_015004144.1, XM_015148656.1 and XP_015004142.1, XM_015148657.1 and XP_015004143.1, and XM_015148654.1 and XP_015004140.1), dog SS18L1 (XM_005635257.3 and XP_005635314.2), cattle SS18 (NM_001078095.1 and NP_001071563.1), mouse SS18L1 (NM_178750.5 and NP_848865.4), rat SS18L1 (NM_138918.1 and NP_620273.1), chicken SS18L1 (XM_417402.6 and XP_417402.4), and tropical clawed frog SS18L1 (NM_001195706.2 and NP_001182635.1). Representative sequences of SS18L1 orthologs are presented below in Table 1.

Anti-SS18L1 antibodies suitable for detecting SS18L1 protein are well-known in the art and include, for example, antibody TA333342 (Origene), antibodies NBP2-20486 and NBP2-20485 (Novus Biologicals, Littleton, Colo.), antibody PA5-30571 (ThermoFisher Scientific), antibody 59-703 (ProSci), etc. In addition, reagents are well-known for detecting SS18L1. Multiple clinical tests of SS18L1 are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000546798.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing SS18L1 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-60442 and sc-60441 and CRISPR product #sc-403134 from Santa Cruz Biotechnology, RNAi products SR308680 and TF301381, and CRISPR product KN212373 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding SS18L1 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a SS18L1 molecule encompassed by the present invention.

The term “GLTSCR1” or “BICRA” refers to BRD4 Interacting Chromatin Remodeling Complex Associated Protein. GLTSCR1 plays a role in BRD4-mediated gene transcription. Diseases associated with BICRA include Acoustic Neuroma and Neuroma. An important paralog of this gene is BICRAL. Human GLTSCR1 protein has 1560 amino acids and a molecular mass of 158490 Da. The known binding partners of GLTSCR1 include, e.g., BRD4.

The term “GLTSCR1” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human GLTSCR1 cDNA and human GLTSCR1 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, human GLTSCR1 (NP_056526.3) is encodable by the transcript variant 1 (NM_015711.3). Nucleic acid and polypeptide sequences of GLTSCR1 orthologs in organisms other than humans are well known and include, for example, chimpanzee GLTSCR1 (XM_003316479.3 and XP_003316527.1, XM_009435940.2 and XP_009434215.1, XM_009435938.3 and XP_009434213.1, and XM_009435941.2 and XP_009434216.1), Rhesus monkey GLTSCR1 (XM_015124361.1 and XP_014979847.1, and XM_015124362.1 and XP_014979848.1), dog GLTSCR1 (XM_014116569.2 and XP_013972044.1), mouse GLTSCR1 (NM_001081418.1 and NP_001074887.1), rat GLTSCR1 (NM_001106226.2 and NP_001099696.2), chicken GLTSCR1 (XM_025144460.1 and XP_025000228.1), and tropical clawed frog GLTSCR1 (NM_001113827.1 and NP_001107299.1). Representative sequences of GLTSCR1 orthologs are presented below in Table 1.

Anti-GLTSCR1 antibodies suitable for detecting GLTSCR1 protein are well-known in the art and include, for example, antibody AP51862PU-N(Origene), antibody NBP2-30603 (Novus Biologicals, Littleton, Colo.), etc. In addition, reagents are well-known for detecting GLTSCR1. Multiple clinical tests of GLTSCR1 are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000534926.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing GLTSCR1 expression can be found in the commercial product lists of the above-referenced companies, such as RNAi products SR309337 and TL304311V, and CRISPR product KN214080 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding GLTSCR1 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a GLTSCR1 molecule encompassed by the present invention.

The term “GLTSCR1L” or “BICRAL” refers to BRD4 Interacting Chromatin Remodeling Complex Associated Protein Like. An important paralog of this gene is BICRA. Human GLTSCR1L protein has 1079 amino acids and a molecular mass of 115084 Da.

The term “GLTSCR1L” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human GLTSCR1L cDNA and human GLTSCR1L protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, human GLTSCR1L protein (NP_001305748.1 and NP_056164.1) is encodable by the transcript variant 1 (NM_001318819.1) and the transcript variant 2 (NM_015349.2). Nucleic acid and polypeptide sequences of GLTSCR1 orthologs in organisms other than humans are well known and include, for example, chimpanzee GLTSCR1L (XM_016955520.2 and) XP_016811009.1, XM_024357216.1 and XP_024212984.1, XM_016955522.2 and XP_016811011.1, XM_009451272.3 and XP_009449547.1, and XM_001135166.6 and) XP_001135166.1), Rhesus monkey GLTSCR1L (XM_015136397.1 and XP_014991883.1), dog GLTSCR1L (XM_005627362.3 and XP_005627419.1, XM_014118453.2 and XP_013973928.1, and XM_005627363.3 and XP_005627420.1), cattle GLTSCR1L (NM_001205780.1 and NP_001192709.1), mouse GLTSCR1L (NM_001100452.1 and NP_001093922.1), tropical clawed frog GLTSCR1L (XM_002934681.4 and XP_002934727.2, and XM_018094119.1 and XP_017949608.1), and zebrafish GLTSCR1L (XM_005156379.4 and XP_005156436.1, and XM_682390.9 and XP_687482.4). Representative sequences of GLTSCR1L orthologs are presented below in Table 1.

Anti-GLTSCR1L antibodies suitable for detecting GLTSCR1L protein are well-known in the art and include, for example, antibodies NBP1-86359 and NBP1-86360 (Novus Biologicals, Littleton, Colo.), etc. In addition, reagents are well-known for detecting GLTSCR1L. Multiple clinical tests of GLTSCR1L are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000534926.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing GLTSCR1L expression can be found in the commercial product lists of the above-referenced companies, such as RNAi products SR308318 and TL303775V, and CRISPR product KN211609 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding GLTSCR1L molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a GLTSCR1L molecule encompassed by the present invention.

The term “BRD9” refers to Bromodomain Containing 9. An important paralog of this gene is BRD7. BRD9 plays a role in chromatin remodeling and regulation of transcription (Filippakopouplos et al. (2012) Cell 149:214-231; Flynn et al. (2015) Structure 23:1801-1814). BRD9 acts as a chromatin reader that recognizes and binds acylated histones. BRD9 binds histones that are acetylated and/or butyrylated (Flynn et al. (2015) Structure 23:1801-1814). Human BRD9 protein has 597 amino acids and a molecular mass of 67000 Da. BRD9 binds acetylated histones H3 and H4, as well as butyrylated histone H4.

The term “BRD9” is intended to include fragments, variants (e.g., allelic variants), and derivatives thereof. Representative human BRD9 cDNA and human BRD9 protein sequences are well-known in the art and are publicly available from the National Center for Biotechnology Information (NCBI). For example, three different human BRD9 isoforms are known. Human BRD9 isoform 1 (NP_076413.3) is encodable by the transcript variant 1 (NM_023924.4). Human BRD9 isoform 2 (NP_001009877.2) is encodable by the transcript variant 2 (NM_001009877.2). Human BRD9 isoform 3 (NP_001304880.1) is encodable by the transcript variant 3 (NM_001317951.1). Nucleic acid and polypeptide sequences of BRD9 orthologs in organisms other than humans are well known and include, for example, chimpanzee BRD9 (XM_016952886.2 and XP_016808375.1, XM_016952888.2 and XP_016808377.1, XM_016952889.1 and XP_016808378.1, and XM_024356518.1 and XP_024212286.1), Rhesus monkey BRD9 (NM_001261189.1 and NP_001248118.1), dog BRD9 (XM_014110323.2 and XP_013965798.2), cattle BRD9 (NM_001193092.2 and NP_001180021.1), mouse BRD9 (NM_001024508.3 and NP_001019679.2, and NM_001308041.1 and NP_001294970.1), rat BRD9 (NM_001107453.1 and NP_001100923.1), chicken BRD9 (XM_015275919.2 and XP_015131405.1, XM_015275920.2 and XP_015131406.1, and XM_015275921.2 and XP_015131407.1), tropical clawed frog BRD9 (NM_213697.2 and NP_998862.1), and zebrafish BRD9 (NM_200275.1 and NP_956569.1). Representative sequences of BRD9 orthologs are presented below in Table 1.

Anti-BRD9 antibodies suitable for detecting BRD9 protein are well-known in the art and include, for example, antibody TA337992 (Origene), antibodies NBP2-15614 and NBP2-58517 (Novus Biologicals, Littleton, Colo.), antibodies ab155039 and ab137245 (AbCam, Cambridge, Mass.), antibody PA5-31847 (ThermoFisher Scientific), antibody 28-196 (ProSci), etc. In addition, reagents are well-known for detecting BRD9. Multiple clinical tests of BRD9 are available in NIH Genetic Testing Registry (GTR®) (e.g., GTR Test ID: GTR000540343.2, offered by Fulgent Clinical Diagnostics Lab (Temple City, Calif.)). Moreover, multiple siRNA, shRNA, CRISPR constructs for reducing BRD9 expression can be found in the commercial product lists of the above-referenced companies, such as siRNA products #sc-91975 and sc-141743 and CRISPR product #sc-404933 from Santa Cruz Biotechnology, RNAi products SR312243 and TL314434, and CRISPR product KN208315 (Origene), and multiple CRISPR products from GenScript (Piscataway, N.J.). It is to be noted that the term can further be used to refer to any combination of features described herein regarding BRD9 molecules. For example, any combination of sequence composition, percentage identify, sequence length, domain structure, functional activity, etc. can be used to describe a BRD9 molecule encompassed by the present invention.

There is a known and definite correspondence between the amino acid sequence of a particular protein and the nucleotide sequences that can code for the protein, as defined by the genetic code (shown below). Likewise, there is a known and definite correspondence between the nucleotide sequence of a particular nucleic acid and the amino acid sequence encoded by that nucleic acid, as defined by the genetic code.

GENETIC CODE Alanine (Ala, A) GCA, GCC, GCG, GCT Arginine (Arg, R) AGA, ACG, CGA, CGC, CGG, CGT Asparagine (Asn, N) AAC, AAT Aspartic acid (Asp, D) GAC, GAT Cysteine (Cys, C) TGC, TGT Glutamic acid (Glu, E) GAA, GAG Glutamine (Gln, Q) CAA, CAG Glycine (Gly, G) GGA, GGC, GGG, GGT Histidine (His, H) CAC, CAT Isoleucine (Ile, I) ATA, ATC, ATT Leucine (Leu, L) CTA, CTC, CTG, CTT, TTA, TTG Lysine (Lys, K) AAA, AAG Methionine (Met, M) ATG Phenylalanine (Phe, F) TTC, TTT Proline (Pro, P) CCA, CCC, CCG, CCT Serine (Ser, S) AGC, AGT, TCA, TCC, TCG, TCT Threonine (Thr, T) ACA, ACC, ACG, ACT Tryptophan (Trp, W) TGG Tyrosine (Tyr, Y) TAC, TAT Valine (Val, V) GTA, GTC, GTG, GTT Termination signal (end) TAA, TAG, TGA

An important and well-known feature of the genetic code is its redundancy, whereby, for most of the amino acids used to make proteins, more than one coding nucleotide triplet may be employed (illustrated above). Therefore, a number of different nucleotide sequences may code for a given amino acid sequence. Such nucleotide sequences are considered functionally equivalent since they result in the production of the same amino acid sequence in all organisms (although certain organisms may translate some sequences more efficiently than they do others). Moreover, occasionally, a methylated variant of a purine or pyrimidine may be found in a given nucleotide sequence. Such methylations do not affect the coding relationship between the trinucleotide codon and the corresponding amino acid.

In view of the foregoing, the nucleotide sequence of a DNA or RNA encoding a protein subunit nucleic acid (or any portion thereof) can be used to derive the polypeptide amino acid sequence, using the genetic code to translate the DNA or RNA into an amino acid sequence. Likewise, for polypeptide amino acid sequence, corresponding nucleotide sequences that can encode the polypeptide can be deduced from the genetic code (which, because of its redundancy, will produce multiple nucleic acid sequences for any given amino acid sequence). Thus, description and/or disclosure herein of a nucleotide sequence which encodes a polypeptide should be considered to also include description and/or disclosure of the amino acid sequence encoded by the nucleotide sequence. Similarly, description and/or disclosure of a polypeptide amino acid sequence herein should be considered to also include description and/or disclosure of all possible nucleotide sequences that can encode the amino acid sequence.

Finally, nucleic acid and amino acid sequence information for subunits of the SWI/SNF protein complexes encompassed by the present invention are well-known in the art and readily available on publicly available databases, such as the National Center for Biotechnology Information (NCBI). For example, exemplary nucleic acid and amino acid sequences derived from publicly available sequence databases are provided in Table 1 below.

TABLE 1 Subunit_1: SMARCC1 or SMARCC2 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: SMARCB1 Subunit_5: SMARCE1 Subunit_6: ARID1A or ARID1B Subunit_7: DPF1, DPF2, or DPF3 Subunit_8: ACTL6A Subunit_9: β-Actin Subunit_10: BCL7A, BCL7B, or BCL7C Subunit_11: SMARCA2 or SMARCA4 Subunit_12: SS18 or SS18L1 Subunit_1: SMARCC1 or SMARCC2 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: SMARCB1 Subunit_5: SMARCE1 Subunit_6: ARID2 Subunit_7: BRD7 Subunit_8: PHF10 Subunit_9: ACTL6A Subunit_10: β-Actin Subunit_11: BCL7A, BCL7B, or BCL7C Subunit_12: SMARCA2 or SMARCA4 Subunit_13: PBRM1 Subunit_14: PBRM1 SMARCC1 SMARCC2 SMARCD1 SMARCD2 SMARCD3 SMARCB1 SMARCE1 ARID1A ARID1B DPF1 DPF2 DPF3 ACTL6A β-Actin BCL7A BCL7B BCL7C SMARCA2 SMARCA4 SS18 SS18L1 ARID2 BRD7 PHF10 PBRM1 GLTSCR1 GLTSCR1L BRD9 SEQ ID NO: 1 Human PBRM1 Transcript Variant 1 cDNA Sequence (NM_018313.4) 1 gcggccgcgg ccggaggagc aatagcagca gccgtggcgg ccacggggcg gggcgcggcg 61 gtcggtgacc gcggccgggg ctgcaggcgg cggagcggct ggaagttgga ttccatgggt 121 tccaagagaa gaagagctac ctccccttcc agcagtgtca gcggggactt tgatgatggg 181 caccattctg tgtcaacacc aggcccaagc aggaaaagga ggagactttc caatcttcca 241 actgtagatc ctattgccgt gtgccatgaa ctctataata ccatccgaga ctataaggat 301 gaacagggca gacttctctg tgagctcttc attagggcac caaagcgaag aaatcaacca 361 gactattatg aagtggtttc tcagcccatt gacttgatga aaatccaaca gaaactaaaa 421 atggaagagt atgatgatgt taatttgctg actgctgact tccagcttct ttttaacaat 481 gcaaagtcct attataagcc agattctcct gaatataaag ccgcttgcaa actctgggat 541 ttgtaccttc gaacaagaaa tgagtttgtt cagaaaggag aagcagatga cgaagatgat 601 gatgaagatg ggcaagacaa tcagggcaca gtgactgaag gatcttctcc agcttacttg 661 aaggagatcc tggagcagct tcttgaagcc atagttgtag ctacaaatcc atcaggacgt 721 ctcattagcg aactttttca gaaactgcct tctaaagtgc aatatccaga ttattatgca 781 ataattaagg agcctataga tctcaagacc attgcccaga ggatacagaa tggaagctac 841 aaaagtattc atgcaatggc caaagatata gatctcctcg caaaaaatgc caaaacttat 901 aatgagcctg gctctcaagt attcaaggat gcaaattcaa ttaaaaaaat attttatatg 961 aaaaaggctg aaattgaaca tcatgaaatg gctaagtcaa gtcttcgaat gaggactcca 1021 tccaacttgg ctgcagccag actgacaggt ccttcacaca gtaaaggcag ccttggtgaa 1081 gagagaaatc ccactagcaa gtattaccgt aataaaagag cagtacaagg aggtcgttta 1141 tcagcaatta caatggcact tcaatatggc tcagaaagtg aagaagatgc tgctttagct 1201 gctgcacgct atgaagaggg agagtcagaa gcagaaagca tcacttcctt tatggatgtt 1261 tcaaatcctt tttatcagct ttatgacaca gttaggagtt gtcggaataa ccaagggcag 1321 ctaatagctg aaccttttta ccatttgcct tcaaagaaaa aataccctga ttattaccag 1381 caaattaaaa tgcccatatc actacaacag atccgaacaa aactgaagaa tcaagaatat 1441 gaaactttag atcatttgga gtgtgatctg aatttaatgt ttgaaaatgc caaacgctat 1501 aatgtgccca attcagccat ctacaagcga gttctaaaat tgcagcaagt tatgcaggca 1561 aagaagaaag agcttgccag gagagacgat atcgaggacg gagacagcat gatctcttca 1621 gccacctctg atactggtag tgccaaaaga aaaagtaaaa agaacataag aaagcagcga 1681 atgaaaatct tattcaatgt tgttcttgaa gctcgagagc caggttcagg cagaagactt 1741 tgtgacctat ttatggttaa accatccaaa aaggactatc ctgattatta taaaatcatc 1801 ttggagccaa tggacttgaa aataattgag cataacatcc gcaatgacaa atatgctggt 1861 gaagagggaa tgatagaaga catgaagctg atgttccgga atgccaggca ctataatgag 1921 gagggctccc aggtttataa tgatgcacat atcctggaga agttactcaa ggagaaaagg 1981 aaagagctgg gcccactgcc tgatgatgat gacatggctt ctcccaaact caagctgagt 2041 aggaagagtg gcatttctcc taaaaaatca aaatacatga ctccaatgca gcagaaacta 2101 aatgaggtct atgaagctgt aaagaactat actgataaga ggggtcgccg cctcagtgcc 2161 atatttctga ggcttccctc tagatctgag ttgcctgact actatctgac tattaaaaag 2221 cccatggaca tggaaaaaat tcgaagtcac atgatggcca acaagtacca agatattgac 2281 tctatggttg aggactttgt catgatgttt aataatgcct gtacatacaa tgagccggag 2341 tctttgatct acaaagatgc tcttgttcta cacaaagtcc tgcttgaaac acgcagagac 2401 ctggagggag atgaggactc tcatgtccca aatgtgactt tgctgattca agagcttatc 2461 cacaatcttt ttgtgtcagt catgagtcat caggatgatg agggaagatg ctacagcgat 2521 tctttagcag aaattcctgc tgtggatccc aactttccta acaaaccacc ccttacattt 2581 gacataatta ggaagaatgt tgaaaataat cgctaccgtc ggcttgattt atttcaagag 2641 catatgtttg aagtattgga acgagcaaga aggatgaatc ggacagattc agaaatatat 2701 gaagatgcag tagaacttca gcagtttttt attaaaattc gtgatgaact ctgcaaaaat 2761 ggagagattc ttctttcacc ggcactcagc tataccacaa aacatttgca taatgatgtg 2821 gagaaagaga gaaaggaaaa attgccaaaa gaaatagagg aagataaact aaaacgagaa 2881 gaagaaaaaa gagaagctga aaagagtgaa gattcctctg gtgctgcagg cctctcaggc 2941 ttacatcgca catacagcca ggactgtagc tttaaaaaca gcatgtacca tgttggagat 3001 tacgtctatg tggaacctgc agaggccaac ctacaaccac atatcgtctg tattgaaaga 3061 ctgtgggagg attcagctga aaaagaagtt tttaagagtg actattacaa caaagttcca 3121 gttagtaaaa ttctaggcaa gtgtgtggtc atgtttgtca aggaatactt taagttatgc 3181 ccagaaaact tccgagatga ggatgttttt gtctgtgaat cacggtattc tgccaaaacc 3241 aaatctttta agaaaattaa actgtggacc atgcccatca gctcagtcag gtttgtccct 3301 cgggatgtgc ctctgcctgt ggttcgcgtg gcctctgtat ttgcaaatgc agataaaggt 3361 gatgatgaga agaatacaga caactcagag gacagtcgag ctgaagacaa ttttaacttg 3421 gaaaaggaaa aagaagatgt ccctgtggaa atgtccaatg gtgaaccagg ttgccactac 3481 tttgagcagc tccattacaa tgacatgtgg ctgaaggttg gcgactgtgt cttcatcaag 3541 tcccatggcc tggtgcgtcc tcgtgtgggc agaattgaaa aagtatgggt tcgagatgga 3601 gctgcatatt tttatggccc catcttcatt cacccagaag aaacagagca tgagcccaca 3661 aaaatgttct acaaaaaaga agtatttctg agtaatctgg aagaaacctg ccccatgaca 3721 tgtattctcg gaaagtgtgc tgtgttgtca ttcaaggact tcctctcctg caggccaact 3781 gaaataccag aaaatgacat tctgctttgt gagagccgct acaatgagag cgacaagcag 3841 atgaagaaat tcaaaggatt gaagaggttt tcactctctg ctaaagtggt agatgatgaa 3901 atttactact tcagaaaacc aattgttcct cagaaggagc catcaccttt gctggaaaag 3961 aagatccagt tgctagaagc taaatttgcc gagttagaag gtggagatga tgatattgaa 4021 gagatgggag aagaagatag tgagtctacc ccaaagtctg ccaaaggcag tgcaaagaag 4081 gaaggctcca aacggaaaat caacatgagt ggctacatcc tgttcagcag tgagatgagg 4141 gctgtgatta aggcccaaca cccagactac tctttcgggg agctcagccg cctggtgggg 4201 acagaatgga gaaatcttga gacagccaag aaagcagaat atgaaggcat gatgggtggc 4261 tatccgccag gccttccacc tttgcagggc ccagttgatg gccttgttag catgggcagc 4321 atgcagccac ttcaccctgg ggggcctcca ccccaccatc ttccgccagg tgtgcctggc 4381 ctcccgggca tcccaccacc gggtgtgatg aaccaaggag tggcccctat ggtagggact 4441 ccagcaccag gtggaagtcc atatggacaa caggtgggag ttttggggcc tccagggcag 4501 caggcaccac ctccatatcc cggcccacat ccagctggac cccctgtcat acagcagcca 4561 acaacaccca tgtttgtagc tcccccacca aagacccagc ggcttcttca ctcagaggcc 4621 tacctgaaat acattgaagg actcagtgcg gagtccaaca gcattagcaa gtgggatcag 4681 acactggcag ctcgaagacg cgacgtccat ttgtcgaaag aacaggagag ccgcctaccc 4741 tctcactggc tgaaaagcaa aggggcccac accaccatgg cagatgccct ctggcgcctt 4801 cgagatttga tgctccggga caccctcaac attcgccaag catacaacct agaaaatgtt 4861 taatcacatc attacgtttc ttttatatag aagcataaag agttgtggat cagtagccat 4921 tttagttact gggggtgggg ggaaggaaca aaggaggata atttttattg cattttactg 4981 tacatcacaa ggccattttt atatacggac acttttaata agctatttca atttgtttgt 5041 tatattaagt tgactttatc aaatacacaa agattttttt gcatatgttt ccttcgttta 5101 aaaccagttt cataattggt tgtatatgta gacttggagt tttatctttt tacttgttgc 5161 catggaactg aaaccattag aggtttttgt cttggcttgg ggtttttgtt ttcttggttt 5221 tgggtttttt tatatatata tataaaagaa caaaatgaaa aaaaacacac acacacaaga 5281 gtttacagat tagtttaaat tgataatgaa atgtgaagtt tgtcctagtt tacatcttag 5341 agaggggagt atacttgtgt ttgtttcatg tgcctgaata tcttaagcca ctttctgcaa 5401 aagctgtttc ttacagatga agtgctttct ttgaaaggtg gttatttagg ttttagatgt 5461 ttaatagaca cagcacattt gctctattaa ctcagaggct cactacagaa atatgtaatc 5521 agtgctgtgc atctgtctgc agctaatgta cctcctggac accaggaggg gaaaaagcac 5581 tttttcaatt gtgctgagtt agacatctgt gagttagact atggtgtcag tgatttttgc 5641 agaacacgtg cacaaccctg aggtatgttt aatctaggca ggtacgttta aggatatttt 5701 gatctattta taatgaattc acaatttatg cctataaatt tcagatgatt taaaatttta 5761 aacctgttac attgaaaaac attgaagttc gtcttgaaga aagcattaag gtatgcatgg 5821 aggtgattta tttttaaaca taacacctaa cctaacatgg gtaagagagt atggaactag 5881 atatgagctg tataagaagc ataattgtga acaagtagat tgattgcctt catatacaag 5941 tatgttttag tattccttat ttccttatta tcagatgtat tttttctttt aagtttcaat 6001 gttgttataa ttctcaacca gaaatttaat actttctaaa atatttttta aatttagctt 6061 gtgcttttga attacaggag aagggaatca taatttaata aaacgcttac tagaaagacc 6121 attacagatc ccaaacactt gggtttggtg accctgtctt tcttatatga ccctacaata 6181 aacatttgaa ggcagcatag gatggcagac agtaggaaca ttgtttcact tggcggcatg 6241 tttttgaaac ctgctttata gtaactgggt gattgccatt gtggtagagc ttccactgct 6301 gtttataatc tgagagagtt aatctcagag gatgcttttt tccttttaat ctgctatgaa 6361 tcagtaccca gatgtttaat tactgtactt attaaatcat gagggcaaaa gagtgtagaa 6421 tggaaaaaag tctcttgtat ctagatactt taaatatggg aggcccttta acttaattgc 6481 ctttagtcaa ccactggatt tgaatttgca tcaagtattt taaataatat tgaatttaaa 6541 aaaatgtatt gcagtagtgt gtcagtacct tattgttaaa gtgagtcaga taaatcttca 6601 attcctggct atttgggcaa ttgaatcatc atggactgta taatgcaatc agattatttt 6661 gtttctagac atccttgaat tacaccaaag aacatgaaat ttagttgtgg ttaaattatt 6721 tatttatttc atgcattcat tttatttccc ttaaggtctg gatgagactt ctttggggag 6781 cctctaaaaa aatttttcac tgggggccac gtgggtcatt agaagccaga gctctcctcc 6841 aggctccttc ccagtgccta gaggtgctat aggaaacata gatccagcca ggggcttccc 6901 taaagcagtg cagcaccggc ccagggcatc actagacagg ccctaattaa gtttttttta 6961 aaaagcctgt gtatttattt tagaatcatg tttttctgta tattaacttg ggggatatcg 7021 ttaatattta ggatataaga tttgaggtca gccatcttca aaaaagaaaa aaaaattgac 7081 tcaagaaagt acaagtaaac tatacacctt tttttcataa gttttaggaa ctgtagtaat 7141 gtggcttaga aagtataatg gcctaaatgt tttcaaaatg taagttcctg tggagaagaa 7201 ttgtttatat tgcaaacggg gggactgagg ggaacctgta ggtttaaaac agtatgtttg 7261 tcagccaact gatttaaaag gcctttaact gttttggttg ttgttttttt tttaagccac 7321 tctccccttc ctatgaggaa gaattgagag gggcacctat ttctgtaaaa tccccaaatt 7381 ggtgttgatg attttgagct tgaatgtttt catacctgat taaaacttgg tttattctaa 7441 tttctgtatc atatcatctg aggtttacgt ggtaactagt cttataacat gtatgtatct 7501 tttttttgtt gttcatctaa agctttttaa tccaaataaa tacagagttt gcaaagtgat 7561 ttggattaac caggaaaaaa aaaaaaaaaa aa SEQ ID NO: 2 Human PBRM1 Variant 1 Amino Acid Sequence (NP_060783.3) 1 mgskrrrats psssysgdfd dghhsystpg psrkrrrlsn lptvdpiavc helyntirdy 61 kdeqgrllce lfirapkrrn qpdyyevvsq pidlmkiqqk lkmeeyddvn lltadfqllf 121 nnaksyykpd speykaackl wdlylrtrne fvqkgeadde dddedgqdnq gtvtegsspa 181 ylkeileqll eaivvatnps grliselfqk lpskvqypdy yaiikepidl ktiaqriqng 241 syksihamak didllaknak tynepgsqvf kdansikkif ymkkaeiehh emaksslrmr 301 tpsnlaaarl tgpshskgsl geernptsky yrnkravqgg rlsaitmalq ygseseedaa 361 laaaryeege seaesitsfm dvsnpfyqly dtvrscrnnq gqliaepfyh lpskkkypdy 421 yqqikmpisl qqirtklknq eyetldhlec dlnlmfenak rynvpnsaiy krvlklqqvm 481 qakkkelarr ddiedgdsmi ssatsdtgsa krkskknirk qrmkilfnvv learepgsgr 541 rlcdlfmvkp skkdypdyyk iilepmdlki iehnirndky ageegmiedm klmfrnarhy 601 neegsqvynd ahilekllke krkelgplpd dddmaspklk lsrksgispk kskymtpmqq 661 klnevyeavk nytdkrgrrl saiflrlpsr selpdyylti kkpmdmekir shmmankyqd 721 idsmvedfvm mfnnactyne pesliykdal vlhkvlletr rdlegdedsh vpnvtlliqe 781 lihnlfvsvm shqddegrcy sdslaeipav dpnfpnkppl tfdiirknve nnryrrldlf 841 qehmfevler arrmnrtdse iyedavelqq ffikirdelc kngeillspa lsyttkhlhn 901 dvekerkekl pkeieedklk reeekreaek sedssgaagl sglhrtysqd csfknsmyhv 961 gdyvyvepae anlqphivci erlwedsaek evfksdyynk vpvskilgkc vvmfvkeyfk 1021 lcpenfrded vfvcesrysa ktksfkkikl wtmpissvrf vprdvplpvv rvasvfanad 1081 kgddekntdn sedsraednf nlekekedvp vemsngepgc hyfeqlhynd mwlkvgdovf 1141 ikshglvrpr vgriekvwvr dgaayfygpi fihpeetehe ptkmfykkev flsnleetcp 1201 mtcilgkcav lsfkdflscr pteipendil lcesrynesd kqmkkfkglk rfslsakvvd 1261 deiyyfrkpi vpqkepspll ekkiqlleak faeleggddd ieemgeedse stpksakgsa 1321 kkegskrkin msgyilfsse mravikaqhp dysfgelsrl vgtewrnlet akkaeyegmm 1381 ggyppglppl qgpvdglvsm gsmqplhpgg ppphhlppgv pglpgipppg vmnqgvapmv 1441 gtpapggspy gqqvgvlgpp gqqapppypg phpagppviq qpttpmfvap ppktgrllhs 1501 eaylkyiegl saesnsiskw dqtlaarrrd vhlskeqesr lpshwlkskg ahttmadalw 1561 rlrdlmlrdt lnirqaynle nv SEQ ID NO: 3 Human PBRM1 Transcript Variant 2 cDNA Sequence (NM_181042.4) 1 gcggccgggg ctgcaggcgg cggagcggct ggcttgccaa cacttggtgt cacatgtgag 61 cctcccacat gtattcactc tccattccag ctctgtgatt gaactctgct cttattgact 121 agggggcagt tgggcaggca tgcctcattc ctggaattga cagtcattcc taataagttg 181 gattccatgg gttccaagag aagaagagct acctcccctt ccagcagtgt cagcggggac 241 tttgatgatg ggcaccattc tgtgtcaaca ccaggcccaa gcaggaaaag gaggagactt 301 tccaatcttc caactgtaga tcctattgcc gtgtgccatg aactctataa taccatccga 361 gactataagg atgaacaggg cagacttctc tgtgagctct tcattagggc accaaagcga 421 agaaatcaac cagactatta tgaagtggtt tctcagccca ttgacttgat gaaaatccaa 481 cagaaactaa aaatggaaga gtatgatgat gttaatttgc tgactgctga cttccagctt 541 ctttttaaca atgcaaagtc ctattataag ccagattctc ctgaatataa agccgcttgc 601 aaactctggg atttgtacct tcgaacaaga aatgagtttg ttcagaaagg agaagcagat 661 gacgaagatg atgatgaaga tgggcaagac aatcagggca cagtgactga aggatcttct 721 ccagcttact tgaaggagat cctggagcag cttcttgaag ccatagttgt agctacaaat 781 ccatcaggac gtctcattag cgaacttttt cagaaactgc cttctaaagt gcaatatcca 841 gattattatg caataattaa ggagcctata gatctcaaga ccattgccca gaggatacag 901 aatggaagct acaaaagtat tcatgcaatg gccaaagata tagatctcct cgcaaaaaat 961 gccaaaactt ataatgagcc tggctctcaa gtattcaagg atgcaaattc aattaaaaaa 1021 atattttata tgaaaaaggc tgaaattgaa catcatgaaa tggctaagtc aagtcttcga 1081 atgaggactc catccaactt ggctgcagcc agactgacag gtccttcaca cagtaaaggc 1141 agccttggtg aagagagaaa tcccactagc aagtattacc gtaataaaag agcagtacaa 1201 ggaggtcgtt tatcagcaat tacaatggca cttcaatatg gctcagaaag tgaagaagat 1261 gctgctttag ctgctgcacg ctatgaagag ggagagtcag aagcagaaag catcacttcc 1321 tttatggatg tttcaaatcc tttttatcag ctttatgaca cagttaggag ttgtcggaat 1381 aaccaagggc agctaatagc tgaacctttt taccatttgc cttcaaagaa aaaataccct 1441 gattattacc agcaaattaa aatgcccata tcactacaac agatccgaac aaaactgaag 1501 aatcaagaat atgaaacttt agatcatttg gagtgtgatc tgaatttaat gtttgaaaat 1561 gccaaacgct ataatgtgcc caattcagcc atctacaagc gagttctaaa attgcagcaa 1621 gttatgcagg caaagaagaa agagcttgcc aggagagacg atatcgagga cggagacagc 1681 atgatctctt cagccacctc tgatactggt agtgccaaaa gaaaaagtaa aaagaacata 1741 agaaagcagc gaatgaaaat cttattcaat gttgttcttg aagctcgaga gccaggttca 1801 ggcagaagac tttgtgacct atttatggtt aaaccatcca aaaaggacta tcctgattat 1861 tataaaatca tcttggagcc aatggacttg aaaataattg agcataacat ccgcaatgac 1921 aaatatgctg gtgaagaggg aatgatagaa gacatgaagc tgatgttccg gaatgccagg 1981 cactataatg aggagggctc ccaggtttat aatgatgcac atatcctgga gaagttactc 2041 aaggagaaaa ggaaagagct gggcccactg cctgatgatg atgacatggc ttctcccaaa 2101 ctcaagctga gtaggaagag tggcatttct cctaaaaaat caaaatacat gactccaatg 2161 cagcagaaac taaatgaggt ctatgaagct gtaaagaact atactgataa gaggggtcgc 2221 cgcctcagtg ccatatttct gaggcttccc tctagatctg agttgcctga ctactatctg 2281 actattaaaa agcccatgga catggaaaaa attcgaagtc acatgatggc caacaagtac 2341 caagatattg actctatggt tgaggacttt gtcatgatgt ttaataatgc ctgtacatac 2401 aatgagccgg agtctttgat ctacaaagat gctcttgttc tacacaaagt cctgcttgaa 2461 acacgcagag acctggaggg agatgaggac tctcatgtcc caaatgtgac tttgctgatt 2521 caagagctta tccacaatct ttttgtgtca gtcatgagtc atcaggatga tgagggaaga 2581 tgctacagcg attctttagc agaaattcct gctgtggatc ccaactttcc taacaaacca 2641 ccccttacat ttgacataat taggaagaat gttgaaaata atcgctaccg tcggcttgat 2701 ttatttcaag agcatatgtt tgaagtattg gaacgagcaa gaaggatgaa tcggacagat 2761 tcagaaatat atgaagatgc agtagaactt cagcagtttt ttattaaaat tcgtgatgaa 2821 ctctgcaaaa atggagagat tcttctttca ccggcactca gctataccac aaaacatttg 2881 cataatgatg tggagaaaga gagaaaggaa aaattgccaa aagaaataga ggaagataaa 2941 ctaaaacgag aagaagaaaa aagagaagct gaaaagagtg aagattcctc tggtgctgca 3001 ggcctctcag gcttacatcg cacatacagc caggactgta gctttaaaaa cagcatgtac 3061 catgttggag attacgtcta tgtggaacct gcagaggcca acctacaacc acatatcgtc 3121 tgtattgaaa gactgtggga ggattcagct ggtgaaaaat ggttgtatgg ctgttggttt 3181 taccgaccaa atgaaacatt ccacctggct acacgaaaat ttctagaaaa agaagttttt 3241 aagagtgact attacaacaa agttccagtt agtaaaattc taggcaagtg tgtggtcatg 3301 tttgtcaagg aatactttaa gttatgccca gaaaacttcc gagatgagga tgtttttgtc 3361 tgtgaatcac ggtattctgc caaaaccaaa tcttttaaga aaattaaact gtggaccatg 3421 cccatcagct cagtcaggtt tgtccctcgg gatgtgcctc tgcctgtggt tcgcgtggcc 3481 tctgtatttg caaatgcaga taaaggtgat gatgagaaga atacagacaa ctcagaggac 3541 agtcgagctg aagacaattt taacttggaa aaggaaaaag aagatgtccc tgtggaaatg 3601 tccaatggtg aaccaggttg ccactacttt gagcagctcc attacaatga catgtggctg 3661 aaggttggcg actgtgtctt catcaagtcc catggcctgg tgcgtcctcg tgtgggcaga 3721 attgaaaaag tatgggttcg agatggagct gcatattttt atggccccat cttcattcac 3781 ccagaagaaa cagagcatga gcccacaaaa atgttctaca aaaaagaagt atttctgagt 3841 aatctggaag aaacctgccc catgacatgt attctcggaa agtgtgctgt gttgtcattc 3901 aaggacttcc tctcctgcag gccaactgaa ataccagaaa atgacattct gctttgtgag 3961 agccgctaca atgagagcga caagcagatg aagaaattca aaggattgaa gaggttttca 4021 ctctctgcta aagtggtaga tgatgaaatt tactacttca gaaaaccaat tgttcctcag 4081 aaggagccat cacctttgct ggaaaagaag atccagttgc tagaagctaa atttgccgag 4141 ttagaaggtg gagatgatga tattgaagag atgggagaag aagatagtga ggtcattgaa 4201 cctccttctc tacctcagct tcagaccccc ctggccagtg agctggacct catgccctac 4261 acacccccac agtctacccc aaagtctgcc aaaggcagtg caaagaagga aggctccaaa 4321 cggaaaatca acatgagtgg ctacatcctg ttcagcagtg agatgagggc tgtgattaag 4381 gcccaacacc cagactactc tttcggggag ctcagccgcc tggtggggac agaatggaga 4441 aatcttgaga cagccaagaa agcagaatat gaaggtgtga tgaaccaagg agtggcccct 4501 atggtaggga ctccagcacc aggtggaagt ccatatggac aacaggtggg agttttgggg 4561 cctccagggc agcaggcacc acctccatat cccggcccac atccagctgg accccctgtc 4621 atacagcagc caacaacacc catgtttgta gctcccccac caaagaccca gcggcttctt 4681 cactcagagg cctacctgaa atacattgaa ggactcagtg cggagtccaa cagcattagc 4741 aagtgggatc agacactggc agctcgaaga cgcgacgtcc atttgtcgaa agaacaggag 4801 agccgcctac cctctcactg gctgaaaagc aaaggggccc acaccaccat ggcagatgcc 4861 ctctggcgcc ttcgagattt gatgctccgg gacaccctca acattcgcca agcatacaac 4921 ctagaaaatg tttaatcaca tcattacgtt tcttttatat agaagcataa agagttgtgg 4981 atcagtagcc attttagtta ctgggggtgg ggggaaggaa caaaggagga taatttttat 5041 tgcattttac tgtacatcac aaggccattt ttatatacgg acacttttaa taagctattt 5101 caatttgttt gttatattaa gttgacttta tcaaatacac aaagattttt ttgcatatgt 5161 ttccttcgtt taaaaccagt ttcataattg gttgtatatg tagacttgga gttttatctt 5221 tttacttgtt gccatggaac tgaaaccatt agaggttttt gtcttggctt ggggtttttg 5281 ttttcttggt tttgggtttt tttatatata tatataaaag aacaaaatga aaaaaaacac 5341 acacacacaa gagtttacag attagtttaa attgataatg aaatgtgaag tttgtcctag 5401 tttacatctt agagagggga gtatacttgt gtttgtttca tgtgcctgaa tatcttaagc 5461 cactttctgc aaaagctgtt tcttacagat gaagtgcttt ctttgaaagg tggttattta 5521 ggttttagat gtttaataga cacagcacat ttgctctatt aactcagagg ctcactacag 5581 aaatatgtaa tcagtgctgt gcatctgtct gcagctaatg tacctcctgg acaccaggag 5641 gggaaaaagc actttttcaa ttgtgctgag ttagacatct gtgagttaga ctatggtgtc 5701 agtgattttt gcagaacacg tgcacaaccc tgaggtatgt ttaatctagg caggtacgtt 5761 taaggatatt ttgatctatt tataatgaat tcacaattta tgcctataaa tttcagatga 5821 tttaaaattt taaacctgtt acattgaaaa acattgaagt tcgtcttgaa gaaagcatta 5881 aggtatgcat ggaggtgatt tatttttaaa cataacacct aacctaacat gggtaagaga 5941 gtatggaact agatatgagc tgtataagaa gcataattgt gaacaagtag attgattgcc 6001 ttcatataca agtatgtttt agtattcctt atttccttat tatcagatgt attttttctt 6061 ttaagtttca atgttgttat aattctcaac cagaaattta atactttcta aaatattttt 6121 taaatttagc ttgtgctttt gaattacagg agaagggaat cataatttaa taaaacgctt 6181 actagaaaga ccattacaga tcccaaacac ttgggtttgg tgaccctgtc tttcttatat 6241 gaccctacaa taaacatttg aaggcagcat aggatggcag acagtaggaa cattgtttca 6301 cttggcggca tgtttttgaa acctgcttta tagtaactgg gtgattgcca ttgtggtaga 6361 gcttccactg ctgtttataa tctgagagag ttaatctcag aggatgcttt tttcctttta 6421 atctgctatg aatcagtacc cagatgttta attactgtac ttattaaatc atgagggcaa 6481 aagagtgtag aatggaaaaa agtctcttgt atctagatac tttaaatatg ggaggccctt 6541 taacttaatt gcctttagtc aaccactgga tttgaatttg catcaagtat tttaaataat 6601 attgaattta aaaaaatgta ttgcagtagt gtgtcagtac cttattgtta aagtgagtca 6661 gataaatctt caattcctgg ctatttgggc aattgaatca tcatggactg tataatgcaa 6721 tcagattatt ttgtttctag acatccttga attacaccaa agaacatgaa atttagttgt 6781 ggttaaatta tttatttatt tcatgcattc attttatttc ccttaaggtc tggatgagac 6841 ttctttgggg agcctctaaa aaaatttttc actgggggcc acgtgggtca ttagaagcca 6901 gagctctcct ccaggctcct tcccagtgcc tagaggtgct ataggaaaca tagatccagc 6961 caggggcttc cctaaagcag tgcagcaccg gcccagggca tcactagaca ggccctaatt 7021 aagttttttt taaaaagcct gtgtatttat tttagaatca tgtttttctg tatattaact 7081 tgggggatat cgttaatatt taggatataa gatttgaggt cagccatctt caaaaaagaa 7141 aaaaaaattg actcaagaaa gtacaagtaa actatacacc tttttttcat aagttttagg 7201 aactgtagta atgtggctta gaaagtataa tggcctaaat gttttcaaaa tgtaagttcc 7261 tgtggagaag aattgtttat attgcaaacg gggggactga ggggaacctg taggtttaaa 7321 acagtatgtt tgtcagccaa ctgatttaaa aggcctttaa ctgttttggt tgttgttttt 7381 tttttaagcc actctcccct tcctatgagg aagaattgag aggggcacct atttctgtaa 7441 aatccccaaa ttggtgttga tgattttgag cttgaatgtt ttcatacctg attaaaactt 7501 ggtttattct aatttctgta tcatatcatc tgaggtttac gtggtaacta gtcttataac 7561 atgtatgtat cttttttttg ttgttcatct aaagcttttt aatccaaat SEQ ID NO: 4 Human PBRM1 Variant 2 Amino Acid Sequence (NP_851385.1) 1 mgskrrrats psssysgdfd dghhsystpg psrkrrrlsn lptvdpiavc helyntirdy 61 kdeqgrllce lfirapkrrn qpdyyevvsq pidlmkiqqk lkmeeyddvn lltadfqllf 121 nnaksyykpd speykaackl wdlylrtrne fvqkgeadde dddedgqdnq gtvtegsspa 181 ylkeilegll eaivvatnps grliselfqk lpskvqypdy yaiikepidl ktiagrigng 241 syksihamak didllaknak tynepgsqvf kdansikkif ymkkaeiehh emaksslrmr 301 tpsnlaaarl tgpshskgsl geernptsky yrnkravqgg rlsaitmalq ygseseedaa 361 laaaryeege seaesitsfm dvsnpfyqly dtvrscrnnq gqliaepfyh lpskkkypdy 421 yqqikmpisl qqirtklknq eyetldhlec dlnlmfenak rynvpnsaiy krvlklqqvm 481 qakkkelarr ddiedgdsmi ssatsdtgsa krkskknirk qrmkilfnvv learepgsgr 541 rlcdlfmvkp skkdypdyyk iilepmdlki iehnirndky ageegmiedm klmfrnarhy 601 neegsqvynd ahilekllke krkelgplpd dddmaspklk lsrksgispk kskymtpmqq 661 klnevyeavk nytdkrgrrl saiflrlpsr selpdyylti kkpmdmekir shmmankyqd 721 idsmvedfvm mfnnactyne pesliykdal vlhkvlletr rdlegdedsh vpnvtlliqe 781 lihnlfvsvm shqddegrcy sdslaeipav dpnfpnkppl tfdiirknve nnryrrldlf 841 qehmfevler arrmnrtdse iyedavelqq ffikirdelc kngeillspa lsyttkhlhn 901 dvekerkekl pkeieedklk reeekreaek sedssgaagl sglhrtysqd csfknsmyhv 961 gdyvyvepae anlqphivci erlwedsage kwlygcwfyr pnetfhlatr kflekevfks 1021 dyynkvpvsk ilgkcvvmfv keyfklcpen frdedvfvce srysaktksf kkiklwtmpi 1081 ssvrfvprdv plpvvrvasv fanadkgdde kntdnsedsr aednfnleke kedvpvemsn 1141 gepgchyfeq lhyndmwlkv gdcvfikshg lvrprvgrie kvwvrdgaay fygpifihpe 1201 eteheptkmf ykkevflsnl eetcpmtcil gkcavlsfkd flscrpteip endillcesr 1261 ynesdkqmkk fkglkrfsls akvvddeiyy frkpivpqke pspllekkiq lleakfaele 1321 ggdddieemg eedseviepp slpqlqtpla seldlmpytp pgstpksakg sakkegskrk 1381 inmsgyilfs semravikaq hpdysfgels rlvgtewrnl etakkaeyeg vmnqgvapmv 1441 gtpapggspy gqqvgvlgpp gqqapppypg phpagppviq qpttpmfvap ppktgrllhs 1501 eaylkyiegl saesnsiskw dqtlaarrrd vhlskeqesr lpshwlkskg ahttmadalw 1561 rlrd1m1rdt lnirqaynle nv SEQ ID NO: 5 Mouse PBRM1 cDNA Sequence (NM_001081251.1) 1 ggatttacgg cagcactggg aggggtgagg gcggtgaggg cggcgggtgc cggagagacg 61 gccgcggcca gaggagcgct agcagccgtg gcggccacgg ggcggggctc ggcggtcggg 121 gaccgcagcc ggggctgcag gcggcggagc ggcgggcttg ccaacacttg gtgtcacatg 181 tgagcctccc acatgtgtgc actctccatt ccagctctgt gattgaactc tgctcttatt 241 gactaggggg cacttgggca ggcatgcttc attcctggag ttgacagtca tttcataaga 301 agttggattc catgggttcc aagagaagaa gagccacctc tccttccagc agtgtcagtg 361 gagactttga tgacgggcac cattctgtgc ctacaccagg cccaagcagg aaaaggagaa 421 gactgtccaa tcttccaact gtagatccta ttgctgtgtg ccatgaactc tataacacca 481 tccgagacta taaggatgaa cagggcagac tcctctgtga gctgttcatt agggctccaa 541 agcggagaaa tcaaccagac tattatgaag tggtttctca gcccattgac ttgatgaaaa 601 tccaacagaa acttaaaatg gaagagtatg atgatgttaa tctactgact gctgacttcc 661 agctgctttt taacaatgca aaggcctact ataagccaga ttcccctgag tataaagctg 721 cttgtaaact ctgggatttg taccttcgaa caagaaatga gtttgttcag aaaggagaag 781 cagacgatga agatgatgac gaagatgggc aagacaatca aggcacactg gctgacggct 841 cttctccagg ttatctgaag gagatcctgg agcagcttct tgaagccata gttgtagcca 901 caaatccatc aggacggctc atcagtgaac tttttcagaa actgccttcc aaagtgcaat 961 atccagacta ttatgcaata attaaggaac ctatagatct caagaccatt gctcagagga 1021 tacagaatgg aagctacaaa agtatacacg caatggccaa agatatagat cttctagcaa 1081 aaaatgccaa aacatacaat gagcctgggt ctcaagtatt caaggatgcc aattcgatta 1141 aaaaaatatt ttatatgaaa aaggcagaaa ttgaacatca tgaaatgact aaatcaagtc 1201 ttcgaataag gactgcatca aatttggctg cagccaggct gacaggtcct tcgcacaata 1261 aaagcagcct tggtgaagaa agaaacccca ctagcaagta ttaccgtaat aaaagagcag 1321 tccaaggggg tcgcttgtca gcaattacca tggcacttca gtatggatca gagagtgaag 1381 aggacgctgc tttagctgct gcacgctatg aagaagggga atctgaagca gagagcatca 1441 cttccttcat ggacgtttcc aacccctttc atcagcttta cgacacagtt aggagctgta 1501 ggaatcacca agggcagctc atagctgaac ctttcttcca tttgccttca aagaaaaaat 1561 acccagatta ttatcagcaa attaaaatgc ccatatcact tcaacagatc agaacaaagc 1621 taaagaacca agaatatgaa actttagatc atttggagtg tgatctgaat ttaatgtttg 1681 aaaatgccaa acgttataac gttcccaatt cagccatcta taagcgagtt ctaaaactgc 1741 agcaagtcat gcaggcaaag aagaaggagc ttgcgaggag agatgacatt gaggacggag 1801 acagcatgat ctcctcagcc acttctgaca ctggtagtgc caaaaggaaa aggaatactc 1861 atgacagtga gatgttgggt ctcaggaggc tatccagtaa aaagaacata agaaaacagc 1921 gaatgaaaat tttattcaat gttgttcttg aagctcgaga gccaggttca ggcagaagac 1981 tttgcgatct atttatggtt aagccatcca agaaggacta tcctgattat tataaaatca 2041 tcttagagcc aatggacctg aaaataattg agcataacat ccgaaatgac aaatatgcag 2101 gtgaagaagg aatgatggaa gacatgaaac tcatgttccg caatgccagg cactacaatg 2161 aggagggctc ccaggtatac aatgatgccc atatcctgga gaagttactc aaagataaaa 2221 ggaaagagct gggccctctg cctgatgatg atgacatggc ttctcccaaa cttaaattga 2281 gtaggaagag tggtgtttct cctaagaaat caaagtacat gactccaatg cagcagaaac 2341 tgaatgaagt gtatgaagct gtaaagaact atactgataa gaggggtcgc cgccttagtg 2401 ctatatttct aagactcccc tctagatcag agctgcctga ctactacctg accattaaaa 2461 agcccatgga catggaaaaa attcgaagtc acatgatggc aaacaagtac caagacatag 2521 attctatggt agaggacttt gtcatgatgt ttaataatgc ctgtacctac aatgaaccag 2581 agtctttgat ctacaaagat gcccttgtac tgcataaagt cctccttgag actcggagag 2641 acctggaggg agatgaggat tctcatgtcc ctaatgtgac gttgctgatt caagagctca 2701 tccataacct ttttgtgtca gtcatgagtc atcaggatga cgaagggagg tgttacagcg 2761 actccttagc agaaattcct gctgtggatc ccaactctcc caataaacct ccccttacat 2821 ttgacattat caggaaaaat gttgaaagta atcggtatcg gcgacttgat ttatttcagg 2881 agcatatgtt tgaagtattg gaacgggcaa gaaggatgaa ccggacagat tccgaaatat 2941 atgaggatgc tgtagaactt cagcagtttt ttattagaat tcgtgatgaa ctctgcaaaa 3001 atggagagat ccttctttct ccagcactca gctataccac aaaacacttg cataacgatg 3061 tggaaaaaga aaaaaaggaa aaattgccta aagaaataga ggaagataaa ctaaaacgcg 3121 aagaagaaaa aagagaagct gaaaaaagtg aagattcctc aggtactaca ggcctctcag 3181 gcttacatcg tacatacagc caggactgca gctttaagaa cagcatgtat catgtcggag 3241 attatgtcta tgttgaacct gcggaggcca atctacaacc acatatagtg tgtattgaga 3301 gactgtggga ggattcagct ggtgaaaaat ggttgtacgg ctgttggttt tatcggccaa 3361 atgaaacatt ccatttggct acacgaaaat ttctagaaaa agaagttttt aagagtgact 3421 actacaataa agtacctgtt agtaaaattc taggcaaatg tgtagtcatg tttgtcaagg 3481 aatactttaa attatgtcca gaaaactttc gcgatgagga tgtttttgtc tgtgaatcga 3541 ggtattctgc caaaaccaaa tcttttaaga aaattaaact gtggaccatg cccatcagtt 3601 cagttagatt tgtccctcgg gatgtgcctt tgcctgtggt ccgagtggcc tctgtgtttg 3661 caaatgcaga taaaggggat gatgagaaga atacagacaa ctcagatgac aatagagctg 3721 aagacaattt taacttggaa aaggaaaaag aagatgttcc tgtggagatg tccaatggtg 3781 agccaggttg ccactacttt gagcagcttc ggtacaatga catgtggctg aaggttggtg 3841 attgtgtctt catcaaatcc cacggcttgg tgcgccctcg tgtgggcaga attgagaaag 3901 tatgggtccg agatggagct gcatattttt atggccctat cttcattcat ccagaagaaa 3961 cagaacatga gcccacaaaa atgttctaca aaaaagaagt gtttctgagt aatctggaag 4021 agacctgccc tatgagttgt attctgggga aatgtgcagt gctgtcattc aaggacttcc 4081 tctcctgcag gccaactgaa ataccagaaa atgacattct gctttgtgag agccgctata 4141 atgagagtga caagcagatg aagaagttca agggtttgaa gaggttttca ctctctgcta 4201 aagttgtaga tgatgaaatc tactacttca gaaaaccaat cattcctcag aaggaaccct 4261 cacctttgtt agaaaagaag atacaattgc tagaagctaa atttgcagag ttagaaggag 4321 gagatgatga tattgaggag atgggagaag aggatagtga agtcattgaa gctccatctc 4381 tacctcaact gcagacaccc ctggccaatg agttggacct catgccctat acacccccac 4441 agtctacccc aaagtctgcc aaaggcagtg caaagaagga aagttctaaa cgaaaaatca 4501 acatgagtgg ctacattttg ttcagcagtg aaatgagagc tgtgattaaa gcccagcacc 4561 cagactactc ttttggggag ctcagcagac tggtggggac agaatggaga aaccttgaaa 4621 cagccaagaa agcagaatat gaagagcggg cagctaaagt tgctgagcag caggagagag 4681 agcgagcagc acagcaacag cagccgagtg cttctccccg agcaggcacc cctgtggggg 4741 ctctcatggg ggtggtgcca ccaccaacac caatggggat gctcaatcag cagttgacac 4801 ctgttgcagg catgatgggt ggctatccgc caggccttcc acctttgcag ggcccagttg 4861 atggccttgt tagcatgggc agcatgcagc cacttcaccc tggggggcct ccacctcacc 4921 atcttccgcc aggtgtgcct ggcctcccag gcatcccacc accgggtgtg atgaatcaag 4981 gagtagcccc catggtaggg actccagcac caggtggaag tccgtatgga caacaggtag 5041 gagttttggg acctccaggg cagcaggcac cacctccata tcctggtcct catccagctg 5101 gcccccctgt catacagcag ccaacaacgc ccatgtttgt ggctccccca ccaaagaccc 5161 aaaggcttct ccactcagag gcctacctga aatacattga aggactcagt gctgaatcca 5221 acagcattag caagtgggac caaactttgg cagctcgaag acgggatgtc catttgtcca 5281 aagaacagga gagccgccta ccttctcact ggctcaaaag taaaggggca cacaccacca 5341 tggcagatgc cctctggcgc ctacgggatt taatgcttcg agacactctc aacatccgac 5401 aggcatacaa cctagaaaat gtttaatcac atcactgttt cttctgtgga agcaaagagt 5461 tgtggagcgg tagccatttt agttactggg gtgggaggga ggaacaaagg atgataattt 5521 ttattgcatt ttattgtaca tcacacagcc atttttatat aaggacactt ttaataagct 5581 atttcaaatt tggttttgtt acattaagtt gactatcaaa tacacaaaag attttttttg 5641 catatgtttc ctttgtttaa aaccagtttc ataattggtt atatatagta atagttttat 5701 ctttacttgt taaaggactt aaatcatcaa aggttttggc ttggcttagg gttttcgttt 5761 tcttttttat aaatatatat tatatatata tacacatata aaagaaaaaa tgaaaaaaaa 5821 gtttacaaat ttaagttgac aatgaaatgt gaagttggtc ctagtttaca tcttagagga 5881 atgtatatgt atgttttaca tgcctaaata tctgcaggtt ttcttacagg taaagcgaag 5941 tgctttgaaa agtttagatt atacatgtgt gacagatgcg gcatatttgc tctattaaca 6001 cagaggctta ctatagaaat ctaaagtcaa tgctgtacat ccatccagtt agtgtaactg 6061 aagggaaatg taactttgtg ctgagttaga catctgtatt gtcagtgatt cttgtagaat 6121 atgtgctcag atctgagtta tatttagttt tggaaggtaa gttgaagagt acttttgatc 6181 agtttatgat tcagtttatg attttagttt ttgccttcat gttatacatt tatgatttga 6241 aactgtacat ctgttacctt gaaaaacatt gaagaaagta ctgaagtgtg catggaggtg 6301 gtttaagcat aatacttaac ccaagaaaga gtgtaagtgg acacaagctg tgcctgcaca 6361 tagctgtgca gggtagactg cctacataca catggccggg attctttatt tccttgttat 6421 caattatagt gctttgtttg tttcagggtt ggaattctca accagaaata atactttcta 6481 aaatatttta aaattcagct tgtgctttgg attatagaag gaaattatac tttaagaaaa 6541 tgttcacaaa aaaaaaaaaa aaaaaaggac tattacagat cccaatactt ggatttggtg 6601 accttgtctt tctttctttt cttgagacat ggtcctacta ccaaccctgg ctggactgga 6661 gctcagtgta tagaccaggc tagtctcaaa ctctgcctct tcctcccaag tgctgggatt 6721 aagggcaggt accatagtgc tcagcaacca caaccctgtc tttccaacac ggccctagcg 6781 taagcactga ggcagtgtgc agtgctcagg cagcagcaaa catttcccgg gggtggtttt 6841 gaacctgctt gggtggttgt gtggtgctga cgctgccact gccctgttgt tcattgagaa 6901 tgattgttaa atgacactct tcctttagaa tataacggat cagtactcat gtttaattgc 6961 catgcttaat aaatcatgag aacaaaagag tatagaatgg aaagcattcc ctggtagcta 7021 ctttaaatac aggagccctg taacttaata ccagtagtca accactggat ctcagttttc 7081 atcaagtatt ttaaataaat aatcttaaat tttaaaatac gtactgcaga gtatgccagt 7141 atcttattgt taaaactgaa tcaaataaat cttcgattcc tggttatttg gaccattgac 7201 tcatcatgga ctatataatg taataagatt cttttctctt aaggtatcct tgaattacac 7261 caaagaacca gaaacttaat tttggttaaa ttatttattt atttcatgca ttaattttct 7321 ttttcttttt aaaggtttag atgaggctcc ttagggagtc tctaaaaccg cttcactatc 7381 agcaaccagg agtactagaa gccagagcac tcttcctcct ggctcctccc cagtgctcta 7441 gtgctgtagg aaccaagagc cagccccagg ttccccgagg cagtaaaaat ccagcacagg 7501 gggctgtgtc cctaaggcaa gccctgatta cctttaaaaa aaaccaaaaa aacaaacaaa 7561 aaaaaaaaac ctaattaact aaagcattta aggcactatt tattttagaa tcatgctttt 7621 gaagagcatc agtgattact tagggtgtaa tatgtaaaga tcagacatct ccaaaaacag 7681 aaaaagtaca agtaaacaac acactttctc atgactttta agaactgtag taatgtggct 7741 taggaaatat aatggcctaa ttgttttcaa aatgtaagtt cctgtgaaga attttgttta 7801 tattgggttg gggacctata ggtttaaaat agaatgtcag tcagctgact taaaaaacat 7861 tggttttact aagtctgcct tccccttcta aggaagaact gagtgggtaa gggacaggtg 7921 tgtaaaatct ccaaatggat gttacagctt tcagcttgaa cgtttgtttc cagacctgat 7981 taaaatttgg tttattctaa tttctgtact atatcatctg aggttttaag tggtaactgg 8041 ttctatacca tgtatgtatc atatgtttgt tcatcaaagc tttttaatcc aaataaaaac 8101 aacagtttgc aaagtga SEQ ID NO: 6 Mouse PBRM1 Amino Acid Sequence (NP_001074720.1) 1 mgskrrrats psssysgdfd dghhsvptpg psrkrrrlsn lptvdpiavc helyntirdy 61 kdeqgrllce lfirapkrrn qpdyyevvsq pidlmkiqqk lkmeeyddvn lltadfqllf 121 nnakayykpd speykaackl wdlylrtrne fvqkgeadde dddedgqdnq gtladgsspg 181 ylkeileqll eaivvatnps grliselfqk lpskvqypdy yaiikepidl ktiaqriqng 241 syksihamak didllaknak tynepgsqvf kdansikkif ymkkaeiehh emtksslrir 301 tasnlaaarl tgpshnkssl geernptsky yrnkravqgg rlsaitmalq ygseseedaa 361 laaaryeege seaesitsfm dvsnpfhqly dtvrscrnhq gqliaepffh lpskkkypdy 421 yggikmpisl qqirtklknq eyetldhlec dlnlmfenak rynvpnsaiy krvlklqqvm 481 qakkkelarr ddiedgdsmi ssatsdtgsa krkrnthdse mlglrrlssk knirkqrmki 541 lfnvvleare pgsgrrlcdl fmvkpskkdy pdyykiilep mdlkiiehni rndkyageeg 601 mmedmklmfr narhyneegs qvyndahile kllkdkrkel gplpddddma spklklsrks 661 gvspkkskym tpmqqklnev yeavknytdk rgrrlsaifl rlpsrselpd yyltikkpmd 721 mekirshmma nkyqdidsmv edfvmmfnna ctynepesli ykdalvlhkv lletrrdleg 781 dedshvpnvt lliqelihnl fvsvmshqdd egrcysdsla eipavdpnsp nkppltfdii 841 rknvesnryr rldlfgehmf evlerarrmn rtdseiyeda velqqffiri rdelckngei 901 llspalsytt khlhndveke kkeklpkeie edklkreeek reaeksedss gttglsglhr 961 tysqdcsfkn smyhvgdyvy vepaeanlqp hivcierlwe dsagekwlyg cwfyrpnetf 1021 hlatrkflek evfksdyynk vpvskilgkc vvmfvkeyfk lcpenfrded vfvcesrysa 1081 ktksfkkikl wtmpissvrf vprdvplpvv rvasvfanad kgddekntdn sddnraednf 1141 nlekekedvp vemsngepgc hyfeqlrynd mwlkvgdovf ikshglvrpr vgriekvwvr 1201 dgaayfygpi fihpeetehe ptkmfykkev flsnleetcp mscilgkcav lsfkdflscr 1261 pteipendil lcesrynesd kqmkkfkglk rfslsakvvd deiyyfrkpi ipqkepspll 1321 ekkiqlleak faeleggddd ieemgeedse vieapslpql qtplaneldl mpytppgstp 1381 ksakgsakke sskrkinmsg yilfssemra vikaqhpdys fgelsrlvgt ewrnletakk 1441 aeyeeraakv aeqqereraa qqqqpsaspr agtpvgalmg vvppptpmgm lnqqltpvag 1501 mmggyppglp plqgpvdglv smgsmqplhp ggppphhlpp gvpglpgipp pgvmnqgvap 1561 mvgtpapggs pygqqvgvlg ppgqqapppy pgphpagppv iqqpttpmfv apppktqrll 1621 hseaylkyie glsaesnsis kwdqtlaarr rdvhlskeqe srlpshwlks kgahttmada 1681 lwrlrdlmlr dtlnirqayn lenv SEQ ID NO: 7 Human ARID2 cDNA Sequence Vairant 1 (NM_152641.3, CDS: from 129 to 5636) 1 ggcccatgac tgagccccgc cgccgccggc cgaggaatgg gctccgggct ctggtaggaa 61 gcgctgggag cggggggcgc ttttaaaaca ccgatctggg ttttttaaaa acctcctttg 121 aaaaaataat ggcaaactcg acggggaagg cgcctccgga cgagcggaga aagggactcg 181 ctttcctgga cgagctgcgg cagttccacc acagcagagg gtcgcctttt aaaaaaatcc 241 ctgcggtggg tgggaaggag ctggatcttc acggtctcta caccagagtc actactttag 301 gcggattcgc gaaggtttct gagaagaatc agtggggaga aattgttgaa gagttcaact 361 ttcccagaag ttgttctaac gctgcctttg ctttaaaaca gtattacttg cgttacctag 421 aaaagtacga gaaagttcat cattttgggg aggatgatga tgaggtacca ccaggcaatc 481 caaagccaca gcttcctatt ggtgcaattc catcttccta caattaccag caacacagtg 541 tgtcggatta tctgcgtcaa agttatgggc tgtccatgga ctttaattcg ccaaatgatt 601 ataataaatt ggtgctttca ctgttatctg gactcccaaa tgaagtggac tttgctatta 661 acgtatgcac tctcctatca aatgaaagca agcacgtcat gcaacttgaa aaagatccta 721 aaatcatcac tttactactt gctaatgccg gggtgtttga cgacacttta ggatcctttt 781 ccactgtatt tggagaagaa tggaaagaga agactgatag agacttcgtt aagttttgga 841 aagacatcgt tgatgataat gaagttcgtg acctcatttc tgacagaaac aagtctcatg 901 aaggtacatc aggagaatgg atttgggagt ctttatttca tccacctcga aagctgggca 961 ttaacgatat tgaaggacag cgggtacttc agattgcagt gattttgaga aatctttcct 1021 ttgaggaggg caatgttaag ctcttggcag ctaatcgtac ctgtcttcgt ttcctattac 1081 tttctgcaca tagtcatttt atttctttaa ggcaattagg ccttgacaca ttaggaaata 1141 ttgcagctga gcttttactg gaccctgttg atttcaaaac tactcatctg atgtttcata 1201 ctgttacaaa atgtctaatg tcaagggata gatttttaaa gatgagaggc atggaaattt 1261 tgggaaatct ttgcaaagca gaagataatg gtgttttaat ttgtgaatat gtggatcagg 1321 attcctacag agagatcatt tgtcatctca ctttacctga tgtgctgctt gtaatctcaa 1381 cactcgaggt gctatacatg ctcacggaaa tgggagatgt tgcttgcaca aaaattgcaa 1441 aagtagaaaa gagcatagac atgttagtgt gtctggtttc tatggatatt cagatgtttg 1501 gccctgatgc actagctgcg gtaaaactca ttgaacaccc aagttccagt catcaaatgt 1561 tatctgaaat taggccacaa gctatagagc aagtccaaac ccagactcat gtagcatctg 1621 ccccagcttc cagagcagtt gtagcgcagc atgttgctcc acctccagga atagtggaaa 1681 tagatagtga gaagtttgct tgtcagtggc taaatgctca ttttgaagta aatccagatt 1741 gttctgtttc tcgagcagaa atgtattctg aatacctctc gacttgcagt aaattagctc 1801 gtggtggaat cctaacatca actggatttt ataaatgtct tagaacggtc tttccaaatc 1861 atacagtgaa gagagtggag gattccagta gcaatgggca ggcacatatt catgtggtag 1921 gagtaaaacg gagggctata ccacttccca ttcagatgta ctatcagcag caaccagttt 1981 ctacttctgt tgttcgtgtt gattctgttc ctgatgtatc tcctgctcct tcacctgcag 2041 gaatccctca tggatcacaa accataggaa accattttca gaggactcct gttgccaacc 2101 aatcttcaaa tctgactgca acacaaatgt cttttcctgt acaaggtgtt catactgtgg 2161 cacaaactgt ttcaagaatt ccacaaaatc cttcacctca tacccaccag caacaaaatg 2221 ctccagtgac tgtcattcaa agtaaagctc caattccttg tgaagttgtt aaggctacag 2281 ttatccagaa ttccataccc cagacaggag ttcctgttag tattgctgtt ggaggaggac 2341 ctccacagag ttctgttgtt cagaatcata gtacagggcc acaacctgtt acagttgtga 2401 attctcagac attgcttcac catccatctg taattccaca gcagtctcca ttacacacag 2461 tggtaccagg acagatccct tcaggcactc ctgttacagt aattcaacaa gctgtcccac 2521 agagtcatat gtttggcaga gtacagaaca taccagcatg tacttctaca gtttcacagg 2581 gtcaacagtt aatcaccaca tcaccccaac ctgtgcaaac ttcatctcaa cagacatcag 2641 ctggtagcca gtcacaagat actgttatca tagcaccccc acagtatgta acaacttctg 2701 catccaatat tgtctcagca acttcagtac agaattttca ggtagctaca ggacaaatgg 2761 ttactattgc tggtgtccca agtccacaag cctcaagggt agggtttcag aacattgcac 2821 caaaacctct cccttctcag caagtttcat ctacagtggt acagcagcct attcaacaac 2881 cacagcagcc aacccaacaa agcgtagtga ttgtaagcca gccagctcaa caaggtcaaa 2941 cttatgcacc agccattcac caaattgttc ttgctaatcc agcagctctt ccagctggtc 3001 agacagttca gctaactgga caacctaaca taactccatc ttcttcacca tcacctgtcc 3061 cagctactaa taaccaagtc cctactgcca tgtcgtcgtc ctctacccct caatcacagg 3121 gaccacctcc tactgtcagt caaatgttat ctgtgaaaag gcagcaacag cagcaacatt 3181 caccagcacc cccaccacag caggtacaag tacaagttca gcagccccaa caagtacaga 3241 tgcaagttca acctcaacag tcgaatgcag gagttggtca gcctgcctct ggtgagtcga 3301 gtctgattaa acagcttctg cttccgaaac gtggtccttc aacaccaggt ggtaagctta 3361 ttctcccagc tccacagatt cctcccccta ataatgcaag agctcctagc cctcaggtgg 3421 tctatcaggt ggccagtaac caagccgcag gttttggagt gcaggggcaa actccagctc 3481 agcagctatt ggttgggcag caaaatgttc agttggtccc aagtgcaatg ccaccctcag 3541 ggggagtaca aactgtgccc atttcgaact tacaaatatt gccaggtcca ctgatctcaa 3601 atagcccagc aaccattttc caagggactt ctggcaacca ggtaaccata acagttgtgc 3661 caaatacgag ttttgcacct gcaactgtga gtcagggaaa tgcaactcag ctcattgctc 3721 cagcaggaat taccatgagc ggaacgcaga caggagttgg acttccagta caaacgcttc 3781 cagccactca agcatctcct gctggacaat catcatgtac tactgctact cccccattca 3841 aaggtgataa aataatttgc caaaaggagg aggaagcaaa ggaagcaaca ggtttacatg 3901 ttcatgaacg taaaattgaa gtcatggaga acccgtcctg ccgacgagga gccacaaaca 3961 ccagcaatgg ggatacaaag gaaaatgaaa tgcatgtggg aagtctttta aatgggagaa 4021 agtacagtga ctcaagtcta cctccttcaa actcagggaa aattcaaagt gagactaatc 4081 agtgctcact aatcagtaat gggccatcat tggaattagg tgagaatgga gcatctggga 4141 aacagaactc agaacaaata gacatgcaag atatcaaaag tgatttgaga aaaccgctag 4201 ttaatggaat ctgtgatttt gataaaggag atggttctca tttaagcaaa aacattccaa 4261 atcataaaac ttccaatcat gtaggaaatg gtgagatatc tccaatggaa ccacaaggga 4321 ctttagatat cactcagcaa gatactgcca aaggtgatca actagaaaga atttctaatg 4381 gacctgtatt aactttgggt ggttcatctg tgagcagtat acaggaggct tcaaatgcgg 4441 caacacagca atttagtggt actgatttgc ttaatggacc tctagcttca agtttgaatt 4501 cagatgtgcc tcagcaacgc ccaagtgtag ttgtctcacc acattctaca acctctgtta 4561 tacagggaca tcaaatcata gcagttcccg actcaggatc aaaagtatcc cattctcctg 4621 ccctatcatc tgacgttcgg tctacaaatg gcacagcaga atgcaaaact gtaaagaggc 4681 cagcagagga tactgatagg gaaacagtcg caggaattcc aaataaagta ggagttagaa 4741 ttgttacaat cagtgacccc aacaatgctg gctgcagcgc aacaatggtt gctgtgccag 4801 caggagcaga tccaagcact gtagctaaag tagcaataga aagtgctgtt cagcaaaagc 4861 aacagcatcc accaacatat gtacagaatg tggtcccgca gaacactcct atgccacctt 4921 caccagctgt acaagtgcag ggccagccta acagttctca gccttctcca ttcagtggat 4981 ccagtcagcc tggagatcca atgagaaaac ctggacagaa cttcatgtgt ctgtggcagt 5041 cttgtaaaaa gtggtttcag acaccctcac aggttttcta ccatgcagca actgaacatg 5101 gaggaaaaga tgtatatcca gggcagtgtc tttgggaagg ttgtgagcct tttcagcgac 5161 agcggttttc ttttattacc cacttgcagg ataagcactg ttcaaaggat gccctacttg 5221 caggattaaa acaagatgaa ccaggacaag caggaagtca gaagtcttct accaagcagc 5281 caactgtagg gggcacaagc tcaactccta gagcacaaaa ggccattgtg aatcatccca 5341 gtgctgcact tatggctctg aggagaggat caagaaacct tgtctttcga gattttacag 5401 atgaaaaaga gggaccaata actaaacaca tccgactaac agctgcctta atattaaaaa 5461 atattggtaa atattcagaa tgtggtcgca gattgttaaa gagacatgaa aataacttat 5521 cagtgctagc cattagtaac atggaagctt cctccaccct tgccaaatgc ctttatgaac 5581 ttaattttac agttcagagt aaggaacaag aaaaagactc agaaatgctg cagtgaaaaa 5641 taattccact tacacagtgg gggactcaaa gtcagccaca tttcacatac tgttactgaa 5701 gaaagcacca agtcttaatg gaacaaagac catagaatga attattttat ctcctcccat 5761 gatgctgaga ggaagcttcg tattctgatc tctgagtgaa tccctttgtt ctctgtttaa 5821 aaaaatctaa aaagaaaaag gaaaaaaaaa aaagaactgc tgtgggattg tcaaccagct 5881 tatctgcagg atgtttcaga tctgataaat cctgatggaa actggtatga tcagaattca 5941 gtaccatcca cattggaata tacatggaat attgtaaaac ctacatgagc agatgaaata 6001 gaagcattaa atatttttat ctatatccaa aaaggagcac atttttatat ttacaaaacc 6061 gtttaagctg gtttgaataa tttaaaaaag tttcagcaca cctatacccc cgatctcaga 6121 gggggccacc aatatctagc tatggatcgt gtgttttgtt tagaaatcag tagcttggtt 6181 ttcttacttg agccaatata ttttcactta tttattatca taaaaattta ccagtctgaa 6241 tagatcttgt aaatatttgt gaatagaatg aatacctttc atgccactgc agccactgga 6301 aatacattct gtggtgtcct agaagcatta ttggtaggtt ctaaagtttt ctagactttc 6361 ctgtcaattg taagtaattg tgatatattc tatgcagtgg atgaatgttc tttaaatttg 6421 tgtaaatact tctgcaaagg tactgatgct gtaaagtcaa aacagttttg tggaactgtg 6481 attttttttt cttttttctt tttttttttc tttttttttt tgtattatac accttgtaga 6541 actcattttg ctggctgaaa gagtatggaa taatatatct catgtcattt tttagaagaa 6601 aaactatttg aaggtatttt ttggttttcc ttaacatgta tccactgtaa acgtttgtcg 6661 tgtacaagct cagagcttgg acagaatttt ttgtatttgt aaattggttt aaatacatgg 6721 aattttatac aggttttctc ctgtgttata tatgcattat gtgcaggtat gatattttct 6781 tcactacttt ttctatctta atatagtgtg gaattttatt gtattattct tccattctta 6841 atactgtacc acattcctgc tcagaaactg ctcacttcct taaattgtct tttttccccc 6901 agcgtgaaat gtatccattt ataactgcct attgcctgtt ctattagcat ccaaaaatgt 6961 ggaaggcctc ccaaccacca tttctgctgt gtccttagga tgtgcagtaa aaaatataga 7021 cctaacagtt tatgttatag aatggcttta tttactttgg tgactgttta tagtttttaa 7081 ataaaagact gaacattttc ttgagtcctt catttctgag tatgcttaag acatcttaaa 7141 aatatagaga gaattctaaa ttcagctgaa ggcaaggtat aacggtcacc tacctatttg 7201 attatatgtt gattgataac atattaaata gagaacaaat aagagaggtc ctttacatga 7261 caaatttgca tgaaataagc agattaacca agtatttatt tttcatcttg ttataatgca 7321 gagcaaatgt agagaacagc aaatgattga tgcagttaaa gctcaatatg ccttttttta 7381 ctggatactg tacatttggc taaaagcttt tattgtttga tgttgtgttt cttgactgtt 7441 tattcagaat cacagtgtat ccaaatcttc agcttgaatt tggaggcaga ttcttagagt 7501 gaaaaagcct cagtttccat attaaaaatg ttttaaatat tttgattgaa ttagtaccaa 7561 tgtaaaatct agtttcttcc tgaaggagga tccctggcgc tgtcctgcca tgtctcaaag 7621 gaatgtttga gaaacttcat ctaatattag ttataaggtt gtggaattta tgcttggccc 7681 accttccaag actggcactg cccaacagac accgctgaaa tcatgtgggt atccctagga 7741 tggccttcag agccctcaaa cttacaagca cctggtagtt gacatcatat ggggaatttt 7801 ctattcaccg tacttatcca aaaatctctt ttaaaaagta aatttgtgca acaacgttta 7861 tttgaaagat aatgtcttct caaaatcaga aactgcagtg gtaattaaat taatagaaaa 7921 gagaacaaac tgcaggttta gaaaaatggt tttcatattc accattcttc cacctcattg 7981 aattgcatgc tgtagttcta gcttttctgc tataatatgt aaatatgact gtagcctttt 8041 aagcttcagt ctcagcagag aatttcctaa atgcgtttga cctaatgaaa ctgatcatgg 8101 cttcccactt aggtttttct tcttatagct ttatagaact atataataat atggacttgc 8161 tgtgtaatgg aattaaagtg cttttgcaca ataagttctg caaaaccctc tcattcatga 8221 aaaggtgctc cttgctagac agaaacttgc tgatttacag tattgttatt tttgtctaaa 8281 gttctgtaaa tacatgcttt aatgttatct ttgagaaatc tatgtaaata atatagtcta 8341 caacatagag actgtataat tctgtgttat atatgtgcct agtgctctgt tggcactcaa 8401 taaattttaa gtaacaaaat tgataatcat atagcgaagg catatttttc ttccaagctc 8461 aagtcaggat tgtgactata tattaatgag actcagtaat ccaacccaca cctgagaact 8521 cgtctcatta ctttatagtc atgtcatgta tgttttttta accatgaaat gacaataaaa 8581 tgatttttaa aatgagaaaa aaaaaaaaaa aaaaaaaaa SEQ ID NO: 8 Human ARID2 Amino Acid Sequence Isoform A (NP_689854.2) 1 manstgkapp derrkglafl delrqfhhsr gspfkkipav ggkeldlhgl ytrvttlggf 61 akvseknqwg eiveefnfpr scsnaafalk qyylryleky ekvhhfgedd devppgnpkp 121 qlpigaipss ynyqqhsysd ylrqsyglsm dfnspndynk lvlsllsglp nevdfainvc 181 tllsneskhv mqlekdpkii tlllanagvf ddtlgsfstv fgeewkektd rdfvkfwkdi 241 vddnevrdli sdrnkshegt sgewiweslf hpprklgind ieggrvlgia vilrnlsfee 301 gnvkllaanr tclrflllsa hshfislrql gldtlgniaa ellldpvdfk tthlmfhtvt 361 kclmsrdrfl kmrgmeilgn lckaedngvl iceyvdqdsy reiichltlp dvllvistle 421 vlymltemgd vactkiakve ksidmlvclv smdiqmfgpd alaavklieh pssshqmlse 481 irpgaieqvg tqthvasapa sravvaqhva pppgiveids ekfacqwlna hfevnpdcsv 541 sraemyseyl stcsklargg iltstgfykc lrtvfpnhtv krvedsssng qahihvvgvk 601 rraiplpiqm yyqqqpvsts vvrvdsvpdv spapspagip hgsgtignhf grtpvangss 661 nitatqmsfp vqgvhtvaqt vsripqnpsp hthqqqnapv tviqskapip cevvkatviq 721 nsipqtgvpv siavgggppq ssvvqnhstg pqpvtvvnsq tllhhpsvip qqsplhtvvp 781 gqipsgtpvt viqqavpqsh mfgrvqnipa ctstvsqgqq littspqpvq tssqqtsags 841 qsqdtviiap pqyvttsasn ivsatsvgnf qvatgqmvti agvpspqasr vgfqniapkp 901 lpsqqvsstv vqqpiqqpqq ptqqsvvivs qpaqqgqtya paihqivlan paalpagqtv 961 qltgqpnitp ssspspvpat nnqvptamss sstpqsqgpp ptvsqmlsvk rqqqqqhspa 1021 pppqqvqvqv qqpqqvqmqv qpqqsnagvg qpasgessli kglllpkrgp stpggklilp 1081 apqipppnna rapspqvvyq vasnqaagfg vqgqtpaqql lvgqqnvqlv psamppsggv 1141 qtvpisnlqi lpgplisnsp atifqgtsgn qvtitvvpnt sfapatvsqg natqliapag 1201 itmsgtqtgv glpvqtlpat gaspaggssc ttatppfkgd kiicqkeeea keatglhvhe 1261 rkievmenps crrgatntsn gdtkenemhv gsllngrkys dsslppsnsg kigsetnqcs 1321 lisngpslel gengasgkqn segidmgdik sdlrkplvng icdfdkgdgs hlsknipnhk 1381 tsnhvgngei spmepqgtld itqqdtakgd qlerisngpv ltlggssyss iqeasnaatq 1441 qfsgtdllng plasslnsdv pqqrpsvvvs phsttsviqg hqiiavpdsg skvshspals 1501 sdvrstngta ecktvkrpae dtdretvagi pnkvgvrivt isdpnnagcs atmvavpaga 1561 dpstvakvai esavqqkqqh pptyvqnvvp qntpmppspa vqvqgqpnss qpspfsgssq 1621 pgdpmrkpgq nfmclwqsck kwfqtpsqvf yhaatehggk dvypgqclwe gcepfqrqrf 1681 sfithlqdkh cskdallagl kgdepggags qksstkqptv ggtsstpraq kaivnhpsaa 1741 lmalrrgsrn lvfrdftdek egpitkhirl taalilknig kysecgrrll krhennlsvl 1801 aisnmeasst lakclyelnf tvgskeqekd semlq SEQ ID NO: 9 Human ARID2 cDNA Sequence Vairant 2 (NM_001347839.1, CDS: from 129 to 5495) 1 ggcccatgac tgagccccgc cgccgccggc cgaggaatgg gctccgggct ctggtaggaa 61 gcgctgggag cggggggcgc ttttaaaaca ccgatctggg ttttttaaaa acctcctttg 121 aaaaaataat ggcaaactcg acggggaagg cgcctccgga cgagcggaga aagggactcg 181 ctttcctgga cgagctgcgg cagttccacc acagcagagg gtcgcctttt aaaaaaatcc 241 ctgcggtggg tgggaaggag ctggatcttc acggtctcta caccagagtc actactttag 301 gcggattcgc gaaggtttct gagaagaatc agtggggaga aattgttgaa gagttcaact 361 ttcccagaag ttgttctaac gctgcctttg ctttaaaaca gtattacttg cgttacctag 421 aaaagtacga gaaagttcat cattttgggg aggatgatga tgaggtacca ccaggcaatc 481 caaagccaca gcttcctatt ggtgcaattc catcttccta caattaccag caacacagtg 541 tgtcggatta tctgcgtcaa agttatgggc tgtccatgga ctttaattcg ccaaatgatt 601 ataataaatt ggtgctttca ctgttatctg gactcccaaa tgaagtggac tttgctatta 661 acgtatgcac tctcctatca aatgaaagca agcacgtcat gcaacttgaa aaagatccta 721 aaatcatcac tttactactt gctaatgccg gggtgtttga cgacacttta ggatcctttt 781 ccactgtatt tggagaagaa tggaaagaga agactgatag agacttcgtt aagttttgga 841 aagacatcgt tgatgataat gaagttcgtg acctcatttc tgacagaaac aagtctcatg 901 aaggtacatc aggagaatgg atttgggagt ctttatttca tccacctcga aagctgggca 961 ttaacgatat tgaaggacag cgggtacttc agattgcagt gattttgaga aatctttcct 1021 ttgaggaggg caatgttaag ctcttggcag ctaatcgtac ctgtcttcgt ttcctattac 1081 tttctgcaca tagtcatttt atttctttaa ggcaattagg ccttgacaca ttaggaaata 1141 ttgcagctga gcttttactg gaccctgttg atttcaaaac tactcatctg atgtttcata 1201 ctgttacaaa atgtctaatg tcaagggata gatttttaaa gatgagaggc atggaaattt 1261 tgggaaatct ttgcaaagca gaagataatg gtgttttaat ttgtgaatat gtggatcagg 1321 attcctacag agagatcatt tgtcatctca ctttacctga tgtgctgctt gtaatctcaa 1381 cactcgaggt gctatacatg ctcacggaaa tgggagatgt tgcttgcaca aaaattgcaa 1441 aagtagaaaa gagcatagac atgttagtgt gtctggtttc tatggatatt cagatgtttg 1501 gccctgatgc actagctgcg gtaaaactca ttgaacaccc aagttccagt catcaaatgt 1561 tatctgaaat taggccacaa gctatagagc aagtccaaac ccagactcat gtagcatctg 1621 ccccagcttc cagagcagtt gtagcgcagc atgttgctcc acctccagga atagtggaaa 1681 tagatagtga gaagtttgct tgtcagtggc taaatgctca ttttgaagta aatccagatt 1741 gttctgtttc tcgagcagaa atgtattctg aatacctctc gacttgcagt aaattagctc 1801 gtggtggaat cctaacatca actggatttt ataaatgtct tagaacggtc tttccaaatc 1861 atacagtgaa gagagtggag gattccagta gcaatgggca ggcacatatt catgtggtag 1921 gagtaaaacg gagggctata ccacttccca ttcagatgta ctatcagcag caaccagttt 1981 ctacttctgt tgttcgtgtt gattctgttc ctgatgtatc tcctgctcct tcacctgcag 2041 gaatccctca tggatcacaa accataggaa accattttca gaggactcct gttgccaacc 2101 aatcttcaaa tctgactgca acacaaatgt cttttcctgt acaaggtgtt catactgtgg 2161 cacaaactgt ttcaagaatt ccacaaaatc cttcacctca tacccaccag caacaaaatg 2221 ctccagtgac tgtcattcaa agtaaagctc caattccttg tgaagttgtt aaggctacag 2281 ttatccagaa ttccataccc cagacaggag ttcctgttag tattgctgtt ggaggaggac 2341 ctccacagag ttctgttgtt cagaatcata gtacagggcc acaacctgtt acagttgtga 2401 attctcagac attgcttcac catccatctg taattccaca gcagtctcca ttacacacag 2461 tggtaccagg acagatccct tcaggcactc ctgttacagt aattcaacaa gctgtcccac 2521 agagtcatat gtttggcaga gtacagaaca taccagcatg tacttctaca gtttcacagg 2581 gtcaacagtt aatcaccaca tcaccccaac ctgtgcaaac ttcatctcaa cagacatcag 2641 ctggtagcca gtcacaagat actgttatca tagcaccccc acagtatgta acaacttctg 2701 catccaatat tgtctcagca acttcagtac agaattttca ggtagctaca ggacaaatgg 2761 ttactattgc tggtgtccca agtccacaag cctcaagggt agggtttcag aacattgcac 2821 caaaacctct cccttctcag caagtttcat ctacagtggt acagcagcct attcaacaac 2881 cacagcagcc aacccaacaa agcgtagtga ttgtaagcca gccagctcaa caaggtcaaa 2941 cttatgcacc agccattcac caaattgttc ttgctaatcc agcagctctt ccagctggtc 3001 agacagttca gctaactgga caacctaaca taactccatc ttcttcacca tcacctgtcc 3061 cagctactaa taaccaagtc cctactgcca tgtcgtcgtc ctctacccct caatcacagg 3121 gaccacctcc tactgtcagt caaatgttat ctgtgaaaag gcagcaacag cagcaacatt 3181 caccagcacc cccaccacag caggtacaag tacaagttca gcagccccaa caagtacaga 3241 tgcaagttca acctcaacag tcgaatgcag gagttggtca gcctgcctct ggtgagtcga 3301 gtctgattaa acagcttctg cttccgaaac gtggtccttc aacaccaggt ggtaagctta 3361 ttctcccagc tccacagatt cctcccccta ataatgcaag agctcctagc cctcaggtgg 3421 tctatcaggt ggccagtaac caagccgcag gttttggagt gcaggggcaa actccagctc 3481 agcagctatt ggttgggcag caaaatgttc agttggtccc aagtgcaatg ccaccctcag 3541 ggggagtaca aactgtgccc atttcgaact tacaaatatt gccaggtcca ctgatctcaa 3601 atagcccagc aaccattttc caagggactt ctggcaacca ggtaaccata acagttgtgc 3661 caaatacgag ttttgcacct gcaactgtga gtcagggaaa tgcaactcag ctcattgctc 3721 cagcaggaat taccatgagc ggaacgcaga caggagttgg acttccagta caaacgcttc 3781 cagccactca agcatctcct gctggacaat catcatgtac tactgctact cccccattca 3841 aaggtgataa aataatttgc caaaaggagg aggaagcaaa ggaagcaaca ggtttacatg 3901 ttcatgaacg taaaattgaa gtcatggaga acccgtcctg ccgacgagga gccacaaaca 3961 ccagcaatgg ggatacaaag gaaaatgaaa tgcatgtggg aagtctttta aatgggagaa 4021 agtacagtga ctcaagtcta cctccttcaa actcagggaa aattcaaagt gagactaatc 4081 agtgctcact aatcagtaat gggccatcat tggaattagg tgagaatgga gcatctggga 4141 aacagaactc agaacaaata gacatgcaag atatcaaaag tgatttgaga aaaccgctag 4201 ttaatggaat ctgtgatttt gataaaggag atggttctca tttaagcaaa aacattccaa 4261 atcataaaac ttccaatcat gtaggaaatg gtgagatatc tccaatggaa ccacaaggga 4321 ctttagatat cactcagcaa gatactgcca aaggtgatca actagaaaga atttctaatg 4381 gacctgtatt aactttgggt ggttcatctg tgagcagtat acaggaggct tcaaatgcgg 4441 caacacagca atttagtggt actgatttgc ttaatggacc tctagcttca agtttgaatt 4501 cagatgtgcc tcagcaacgc ccaagtgtag ttgtctcacc acattctaca acctctgtta 4561 tacagggaca tcaaatcata gcagttcccg actcaggatc aaaagtatcc cattctcctg 4621 ccctatcatc tgacgttcgg tctacaaatg gcacagcaga atgcaaaact gtaaagaggc 4681 cagcagagga tactgatagg gaaacagtcg caggaattcc aaataaagta ggagttagaa 4741 ttgttacaat cagtgacccc aacaatgctg gctgcagcgc aacaatggtt gctgtgccag 4801 caggagcaga tccaagcact gtagctaaag tagcaataga aagtgctgtt cagcaaaagc 4861 aacagcatcc accaacatat gtacagaatg tggtcccgca gaacactcct atgccacctt 4921 caccagctgt acaagtgcag ggccagccta acagttctca gccttctcca ttcagtggat 4981 ccagtcagcc tggagatcca atgagaaaac ctggacagaa cttcatgtgt ctgtggcagt 5041 cttgtaaaaa gtggtttcag acaccctcac aggttttcta ccatgcagca actgaacatg 5101 gaggaaaaga tgtatatcca gggcagtgtc tttgggaagg ttgtgagcct tttcagcgac 5161 agcggttttc ttttattacc cacttgcagg ataagcactg ttcaaaggat gccctacttg 5221 caggattaaa acaagatgaa ccaggacaag caggaagtca gaagtcttct accaagcagc 5281 caactgtagg gggcacaagc tcaactccta gagcacaaaa ggccattgtg aatcatccca 5341 gtgctgcact tatggctctg aggagaggat caagaaacct tgtctttcga gattttacag 5401 atgaaaaaga gggaccaata actaaacaca tccgactaac agctgcctta atattaaaaa 5461 atattggtaa atattcagaa tgtggtcgca ggtgagtaat atgttttctg tagccaaagt 5521 gaatttagtt tattttattt ttacatataa gttaataaaa ttagataact gtattttctt 5581 cattgttttt ctcatcaatt ttgcaaatac atccaaaagt ttatgcctag gtcaggccat 5641 gatgagctct taaaagtcaa aaataaatag aagttaaaac aaccaaaaaa aaaaaaaaaa 5701 aaa SEQ ID NO: 10 Human ARID2 Amino Acid Sequence Isoform B (NP_001334768.1) 1 manstgkapp derrkglafl delrqfhhsr gspfkkipav ggkeldlhgl ytrvttlggf 61 akvseknqwg eiveefnfpr scsnaafalk qyylryleky ekvhhfgedd devppgnpkp 121 qlpigaipss ynyqqhsysd ylrqsyglsm dfnspndynk lvlsllsglp nevdfainvc 181 tllsneskhv mqlekdpkii tlllanagvf ddtlgsfstv fgeewkektd rdfvkfwkdi 241 vddnevrdli sdrnkshegt sgewiweslf hpprklgind iegqrvlgia vilrnlsfee 301 gnvkllaanr tclrflllsa hshfislrql gldtlgniaa ellldpvdfk tthlmfhtvt 361 kclmsrdrfl kmrgmeilgn lckaedngvl iceyvdqdsy reiichltlp dvllvistle 421 vlymltemgd vactkiakve ksidmlvclv smdiqmfgpd alaavklieh pssshqmlse 481 irpgaieqvg tqthvasapa sravvaqhva pppgiveids ekfacqwlna hfevnpdcsv 541 sraemyseyl stcsklargg iltstgfykc lrtvfpnhtv krvedsssng qahihvvgvk 601 rraiplpiqm yyqqqpvsts vvrvdsvpdv spapspagip hgsgtignhf qrtpvanqss 661 nitatqmsfp vqgvhtvaqt vsripqnpsp hthqqqnapv tvigskapip cevvkatviq 721 nsipqtgvpv siavgggppq ssvvqnhstg pqpvtvvnsq tllhhpsvip qqsplhtvvp 781 gqipsgtpvt viqqavpqsh mfgrvqnipa ctstvsqgqq littspqpvg tssqqtsags 841 qsqdtviiap pqyvttsasn ivsatsvgnf qvatgqmvti agvpspqasr vgfqniapkp 901 lpsqqvsstv vqqpiqqpqq ptqqsvvivs qpaqqgqtya paihqivlan paalpagqtv 961 qltgqpnitp ssspspvpat nnqvptamss sstpqsqgpp ptvsqmlsvk rqqqqqhspa 1021 pppqqvqvqv qqpqqvqmqv qpqqsnagvg qpasgessli kglllpkrgp stpggklilp 1081 apqipppnna rapspqvvyq vasnqaagfg vqgqtpaqql lvgqqnvqlv psamppsggv 1141 qtvpisnlqi lpgplisnsp atifqgtsgn qvtitvvpnt sfapatvsqg natqliapag 1201 itmsgtqtgv glpvqtlpat gaspaggssc ttatppfkgd kiicqkeeea keatglhvhe 1261 rkievmenps crrgatntsn gdtkenemhv gsllngrkys dsslppsnsg kigsetnqcs 1321 lisngpslel gengasgkqn segidmgdik sdlrkplvng icdfdkgdgs hlsknipnhk 1381 tsnhvgngei spmepqgtld itqqdtakgd qlerisngpv ltlggssyss igeasnaatq 1441 qfsgtdllng plasslnsdv pqqrpsvvvs phsttsviqg hqiiavpdsg skvshspals 1501 sdvrstngta ecktvkrpae dtdretvagi pnkvgvrivt isdpnnagcs atmvavpaga 1561 dpstvakvai esavqqkqqh pptyvqnvvp qntpmppspa vqvqgqpnss qpspfsgssq 1621 pgdpmrkpgq nfmclwqsck kwfqtpsqvf yhaatehggk dvypgqclwe gcepfgrqrf 1681 sfithlqdkh cskdallagl kgdepggags qksstkqptv ggtsstpraq kaivnhpsaa 1741 lmalrrgsrn lvfrdftdek egpitkhirl taalilknig kysecgrr SEQ ID NO: 11 Mouse ARID2 cDNA Sequence (NM_175251.4, CDS: from 129 to 5495) 1 gcgccgccgc cgccgccgcc gccgccgccg ccgccgccac cgccggccca tgactgagcc 61 ccgccaccgc cggccgagga atgggctccg ggcgctggta gggagcgcgg ggagcggggg 121 ccgcgtttga accgcgatct gggttttttc gggagacctc ctttggcaaa ataatggcaa 181 actcgacggg gaaggcgcct ccggacgagc ggaggaaggg actggctttc ctggacgagc 241 tgcggcagtt ccaccacagc agagggtcgc cgtttaagaa gatccctgcg gtgggtggga 301 aggagctgga tcttcacggg ctctacacca gagtcactac tttaggcgga ttcgcgaagg 361 tttctgagaa gaatcagtgg ggagaaattg ttgaagagtt caactttccc agaagttgtt 421 ccaacgctgc ctttgcttta aaacagtatt acttgcgtta tctagaaaag tacgagaaag 481 ttcatcattt tggggaagat gatgatgagg taccaccagg caatccaaag ccacagcttc 541 ctattggtgc aatcccatct tcctacaatt accagcaaca cagcgtgtca gattatctac 601 gtcaaagtta tgggttatct atggatttta attcgccaaa tgattataat aaactggtgc 661 tttcactgtt atctggactc ccaaatgaag tggacttcgc tattaatgtg tgcactctcc 721 tatcaaatga aagcaagcac gtcatgcagc ttgagaagga tcccaaaatc atcactttac 781 tgctcgctaa tgcgggggtg ttcgatgaca ctttaggatc attctcttct gtctttggag 841 aagagtggcg agagaagact gatagagact ttgttaagtt ttggaaagac attgttgatg 901 acaatgaagt gcgagatctc atttctgaca gaaacaaggc tcatgaagat acaccaggag 961 aatggatttg ggaatcttta tttcatccac ctcgaaagct gggcattaat gacatcgaag 1021 gccagcgggt tctgcagatc gcagtgatct tgcggaacct ctcctttgag gagagcaatg 1081 ttaagctctt ggcagctaat cgcacctgtc tgcgtttcct gttgctctct gcacacagtc 1141 attttatttc attaaggcag ctaggcctgg acaccttagg gaatatcgca gctgagcttt 1201 tactggaccc tgtggatttc agaaccactc atctgatgtt tcacactgtt acaaaatgcc 1261 tgatgtcaag ggataggttt ttaaagatga ggggcatgga aattttggga aatctctgca 1321 aagcagagga taacggtgtt ttgatttgtg aatatgtgga tcaagattcc tatagagaga 1381 taatttgtca cctcactctg cccgatgtgc tgctggtgac ctcaaccctg gaggtgctgt 1441 acatgctcac tgaaatgggg gacgtggcct gcacaaagat cgcgaaagtg gagaagagca 1501 tagacgtgct ggtgtgtctg gtctctatgg acgctcagat gtttggacct gacgcacttg 1561 ctgccgtgaa gctcattgag catccgagct ccagtcacca agtgttatca gagattaggc 1621 cgcaagccat agagcaggtc caaacccaga cccacatagc ctccggtcca gcttccagag 1681 cagttgtagc acagcatgct gccccccctc caggaatcgt ggaaatagac agtgagaagt 1741 tcgcttgtca gtggctaaat gctcattttg aagtaaatcc agactgttcc gtctctcggg 1801 cagaaatgta ttcagagtac ctctcaactt gcagtaaatt agctcgcggt ggcatcctca 1861 catcaactgg gttttataag tgtcttagaa cagtttttcc aaatcataca gtgaagaggg 1921 tagaagattc cactagcagt gggcaggcgc atatccatgt cataggagtg aagcggcggg 1981 ctctcccgct ccccatccag atgtactatc agcagcagcc aatttccact cctgttgtcc 2041 gtgttgatgc tgttgctgat ctatctccaa ctccttcacc tgcaggaatc cctcatggac 2101 cacaggctgc agggaatcat tttcagagga ctcctgtcac caatcaatct tcaaatttga 2161 ctgcaacaca aatgtctttt ccggtacaag gcattcatac tgtggcacag actgtttcca 2221 gaattccacc aaatccttca gttcataccc accagcaaca aaattctcca gtaactgtca 2281 ttcagaataa agctccaatt ccttgtgaag tcgttaaggc aacagtaatc cagaactctg 2341 tgccccagac ggcagttcct gtgagtatct ctgttggagg agcacctgca cagaattctg 2401 tgggtcagaa ccatagtgca gggccacagc ctgttacagt tgtaaattct cagacattac 2461 ttcaccatcc ttctgtgatg ccacagccat ctccactaca cacagtggtg cccggacagg 2521 tcccttcagg cactcctgtc acagtaatcc agcagactgt accgcagagt cgtatgtttg 2581 gacgagtaca gagcatacca gcgtgtacat ctaccgtctc acagggtcag cagttaatca 2641 ccacatcacc acagcctatg cacacttcat ctcaacagac agcagctggt agccagccac 2701 aagacactgt tatcatagca cccccacagt acgtaacaac ttctgcatcc aatatcgtct 2761 cagcgacttc agtacagaat ttccaggtag ctacaggaca ggtggttacc atagctggtg 2821 tcccgagccc acagccctcc agggtaggat tccagaacat tgcgcccaag ccacttcctt 2881 ctcagcaagt ttcaccatca gtggtccagc agcctattca acaaccacag cagcctgctc 2941 agcagagtgt agtgattgtg agccagccag cacagcaagg ccaggcgtac gcaccagcca 3001 ttcaccagat cgttctcgct aacccggcag ctctccctgc cggtcagacg gttcagctaa 3061 ctggacaacc aaacataact ccatcgtcat caccatcacc tgtcccgcct actaataacc 3121 aagtccctac tgccatgtca tcttcttcca cccttcagtc acagggaccc cctcctactg 3181 tcagtcagat gctctctgtg aagaggcagc agcagcagca gcactcacca gcagcgccag 3241 cacagcaggt ccaggtccag gttcagcagc cgcagcaggt ccaggtgcaa gttcagccgc 3301 agcaaccgag tgctggggtc ggtcagcctg ctcccaacga gtctagtctc atcaagcagc 3361 tgctgctgcc aaagcggggc ccttcaaccc cagggggcaa gcttatcctc ccagcccctc 3421 agattcctcc ccctaacaat gcaagagctc ctagccctca ggtggtctat caggtggcca 3481 ataaccaagc agctggtttt ggagtgcagg ggcaaactcc ggctcagcag ctattggttg 3541 ggcagcaaaa tgttcagttg gtccaaagtg caatgccacc cgcaggggga gtgcaaaccg 3601 tgcccatttc gaacttacaa atattgccgg gtccgctgat ctcaaacagc ccagcaacca 3661 ttttccaagg gacttctggc aaccaggtaa ctataacagt tgtgccaaat accagttttg 3721 caactgcgac tgtgagtcag ggaaacgctg ctcagctcat tgcgccagcc ggtcttagca 3781 tgagcggagc gcaggcaagc gctggacttc aggtgcagac gcttccagcc ggacaatcag 3841 cgtgtaccac tgctcccctc ccgttcaaag gcgacaagat catttgccaa aaggaggagg 3901 aggcaaagga agcaacaggt ctacatgttc atgaacggaa gattgaggtc atggagaatc 3961 cttcctgtcg gcgaggaacc acaaacacca gcaacgggga tacaagtgag agtgaactcc 4021 aggtgggaag tcttttaaat gggagaaagt atagtgactc aagtctacct ccttcaaact 4081 cagggaaact tcagagtgag acgagccagt gctcactaat cagcaatggg ccatcgttgg 4141 aactaggtga gaatggagcg cctggaaaac agaactcaga accagtagac atgcaggatg 4201 tcaaaggtga tctgaaaaaa gccctcgtca atggaatctg tgattttgat aaaggagatg 4261 gttctcattt aagcaaaaac attccaaatc acaaaacttc taatcatgta ggaaatggtg 4321 agatatctcc agtagaacca caagggactt cgggtgccac tcagcaagat actgccaaag 4381 gtgaccaact agaaagagtt tctaatggac ctgtgttaac tctgggtggg tcaccgtcca 4441 caagcagtat gcaagaagcc ccgagtgtgg cgacaccgcc gttgagtggt actgacctgc 4501 ctaacggacc tctagcttca agtttgaatt cagatgtgcc tcagcaacgc ccaagtgtag 4561 ttgtctcacc acattctaca gcccctgtca tacaggggca tcaagtcata gcagttcccc 4621 actcaggacc tagagtgacc ccttctgctc tatcatctga tgctcggtct acaaacggca 4681 cagccgagtg caaaactgta aagaggccgg cagaggataa tgatagggac actgtcccgg 4741 gaatcccaaa taaagtaggg gttagaattg ttacaatcag cgaccccaac aatgctggct 4801 gcagtgcaac catggttgcg gtcccagctg gagcggaccc aagcactgta gcgaaagtag 4861 caatagaaag tgctgctcag caaaagcagc agcatccacc gacctacatg cagagtgtgg 4921 ccccacagaa cactcctatg ccaccttcac cagctgtaca agtgcagggc cagcctagca 4981 gttctcagcc ttctccagtc agtgcgtcca gtcagcatgc agatccagtg agaaaacctg 5041 ggcagaactt catgtgtctg tggcagtctt gtaaaaagtg gtttcagact ccctcacaag 5101 tgttctatca tgcagctact gaacatggag gaaaagatgt gtatccgggg cagtgtcttt 5161 gggaaggctg tgagcctttc caacggcaga ggttctcttt cattacccac ttacaggata 5221 agcactgttc aaaggatgcc ctgcttgcag gattaaagca agatgaacca ggacaagtgg 5281 caaatcaaaa atcttctacc aagcagccca ccgtgggggg cacaggctct gcgcccagag 5341 cccagaaggc cattgcaagc caccccagtg ctgcactcat ggctctgcgg agaggctcaa 5401 ggaacctcgt cttccgggac ttcacagatg aaaaagaggg accaataact aaacacatcc 5461 gactaacagc tgccttaata ttaaaaaata ttggtaaata ctcagagtgt gggcgcagat 5521 tgttaaagag acatgaaaac aacttatcag tgctcgccat tagtaacatg gaagcttcct 5581 ctacccttgc caaatgcctt tatgaactta attttacagt tcagagtaaa gaacaagaaa 5641 aagactcaga aatgctgtag tgaatcctac cccactgaca cagtggggtc tcaaagtcaa 5701 atacatttca catactgtta ctgaagaaag caccaagtct taatggagca gagaccatag 5761 aatgaattat tttgtgtcct ccatgatgct gagaggaaac ttcgtattct gatctctgaa 5821 cgaatccctt tcttttctgt taaaaaaaaa aaatctaaaa aggaaaaaaa aaaaaaaaaa 5881 aacaaaaact gctgtgggat tgtcaaccag cttatctgca ggatgtctcg gatctggcca 5941 atcctgatgg aaactggtgt gatcagaatt ctgtaccatc cacattggaa tatacatgga 6001 atagtgtaaa acctacgtga gcagatgaaa tagaagcatt aaatattttt atctatatcc 6061 aaaaaggagc acatttttat atttacagaa ccatttaagc tggtttgaat aacgacagag 6121 tttgagcaca cctatccccc agcttcagag gggccaccaa tatctagctg tggattgtgt 6181 gttttgttta gaatcagtag cttggttttc ttacttgagc caatatattt tcacttattt 6241 attatcataa aaatttacca gtctgaatag atcttgtaaa tatttgtgaa tagaatgaac 6301 actgttcata ccactgcagc cactggagat acatcctgtg gtgtcctaga agcattatcg 6361 gtaggctcta aagttttcta gactttgctg tcaactgtaa gtaattgtga tatattctac 6421 gcagtggatg gatattcttt aaatctgtgt aaatacttct gcaaaggtac tgatgctgta 6481 aagtcaaaca gttttgtgga actgtgattt tttttttcct ccttttttgg tttccttggc 6541 ccccacttgg gtttggtggg gttttgtttt tgttttgttt tgtattatac accttgtaga 6601 actcattttg ctggctgaaa gagtatggaa taatatatct catatgtcat ttttgtagaa 6661 gagaaactat ttggatttcc tttttgttgg tttggttttc cctaacacgt gtccgctgta 6721 cgcattcgtc acgtgcaagc tcagcttgtg cagggttttt tgtatttgta aattggttta 6781 aatacatgga attttataca ggttttctcc tgtgttatat atgcattatg tgcaggtatg 6841 atattttctt cactactttt tctatcttaa tatagtgtgg aattttattg tattattctt 6901 ccattcttaa tactgtacca cattcctgct cagaaactgc tcacttcctt aaattgtctt 6961 ttcccccaag cgtgaaatgt atccacttat aactgcctat tgcctgttct attagcatcc 7021 aaaaatgtgg aaggcctccc aaccaccatt tctgctgtgt ccttaggatg tgcagtaaaa 7081 aaatatagac ctgacagttt atgttataga atggctttat ttactttggt gactgtttat 7141 agtttttaaa taaaagactg aacattttct tgagtccttt atttctgagt atgcttaaga 7201 cattctaaaa tttaaagtct agctgaaggc aaggtcaaac ggtcacctac ttactttata 7261 ctttgtgatt gtagagaaca gaaaggtgca tcatgtgata ggacaccatg gtcacggtag 7321 gaaggagacc aggagaccaa atgttttgtt tacagtagta tgagtagtag ccccagagag 7381 cgagagacag ttagggctcg gttgccttac tgtgtgtccc gcatctatct gactgagagc 7441 tttgtttacc attcgactct aggtttcagt ttaactaatt caggggcagc ttcttggcaa 7501 tgagcttcag tctggacagt tcaaatatct tgattaattt agtaccaaaa agtaatttct 7561 ccccaggggt ctctgtgctc tcagctctaa ctgtaagaaa tgtgtggcga cacccagaac 7621 ttggtattct caggttggtg gcgtttgact tcttcgcctt agcctggggc tgcccagcag 7681 acaccctgag tccaggtacc ttactgtatc cctcaaatat cgccagacta aaggtttcta 7741 agggcagata gttgtagaaa tttatattca ctgtgtttat ctaaaaaaat tgaggttttt 7801 gaaataattt ttgtaacatc actgtttgct tgtcctcaag gtaccttttt ccttccaaag 7861 caggaaatta ccatggtggt tagcctttag tagcagaaac gacaggctta agaaagtggc 7921 ttccatagtc accatcctgt cacctcactg aattgcatcc tgtagatgta gatttttgtg 7981 ttaaaatgta taaatgtgtc tttagtgctt ttaagcaatg gtctcagcag aattttctaa 8041 atgtatctga cctgacgaaa ccaatttcta gctcccctta ggcttcccct ccggcagctt 8101 tacctgacta atggataaga cttggtgggt aacgcggttg aagtgctctt gcagtccagg 8161 gcctgcagaa ccctcgcagt cacgaaaagg tgctccttgc tagacagaaa cttgctgact 8221 tccagtattg ttatttttgt ctaaagttct gtaaatacaa gctttaatgt tatctttgag 8281 agatctatgt aaataatagt caagaacata gagactgtac aattctgtgt tatatatgtg 8341 cctagtgctc tgttggcact taataaattt taagtaacaa aactgatgat catatagtga 8401 aggcatattt ttcttccgac ttgagacagg atatgactat atattaatga gactcaataa 8461 accaagccac acatgaaaac ttgtctcatt actttatagc catgccatgt atgtttttta 8521 aactataaaa tgacaataaa actgattttt gaaatgagtg ttttggataa gtgacttctg 8581 tcctgatctt ataccataaa taaagtactg aagacgaaat atgaagctct tacccaaagg 8641 agtagctgct tagaaacaag agtgaagctt gaagatcagc cacacaggcc acctcacact 8701 ttgttcctgt ttatcttacg atacagtaag ggaaggcacc atttagagcc agcttgtgtt 8761 agttaaccac tctcatactg cccaactctt gactgaactc tggcactcaa atacttggag 8821 tgagcttcct tccaaggcca cagaacagag accaaccgaa ttaccagctg gttccatcat 8881 agctagtaaa ctttatctag caacaatttc cactccctgc attggtttga aaaaaaaaat 8941 gcaaagagac agtatcaatg tatgtaagtg gattcactaa taatacaacc acactttaag 9001 tattaaagtg gggtgagatg gcttggtct SEQ ID NO: 12 Mouse ARID2 Amino Acid Sequence (NP_780460.3) 1 manstgkapp derrkglafl delrqfhhsr gspfkkipav ggkeldlhgl ytrvttlggf 61 akvseknqwg eiveefnfpr scsnaafalk qyylryleky ekvhhfgedd devppgnpkp 121 qlpigaipss ynyqqhsysd ylrqsyglsm dfnspndynk lvlsllsglp nevdfainvc 181 tllsneskhv mqlekdpkii tlllanagvf ddtlgsfssv fgeewrektd rdfvkfwkdi 241 vddnevrdli sdrnkahedt pgewiweslf hpprklgind ieggrvlgia vilrnlsfee 301 snvkllaanr tclrflllsa hshfislrql gldtlgniaa ellldpvdfr tthlmfhtvt 361 kclmsrdrfl kmrgmeilgn lckaedngvl iceyvdqdsy reiichltlp dvllvtstle 421 vlymltemgd vactkiakve ksidvlvolv smdaqmfgpd alaavklieh pssshqvlse 481 irpgaieqvg tqthiasgpa sravvaqhaa pppgiveids ekfacqwlna hfevnpdcsv 541 sraemyseyl stcsklargg iltstgfykc lrtvfpnhtv krvedstssg qahihvigvk 601 rralplpiqm yyqqqpistp vvrvdavadl sptpspagip hgpqaagnhf qrtpvtnqss 661 nitatqmsfp vggihtvaqt vsrippnpsv hthqqqnspv tvignkapip cevvkatviq 721 nsvpqtavpv sisvggapaq nsvgqnhsag pqpvtvvnsq tllhhpsvmp gpsplhtvvp 781 gqvpsgtpvt viqqtvpqsr mfgrvqsipa ctstvsqgqq littspqpmh tssqqtaags 841 qpqdtviiap pqyvttsasn ivsatsvgnf qvatgqvvti agvpspqpsr vgfqniapkp 901 lpsqqvspsv vqqpiqqpqq paqqsvvivs gpaqqggaya paihqivlan paalpagqtv 961 qltgqpnitp ssspspvppt nnqvptamss sstlqsqgpp ptvsqmlsvk rqqqqqhspa 1021 apaqqvqvqv qqpqqvqvqv qpqqpsagvg qpapnessli kglllpkrgp stpggklilp 1081 apqipppnna rapspqvvyq vannqaagfg vqgqtpaqql lvgqqnvqlv qsamppaggv 1141 qtvpisnlqi lpgplisnsp atifqgtsgn qvtitvvpnt sfatatvsqg naaqliapag 1201 lsmsgaqasa glqvqtlpag qsacttaplp fkgdkiicqk eeeakeatgl hvherkievm 1261 enpscrrgtt ntsngdtses elqvgsllng rkysdsslpp snsgklqset sqcslisngp 1321 slelgengap gkqnsepvdm qdvkgdlkka lvngicdfdk gdgshlskni pnhktsnhvg 1381 ngeispvepq gtsgatqqdt akgdqlervs ngpvltlggs pstssmqeap svatpplsgt 1441 dlpngplass lnsdvpqqrp svvvsphsta pvigghqvia vphsgprvtp salssdarst 1501 ngtaecktvk rpaedndrdt vpgipnkvgv rivtisdpnn agcsatmvav pagadpstva 1561 kvaiesaagq kqqhpptymq svapqntpmp pspavqvqgq psssqpspvs assqhadpvr 1621 kpgqnfmclw qsckkwfqtp sqvfyhaate hggkdvypgq clwegcepfq rqrfsfithl 1681 qdkhcskdal laglkqdepg qvanqksstk qptvggtgsa praqkaiash psaalmalrr 1741 gsrnlvfrdf tdekegpitk hirltaalil knigkysecg rrllkrhenn lsvlaisnme 1801 asstlakcly elnftvqske qekdseml SEQ ID NO: 13 Human BRD7 cDNA Sequence Variant 1 (NM_001173984.2, CDS: from 161 to 2119) 1 gagaggggca tcgcgccgcc cggcgcgcgc cgcccccctg cctcgcggcg cggggtctcg 61 cgggccccgc tcccgccctc cgctcgcctg gcccggaccg gaagcggcgc cgcacggcct 121 gggcctggcg cggggggcgg gcaccggggc ccggtcggac atgggcaaga agcacaagaa 181 gcacaagtcg gacaaacacc tctacgagga gtatgtagag aagcccttga agctggtcct 241 caaagtagga gggaacgaag tcaccgaact ctccacgggc agctcggggc acgactccag 301 cctcttcgaa gacaaaaacg atcatgacaa acacaaggac agaaagcgga aaaagagaaa 361 gaaaggagag aagcagattc caggggaaga aaaggggaga aaacggagaa gagttaagga 421 ggataaaaag aagcgagatc gagaccgggt ggagaatgag gcagaaaaag atctccagtg 481 tcacgcccct gtgagattag acttgcctcc tgagaagcct ctcacaagct ctttagccaa 541 acaagaagaa gtagaacaga caccccttca agaagctttg aatcaactga tgagacaatt 601 gcagagaaaa gatccaagtg ctttcttttc atttcctgtg actgatttta ttgctcctgg 661 ctactccatg atcattaaac acccaatgga ttttagtacc atgaaagaaa agatcaagaa 721 caatgactat cagtccatag aagaactaaa ggataacttc aaactaatgt gtactaatgc 781 catgatttac aataaaccag agaccattta ttataaagct gcaaagaagc tgttgcactc 841 aggaatgaaa attcttagcc aggaaagaat tcagagcctg aagcagagca tagacttcat 901 ggctgacttg cagaaaactc gaaagcagaa agatggaaca gacacctcac agagtgggga 961 ggacggaggc tgctggcaga gagagagaga ggactctgga gatgccgaag cacacgcctt 1021 caagagtccc agcaaagaaa ataaaaagaa agacaaagat atgcttgaag ataagtttaa 1081 aagcaataat ttagagagag agcaggagca gcttgaccgc atcgtgaagg aatctggagg 1141 aaagctgacc aggcggcttg tgaacagtca gtgcgaattt gaaagaagaa aaccagatgg 1201 aacaacgacg ttgggacttc tccatcctgt ggatcccatt gtaggagagc caggctactg 1261 ccctgtgaga ctgggaatga caactggaag acttcagtct ggagtgaata ctttgcaggg 1321 gttcaaagag gataaaagga acaaagtcac tccagtgtta tatttgaatt atgggcccta 1381 cagttcttat gcaccgcatt atgactccac atttgcaaat atcagcaagg atgattctga 1441 tttaatctat tcaacctatg gggaagactc tgatcttcca agtgatttca gcatccatga 1501 gtttttggcc acgtgccaag attatccgta tgtcatggca gatagtttac tggatgtttt 1561 aacaaaagga gggcattcca ggaccctaca agagatggag atgtcattgc ctgaagatga 1621 aggccatact aggacacttg acacagcaaa agaaatggag cagattacag aagtagagcc 1681 accagggcgt ttggactcca gtactcaaga caggctcata gcgctgaaag cagtaacaaa 1741 ttttggcgtt ccagttgaag tttttgactc tgaagaagct gaaatattcc agaagaaact 1801 tgatgagacc accagattgc tcagggaact ccaggaagcc cagaatgaac gtttgagcac 1861 cagaccccct ccgaacatga tctgtctctt gggtccctca tacagagaaa tgcatcttgc 1921 tgaacaagtg accaataatc ttaaagaact tgcacagcaa gtaactccag gtgatatcgt 1981 aagcacgtat ggagttcgaa aagcaatggg gatttccatt ccttcccccg tcatggaaaa 2041 caactttgtg gatttgacag aagacactga agaacctaaa aagacggatg ttgctgagtg 2101 tggacctggt ggaagttgag gctgcctggt atttgattat atattatgta catacttttt 2161 cattcttaac ttagaaatgc ttttcagaag atattaaata tttgtaaatt gtgtttttaa 2221 ttaaactttg gaacagcgaa tttggatgtt ccagaggttg gacttgtatt aggtaataaa 2281 gctggacctg ggactcgtga ggaaggaatg tgaaaaaaaa aaaaaaaaaa SEQ ID NO: 14 Human BRD7 Amino Acid Sequence Isoform A (NP_001167455.1) 1 mgkkhkkhks dkhlyeeyve kplklvlkvg gnevtelstg ssghdsslfe dkndhdkhkd 61 rkrkkrkkge kqipgeekgr krrrvkedkk krdrdrvene aekdlqchap vrldlppekp 121 ltsslakqee vegtplgeal nqlmrqlqrk dpsaffsfpv tdfiapgysm iikhpmdfst 181 mkekiknndy qsieelkdnf klmctnamiy nkpetiyyka akkllhsgmk ilsgeriqsl 241 kgsidfmadl qktrkqkdgt dtsqsgedgg cwqreredsg daeahafksp skenkkkdkd 301 mledkfksnn lereqeqldr ivkesggklt rrlvnsqcef errkpdgttt lgllhpvdpi 361 vgepgycpvr lgmttgrlqs gvntlqgfke dkrnkvtpvl ylnygpyssy aphydstfan 421 iskddsdliy stygedsdlp sdfsihefla tcgdypyvma dslldvltkg ghsrtlqeme 481 mslpedeght rtldtakeme qiteveppgr ldsstqdrli alkavtnfgv pvevfdseea 541 eifqkkldet trllrelgea qnerlstrpp pnmicllgps yremhlaeqv tnnlkelagq 601 vtpgdivsty gvrkamgisi pspvmennfv dltedteepk ktdvaecgpg gs SEQ ID NO: 15 Human BRD7 cDNA Sequence Variant 2 (NM_013263.4, CDS: from 161 to 2116) 1 gagaggggca tcgcgccgcc cggcgcgcgc cgcccccctg cctcgcggcg cggggtctcg 61 cgggccccgc tcccgccctc cgctcgcctg gcccggaccg gaagcggcgc cgcacggcct 121 gggcctggcg cggggggcgg gcaccggggc ccggtcggac atgggcaaga agcacaagaa 181 gcacaagtcg gacaaacacc tctacgagga gtatgtagag aagcccttga agctggtcct 241 caaagtagga gggaacgaag tcaccgaact ctccacgggc agctcggggc acgactccag 301 cctcttcgaa gacaaaaacg atcatgacaa acacaaggac agaaagcgga aaaagagaaa 361 gaaaggagag aagcagattc caggggaaga aaaggggaga aaacggagaa gagttaagga 421 ggataaaaag aagcgagatc gagaccgggt ggagaatgag gcagaaaaag atctccagtg 481 tcacgcccct gtgagattag acttgcctcc tgagaagcct ctcacaagct ctttagccaa 541 acaagaagaa gtagaacaga caccccttca agaagctttg aatcaactga tgagacaatt 601 gcagagaaaa gatccaagtg ctttcttttc atttcctgtg actgatttta ttgctcctgg 661 ctactccatg atcattaaac acccaatgga ttttagtacc atgaaagaaa agatcaagaa 721 caatgactat cagtccatag aagaactaaa ggataacttc aaactaatgt gtactaatgc 781 catgatttac aataaaccag agaccattta ttataaagct gcaaagaagc tgttgcactc 841 aggaatgaaa attcttagcc aggaaagaat tcagagcctg aagcagagca tagacttcat 901 ggctgacttg cagaaaactc gaaagcagaa agatggaaca gacacctcac agagtgggga 961 ggacggaggc tgctggcaga gagagagaga ggactctgga gatgccgaag cacacgcctt 1021 caagagtccc agcaaagaaa ataaaaagaa agacaaagat atgcttgaag ataagtttaa 1081 aagcaataat ttagagagag agcaggagca gcttgaccgc atcgtgaagg aatctggagg 1141 aaagctgacc aggcggcttg tgaacagtca gtgcgaattt gaaagaagaa aaccagatgg 1201 aacaacgacg ttgggacttc tccatcctgt ggatcccatt gtaggagagc caggctactg 1261 ccctgtgaga ctgggaatga caactggaag acttcagtct ggagtgaata ctttgcaggg 1321 gttcaaagag gataaaagga acaaagtcac tccagtgtta tatttgaatt atgggcccta 1381 cagttcttat gcaccgcatt atgactccac atttgcaaat atcagcaagg atgattctga 1441 tttaatctat tcaacctatg gggaagactc tgatcttcca agtgatttca gcatccatga 1501 gtttttggcc acgtgccaag attatccgta tgtcatggca gatagtttac tggatgtttt 1561 aacaaaagga gggcattcca ggaccctaca agagatggag atgtcattgc ctgaagatga 1621 aggccatact aggacacttg acacagcaaa agaaatggag attacagaag tagagccacc 1681 agggcgtttg gactccagta ctcaagacag gctcatagcg ctgaaagcag taacaaattt 1741 tggcgttcca gttgaagttt ttgactctga agaagctgaa atattccaga agaaacttga 1801 tgagaccacc agattgctca gggaactcca ggaagcccag aatgaacgtt tgagcaccag 1861 accccctccg aacatgatct gtctcttggg tccctcatac agagaaatgc atcttgctga 1921 acaagtgacc aataatctta aagaacttgc acagcaagta actccaggtg atatcgtaag 1981 cacgtatgga gttcgaaaag caatggggat ttccattcct tcccccgtca tggaaaacaa 2041 ctttgtggat ttgacagaag acactgaaga acctaaaaag acggatgttg ctgagtgtgg 2101 acctggtgga agttgaggct gcctggtatt tgattatata ttatgtacat actttttcat 2161 tcttaactta gaaatgcttt tcagaagata ttaaatattt gtaaattgtg tttttaatta 2221 aactttggaa cagcgaattt ggatgttcca gaggttggac ttgtattagg taataaagct 2281 ggacctggga ctcgtgagga aggaatgtga aaaaaaaaaa aaaaaaa SEQ ID NO: 16 Human BRD7 Amino Acid Sequence Isoform B (NP_037395.2) 1 mgkkhkkhks dkhlyeeyve kplklvlkvg gnevtelstg ssghdsslfe dkndhdkhkd 61 rkrkkrkkge kqipgeekgr krrrvkedkk krdrdrvene aekdlqchap vrldlppekp 121 ltsslakqee veqtplqeal nqlmrqlqrk dpsaffsfpv tdfiapgysm iikhpmdfst 181 mkekiknndy qsieelkdnf klmctnamiy nkpetiyyka akkllhsgmk ilsgeriqsl 241 kgsidfmadl qktrkqkdgt dtsqsgedgg cwqreredsg daeahafksp skenkkkdkd 301 mledkfksnn lereqeqldr ivkesggklt rrlvnsqcef errkpdgttt lgllhpvdpi 361 vgepgycpvr lgmttgrlqs gvntlqgfke dkrnkvtpvl ylnygpyssy aphydstfan 421 iskddsdliy stygedsdlp sdfsihefla tcgdypyvma dslldvltkg ghsrtlqeme 481 mslpedeght rtldtakeme iteveppgrl dsstqdrlia lkavtnfgvp vevfdseeae 541 ifqkkldett rllrelgeaq nerlstrppp nmicllgpsy remhlaeqvt nnlkelaqqv 601 tpgdivstyg vrkamgisip spvmennfvd ltedteepkk tdvaecgpgg s SEQ ID NO: 17 Mouse BRD7 cDNA Sequence (NM_012047.2, CDS: from 238 to 2193) 1 ggtttgccgg cctctcgccc tctcgccact ggtgtcgcgc ttcggtcgcg tcccgcgcgt 61 ggtttttttt ttttctcgtg agggacctcg cgccgccggg cgcgtgccgt ccccctgcct 121 cgcggcgcgg gctctcgcgg gccccgctcc cgccctccgc tcgcctggcc cggaccggaa 181 gcggcgccgc acggcctggg cctggcgcgg ggggcgggct ctggggcccg gtcggacatg 241 ggcaagaagc acaagaagca caagtcggac cgccacttct acgaggagta cgtggagaag 301 cccctgaagc tggtcctcaa agtcgggggg agcgaggtca ccgagctctc cacgggcagc 361 tccgggcacg actccagcct cttcgaagac agaagcgacc atgacaaaca caaggacaga 421 aaacggaaaa agaggaagaa aggcgagaag caggctccgg gggaagagaa ggggagaaaa 481 cggagaagag tcaaggagga taaaaagaag cgggatcgag accgtgcaga gaatgaggtg 541 gacagagatc tccagtgtca tgtccctata agattagact tacctcctga gaagcctctt 601 acaagctcgt tagccaaaca agaagaagta gaacagacac cccttcagga agctttgaat 661 cagctcatga gacaattgca aagaaaagac ccaagtgctt tcttttcatt tcctgtgacg 721 gattttattg cgcctggcta ctccatgatt attaaacacc caatggattt tagtaccatg 781 aaagaaaaga tcaagaataa cgactaccag tccatagaag aactaaagga taacttcaag 841 ctaatgtgta ctaatgcaat gatttacaat aagccagaga ccatttatta taaagctgca 901 aagaagctgt tgcactcagg gatgaaaatt ctcagtcagg agagaattca gagcctgaag 961 cagagtatag acttcatgtc agacttgcag aaaactcgga agcagaaaga acgaacagat 1021 gcctgtcaga gtggggagga cagcggctgc tggcagcgcg agagggaaga ctctggagat 1081 gctgaaacac aggccttcag aagccccgct aaggacaata aaaggaaaga caaagatgtg 1141 cttgaagaca aatggagaag cagcaactca gaaagggagc atgagcagat tgagcgcgtt 1201 gtccaggagt caggaggcaa gctaacacgg cggctggcaa acagtcagtg tgaatttgaa 1261 agaagaaaac cagatgggac aacaacactg gggcttctcc atcctgtgga tcccattgtg 1321 ggagagccag gctactgccc tgtgagattg gggatgacaa ctggaagact gcagtctgga 1381 gtgaacactc tgcaggggtt caaagaggat aaaaggaaca gagtaacccc agtattatac 1441 ttgaattatg gaccctacag ttcttatgcc ccacattatg actctacatt tgccaatatt 1501 agcaaagatg attctgattt aatctactca acatatgggg aagactctga ccttccaaac 1561 aatttcagca tctctgagtt tttggccaca tgccaagatt acccgtatgt tatggcagat 1621 agtttactgg atgttctaac aaaaggagga cattccagga gcctgcagga cttggacatg 1681 tcatctcctg aagatgaagg ccagaccaga gcattggaca cagcaaaaga agcagagatt 1741 acacaaatag agccaacagg gcgtttggag tccagcagtc aggacaggct cacagcactg 1801 caagctgtaa caacctttgg tgctccagct gaagtctttg actccgaaga ggctgaggtg 1861 ttccagagga agcttgatga gacgacaaga ttgctcaggg agctccagga ggcacagaat 1921 gagcgactga gcactaggcc tcctcccaat atgatctgtc tcctgggtcc ttcttacaga 1981 gaaatgtacc ttgctgaaca agtgaccaat aacctcaaag aactcacaca gcaagtgact 2041 ccaggtgatg ttgtaagcat acacggagtg cgaaaagcaa tggggatttc tgttccttcc 2101 cccatcgtgg gaaacagctt cgtagatttg acaggagagt gtgaagaacc taaggagacc 2161 agcactgctg agtgtgggcc tgacgcgagc tgaactagcc tggtatttga ttctattatg 2221 tacatagttt ttcattctga acttggaggt gcttttcaga agatattaac tatttgtaaa 2281 ttgtgtttta attaagcttt gggacagttc cttttaatgt tccaaagatt ggccttgtat 2341 taggaaataa agctgaacct gggactgtga SEQ ID NO: 18 Mouse BRD7 Amino Acid Sequence (NP_036177.1) 1 mgkkhkkhks drhfyeeyve kplklvlkvg gsevtelstg ssghdsslfe drsdhdkhkd 61 rkrkkrkkge kqapgeekgr krrrvkedkk krdrdraene vdrdlqchvp irldlppekp 121 ltsslakqee vegtplgeal nqlmrqlqrk dpsaffsfpv tdfiapgysm iikhpmdfst 181 mkekiknndy qsieelkdnf klmctnamiy nkpetiyyka akkllhsgmk ilsgeriqsl 241 kgsidfmsdl qktrkqkert dacqsgedsg cwqreredsg daetqafrsp akdnkrkdkd 301 vledkwrssn sereheqier vvqesggklt rrlansqcef errkpdgttt lgllhpvdpi 361 vgepgycpvr lgmttgrlqs gvntlqgfke dkrnrvtpvl ylnygpyssy aphydstfan 421 iskddsdliy stygedsdlp nnfsisefla tcgdypyvma dslldvltkg ghsrslqdld 481 msspedegqt raldtakeae itqieptgrl esssqdrlta lqavttfgap aevfdseeae 541 vfqrkldett rllrelgeaq nerlstrppp nmicllgpsy remylaeqvt nnlkeltqqv 601 tpgdvvsihg vrkamgisvp spivgnsfvd ltgeceepke tstaecgpda s SEQ ID NO: 19 Human PHF10 cDNA Sequence Variant 1 (NM_018288.3, CDS: from 80 to 1576) 1 ggcggcggcg gcagcggcgg cggcggccgg gacaaggcgg aggcgacggc ggcggcggcg 61 gcgcggggcg ctcgggctga tggcggcggc ggccgggccc ggggctgcgc tgtccccgcg 121 gccgtgcgac agcgacccag ccacccccgg agcgcagtcc ccgaaggatg ataatgaaga 181 taattcaaat gatgggaccc agccatccaa aaggaggcga atgggctcag gagatagttc 241 taggagttgt gaaacttcaa gtcaagatct tggttttagt tactatccag cagaaaactt 301 gatagagtac aaatggccac ctgatgaaac aggagaatac tatatgcttc aagaacaagt 361 cagtgaatat ttgggtgtga cctcctttaa aaggaaatat ccagatttag agcgacgaga 421 tttgtctcac aaggagaaac tctacctgag agagctaaat gtcattactg aaactcagtg 481 cactctaggc ttaacagcat tgcgcagtga tgaagtgatt gatttaatga taaaagaata 541 tccagccaaa catgctgagt attctgttat tctacaagaa aaagaacgtc aacgaattac 601 agaccattat aaagagtatt cccaaatgca acaacagaat actcagaaag ttgaagccag 661 taaagtgcct gagtatatta agaaagctgc caaaaaagca gcagaattta atagcaactt 721 aaaccgggaa cgcatggaag aaagaagagc ttattttgac ttgcagacac atgttatcca 781 ggtacctcaa gggaagtaca aagttttgcc aacagagcga acaaaggtca gttcttaccc 841 agtggctctc atccccggac agttccagga atattataag aggtactcac cagatgagct 901 gcggtatctg ccattaaaca cagccctgta tgagccccct ctggatcctg agctccctgc 961 tctagacagt gatggtgatt cagatgatgg cgaagatggt cgaggtgatg agaaacggaa 1021 aaataaaggc acttcggaca gctcctctgg caatgtatct gaaggggaaa gccctcctga 1081 cagccaggag gactctttcc agggaagaca gaaatcaaaa gacaaagctg ccactccaag 1141 aaaagatggt cccaaacgtt ctgtactgtc caagtcagtt cctgggtaca agccaaaggt 1201 cattccaaat gctatatgtg gaatttgtct gaagggtaag gagtccaaca agaaaggaaa 1261 ggctgaatca cttatacact gctcccaatg tgagaatagt ggccatcctt cttgcctgga 1321 tatgacaatg gagcttgttt ctatgattaa gacctaccca tggcagtgta tggaatgtaa 1381 aacatgcatt atatgtggac aaccccacca tgaagaagaa atgatgttct gtgatatgtg 1441 tgacagaggt tatcatactt tttgtgtggg ccttggtgct attccatcag gtcgctggat 1501 ttgtgactgt tgtcagcggg cccccccaac acccaggaaa gtgggcagaa gggggaaaaa 1561 cagcaaagag ggataaaata gtttttgact ctaatactgt atatgcattt aagtggaata 1621 tttggtgcca tttacaacat tattttcatg ccaataaaag attttttttg caaaaaaaaa 1681 aaaaaaaaaa aa SEQ ID NO: 20 Human PHF10 Amino Acid Sequence Isoform A (NP_060758.2) 1 maaaagpgaa lsprpcdsdp atpgaqspkd dnednsndgt gpskrrrmgs gdssrscets 61 sqdlgfsyyp aenlieykwp pdetgeyyml gegvseylgv tsfkrkypdl errdlshkek 121 lylrelnvit etqctlglta lrsdevidlm ikeypakhae ysvilqeker qritdhykey 181 sqmqqqntqk veaskvpeyi kkaakkaaef nsnlnrerme errayfdlqt hviqvpqgky 241 kvlptertkv ssypvalipg qfqeyykrys pdelrylpin talyeppldp elpaldsdgd 301 sddgedgrgd ekrknkgtsd sssgnvsege sppdsqedsf qgrqkskdka atprkdgpkr 361 svlsksvpgy kpkvipnaic giclkgkesn kkgkaeslih csqcensghp scldmtmelv 421 smiktypwqc mecktciicg qphheeemmf cdmcdrgyht fcvglgaips grwicdccqr 481 apptprkvgr rgknskeg SEQ ID NO: 21 Human PHF10 cDNA Sequence Variant 2 (NM_133325.2, CDS: from 80 to 1570) 1 ggcggcggcg gcagcggcgg cggcggccgg gacaaggcgg aggcgacggc ggcggcggcg 61 gcgcggggcg ctcgggctga tggcggcggc ggccgggccc ggggctgcgc tgtccccgcg 121 gccgtgcgac agcgacccag ccacccccgg agcgcagtcc ccgaaggatg ataatgaaga 181 taattcaaat gatgggaccc agccatccaa aaggaggcga atgggctcag gagatagttc 241 taggagttgt gaaacttcaa gtcaagatct tggttttagt tactatccag cagaaaactt 301 gatagagtac aaatggccac ctgatgaaac aggagaatac tatatgcttc aagaacaagt 361 cagtgaatat ttgggtgtga cctcctttaa aaggaaatat ccagagcgac gagatttgtc 421 tcacaaggag aaactctacc tgagagagct aaatgtcatt actgaaactc agtgcactct 481 aggcttaaca gcattgcgca gtgatgaagt gattgattta atgataaaag aatatccagc 541 caaacatgct gagtattctg ttattctaca agaaaaagaa cgtcaacgaa ttacagacca 601 ttataaagag tattcccaaa tgcaacaaca gaatactcag aaagttgaag ccagtaaagt 661 gcctgagtat attaagaaag ctgccaaaaa agcagcagaa tttaatagca acttaaaccg 721 ggaacgcatg gaagaaagaa gagcttattt tgacttgcag acacatgtta tccaggtacc 781 tcaagggaag tacaaagttt tgccaacaga gcgaacaaag gtcagttctt acccagtggc 841 tctcatcccc ggacagttcc aggaatatta taagaggtac tcaccagatg agctgcggta 901 tctgccatta aacacagccc tgtatgagcc ccctctggat cctgagctcc ctgctctaga 961 cagtgatggt gattcagatg atggcgaaga tggtcgaggt gatgagaaac ggaaaaataa 1021 aggcacttcg gacagctcct ctggcaatgt atctgaaggg gaaagccctc ctgacagcca 1081 ggaggactct ttccagggaa gacagaaatc aaaagacaaa gctgccactc caagaaaaga 1141 tggtcccaaa cgttctgtac tgtccaagtc agttcctggg tacaagccaa aggtcattcc 1201 aaatgctata tgtggaattt gtctgaaggg taaggagtcc aacaagaaag gaaaggctga 1261 atcacttata cactgctccc aatgtgagaa tagtggccat ccttcttgcc tggatatgac 1321 aatggagctt gtttctatga ttaagaccta cccatggcag tgtatggaat gtaaaacatg 1381 cattatatgt ggacaacccc accatgaaga agaaatgatg ttctgtgata tgtgtgacag 1441 aggttatcat actttttgtg tgggccttgg tgctattcca tcaggtcgct ggatttgtga 1501 ctgttgtcag cgggcccccc caacacccag gaaagtgggc agaaggggga aaaacagcaa 1561 agagggataa aatagttttt gactctaata ctgtatatgc atttaagtgg aatatttggt 1621 gccatttaca acattatttt catgccaata aaagattttt tttgcaaaaa aaaaaaaaaa 1681 aaaaaa SEQ ID NO: 22 Human PHF10 Amino Acid Sequence Isoform B (NP_579866.2) 1 maaaagpgaa lsprpcdsdp atpgaqspkd dnednsndgt qpskrrrmgs gdssrscets 61 sqdlgfsyyp aenlieykwp pdetgeyyml qeqvseylgv tsfkrkyper rdlshkekly 121 lrelnvitet qctlgltalr sdevidlmik eypakhaeys vilqekerqr itdhykeysq 181 mqqqntqkve askvpeyikk aakkaaefns nlnrermeer rayfdlqthv iqvpqgkykv 241 lptertkvss ypvalipgqf qeyykryspd elrylpinta lyeppldpel paldsdgdsd 301 dgedgrgdek rknkgtsdss sgnvsegesp pdsqedsfqg rqkskdkaat prkdgpkrsv 361 lsksvpgykp kvipnaicgi clkgkesnkk gkaeslihcs qcensghpsc ldmtmelvsm 421 iktypwqcme cktciicgqp hheeemmfcd mcdrgyhtfc vglgaipsgr wicdccqrap 481 ptprkvgrrg knskeg SEQ ID NO: 23 Mouse PHF10 cDNA Sequence (NM_024250.4, CDS: from 67 to 1560) 1 gcggcggcgg ccgctgggac taggcgaagg cggcgacgac gacggaggcg cggggcgctt 61 gggctgatgg cagcggccgg gcccggggcg gcgctgtccc cggggcggtg cgacagcgac 121 ccggcctccc ccggagcgca gtccccaaag gatgataatg aagataactc aaatgatggg 181 acccatccat gtaaaaggag gcgaatgggc tcaggagaca gctcaagaag ttgtgagact 241 tcaagtcaag atcttagctt cagttactac ccagcagaaa acttaatcga atacaaatgg 301 ccacctgatg aaacaggaga atactatatg cttcaggagc aagtcagtga atatctgggt 361 gtgacctcct tcaagcggaa atatccagat ttagagcgac gagatttatc tcacaaggag 421 aaactatacc tgagagaatt aaacgtcatc acggaaacac agtgcacact gggtttaaca 481 gcattgcgca gtgatgaagt gattgactta atgataaaag aatatccagc taaacacgct 541 gaatattcgg ttatcctaca agaaaaggaa cgtcagagaa ttacagatca ttataaagag 601 tattctcaaa tgcaacaaca gagtactcag aaagtcgaag ccagcaaagt acctgagtac 661 attaagaaag cagccaagaa ggcagctgag ttcaacagca acttaaaccg ggagcgcatg 721 gaagaaagaa gagcctattt tgacttacag acacatgtta tccaagtgcc tcaaggaaag 781 tacaaagtgt tgccgacaga ccgaacgaag gtcagttcct acccagtggc tctcatcccg 841 ggacagttcc aggagtatta taagaggtac tcaccagatg agcttcggta cttgccatta 901 aacacagccc tgtatgagcc gcccctggac ccagagctcc cggcactaga tagtgatgga 961 gactcagatg atggcgaaga tggcggaggg gatgagaagc ggaagaataa aggcacttcg 1021 gacagctcct caggcaatgt gtctgaagga gacagccccc ctgacagcca ggaggacacc 1081 ttccacggaa gacagaaatc aaaagacaaa atggccactc caagaaaaga cggctccaaa 1141 cgttctgtac tgtccaaatc agctcctggg tacaagccaa aggtcattcc aaatgctcta 1201 tgtggaattt gtctgaaggg taaggagtcc aacaagaaag gaaaggctga atcacttata 1261 cactgctccc agtgtgataa cagtggccac ccttcttgct tggatatgac catggagctt 1321 gtttctatga ttaagaccta cccatggcag tgtatggaat gtaagacatg cattatatgt 1381 ggacagcccc accatgaaga agaaatgatg ttctgtgatg tgtgtgacag aggttatcat 1441 actttttgtg tgggccttgg tgctattcct tcaggtcgct ggatttgtga ctgttgtcag 1501 cgagctcccc caacacccag gaaagtgggc agaaggggga aaaacagcaa agaggggtaa 1561 aataggcttt gaccctcatg tttgggatat ttggtgccaa tttatttaca acactttcat 1621 ttttatgcca ataaaaactt ttttgaaatt aacgatgacc ttaaa SEQ ID NO: 24 Mouse PHF10 Amino Acid Sequence (NP_077212.3) 1 maaagpgaal spgrcdsdpa spgaqspkdd nednsndgth pckrrrmgsg dssrscetss 61 qdlsfsyypa enlieykwpp detgeyymlq eqvseylgvt sfkrkypdle rrdlshkekl 121 ylrelnvite tqctlgltal rsdevidlmi keypakhaey svilgekerq ritdhykeys 181 qmqqqstqkv easkvpeyik kaakkaaefn snlnrermee rrayfdlqth viqvpqgkyk 241 vlptdrtkvs sypvalipgq fqeyykrysp delrylpint alyeppldpe lpaldsdgds 301 ddgedgggde krknkgtsds ssgnvsegds ppdsqedtfh grqkskdkma tprkdgskrs 361 vlsksapgyk pkvipnalcg iclkgkesnk kgkaeslihc sqcdnsghps cldmtmelvs 421 miktypwqcm ecktciicgq phheeemmfc dvcdrgyhtf cvglgaipsg rwicdccqra 481 pptprkvgrr gknskeg SEQ ID NO: 25 Human ARID1A cDNA Sequence Variant 1 (NM_006015.4, CDS: from 374 to 7231) 1 cagaaagcgg agagtcacag cggggccagg ccctggggag cggagcctcc accgcccccc 61 tcattcccag gcaagggctt ggggggaatg agccgggaga gccgggtccc gagcctacag 121 agccgggagc agctgagccg ccggcgcctc ggccgccgcc gccgcctcct cctcctccgc 181 cgccgccagc ccggagcctg agccggcggg gcggggggga gaggagcgag cgcagcgcag 241 cagcggagcc ccgcgaggcc cgcccgggcg ggtggggagg gcagcccggg ggactgggcc 301 ccggggcggg gtgggagggg gggagaagac gaagacaggg ccgggtctct ccgcggacga 361 gacagcgggg atcatggccg cgcaggtcgc ccccgccgcc gccagcagcc tgggcaaccc 421 gccgccgccg ccgccctcgg agctgaagaa agccgagcag cagcagcggg aggaggcggg 481 gggcgaggcg gcggcggcgg cagcggccga gcgcggggaa atgaaggcag ccgccgggca 541 ggaaagcgag ggccccgccg tggggccgcc gcagccgctg ggaaaggagc tgcaggacgg 601 ggccgagagc aatgggggtg gcggcggcgg cggagccggc agcggcggcg ggcccggcgc 661 ggagccggac ctgaagaact cgaacgggaa cgcgggccct aggcccgccc tgaacaataa 721 cctcacggag ccgcccggcg gcggcggtgg cggcagcagc gatggggtgg gggcgcctcc 781 tcactcagcc gcggccgcct tgccgccccc agcctacggc ttcgggcaac cctacggccg 841 gagcccgtct gccgtcgccg ccgccgcggc cgccgtcttc caccaacaac atggcggaca 901 acaaagccct ggcctggcag cgctgcagag cggcggcggc gggggcctgg agccctacgc 961 ggggccccag cagaactctc acgaccacgg cttccccaac caccagtaca actcctacta 1021 ccccaaccgc agcgcctacc ccccgcccgc cccggcctac gcgctgagct ccccgagagg 1081 tggcactccg ggctccggcg cggcggcggc tgccggctcc aagccgcctc cctcctccag 1141 cgcctccgcc tcctcgtcgt cttcgtcctt cgctcagcag cgcttcgggg ccatgggggg 1201 aggcggcccc tccgcggccg gcgggggaac tccccagccc accgccaccc ccaccctcaa 1261 ccaactgctc acgtcgccca gctcggcccg gggctaccag ggctaccccg ggggcgacta 1321 cagtggcggg ccccaggacg ggggcgccgg caagggcccg gcggacatgg cctcgcagtg 1381 ttggggggct gcggcggcgg cagctgcggc ggcggccgcc tcgggagggg cccaacaaag 1441 gagccaccac gcgcccatga gccccgggag cagcggcggc ggggggcagc cgctcgcccg 1501 gacccctcag ccatccagtc caatggatca gatgggcaag atgagacctc agccatatgg 1561 cgggactaac ccatactcgc agcaacaggg acctccgtca ggaccgcagc aaggacatgg 1621 gtacccaggg cagccatacg ggtcccagac cccgcagcgg tacccgatga ccatgcaggg 1681 ccgggcgcag agtgccatgg gcggcctctc ttatacacag cagattcctc cttatggaca 1741 acaaggcccc agcgggtatg gtcaacaggg ccagactcca tattacaacc agcaaagtcc 1801 tcaccctcag cagcagcagc caccctactc ccagcaacca ccgtcccaga cccctcatgc 1861 ccaaccttcg tatcagcagc agccacagtc tcaaccacca cagctccagt cctctcagcc 1921 tccatactcc cagcagccat cccagcctcc acatcagcag tccccggctc catacccctc 1981 ccagcagtcg acgacacagc agcaccccca gagccagccc ccctactcac agccacaggc 2041 tcagtctcct taccagcagc agcaacctca gcagccagca ccctcgacgc tctcccagca 2101 ggctgcgtat cctcagcccc agtctcagca gtcccagcaa actgcctatt cccagcagcg 2161 cttccctcca ccgcaggagc tatctcaaga ttcatttggg tctcaggcat cctcagcccc 2221 ctcaatgacc tccagtaagg gagggcaaga agatatgaac ctgagccttc agtcaagacc 2281 ctccagcttg cctgatctat ctggttcaat agatgacctc cccatgggga cagaaggagc 2341 tctgagtcct ggagtgagca catcagggat ttccagcagc caaggagagc agagtaatcc 2401 agctcagtct cctttctctc ctcatacctc ccctcacctg cctggcatcc gaggcccttc 2461 cccgtcccct gttggctctc ccgccagtgt tgctcagtct cgctcaggac cactctcgcc 2521 tgctgcagtg ccaggcaacc agatgccacc tcggccaccc agtggccagt cggacagcat 2581 catgcatcct tccatgaacc aatcaagcat tgcccaagat cgaggttata tgcagaggaa 2641 cccccagatg ccccagtaca gttcccccca gcccggctca gccttatctc cgcgtcagcc 2701 ttccggagga cagatacaca caggcatggg ctcctaccag cagaactcca tggggagcta 2761 tggtccccag gggggtcagt atggcccaca aggtggctac cccaggcagc caaactataa 2821 tgccttgccc aatgccaact accccagtgc aggcatggct ggaggcataa accccatggg 2881 tgccggaggt caaatgcatg gacagcctgg catcccacct tatggcacac tccctccagg 2941 gaggatgagt cacgcctcca tgggcaaccg gccttatggc cctaacatgg ccaatatgcc 3001 acctcaggtt gggtcaggga tgtgtccccc accagggggc atgaaccgga aaacccaaga 3061 aactgctgtc gccatgcatg ttgctgccaa ctctatccaa aacaggccgc caggctaccc 3121 caatatgaat caagggggca tgatgggaac tggacctcct tatggacaag ggattaatag 3181 tatggctggc atgatcaacc ctcagggacc cccatattcc atgggtggaa ccatggccaa 3241 caattctgca gggatggcag ccagcccaga gatgatgggc cttggggatg taaagttaac 3301 tccagccacc aaaatgaaca acaaggcaga tgggacaccc aagacagaat ccaaatccaa 3361 gaaatccagt tcttctacta caaccaatga gaagatcacc aagttgtatg agctgggtgg 3421 tgagcctgag aggaagatgt gggtggaccg ttatctggcc ttcactgagg agaaggccat 3481 gggcatgaca aatctgcctg ctgtgggtag gaaacctctg gacctctatc gcctctatgt 3541 gtctgtgaag gagattggtg gattgactca ggtcaacaag aacaaaaaat ggcgggaact 3601 tgcaaccaac ctcaatgtgg gcacatcaag cagtgctgcc agctccttga aaaagcagta 3661 tatccagtgt ctctatgcct ttgaatgcaa gattgaacgg ggagaagacc ctcccccaga 3721 catctttgca gctgctgatt ccaagaagtc ccagcccaag atccagcctc cctctcctgc 3781 gggatcagga tctatgcagg ggccccagac tccccagtca accagcagtt ccatggcaga 3841 aggaggagac ttaaagccac caactccagc atccacacca cacagtcaga tccccccatt 3901 gccaggcatg agcaggagca attcagttgg gatccaggat gcctttaatg atggaagtga 3961 ctccacattc cagaagcgga attccatgac tccaaaccct gggtatcagc ccagtatgaa 4021 tacctctgac atgatggggc gcatgtccta tgagccaaat aaggatcctt atggcagcat 4081 gaggaaagct ccagggagtg atcccttcat gtcctcaggg cagggcccca acggcgggat 4141 gggtgacccc tacagtcgtg ctgccggccc tgggctagga aatgtggcga tgggaccacg 4201 acagcactat ccctatggag gtccttatga cagagtgagg acggagcctg gaatagggcc 4261 tgagggaaac atgagcactg gggccccaca gccgaatctc atgccttcca acccagactc 4321 ggggatgtat tctcctagcc gctacccccc gcagcagcag cagcagcagc agcaacgaca 4381 tgattcctat ggcaatcagt tctccaccca aggcacccct tctggcagcc ccttccccag 4441 ccagcagact acaatgtatc aacagcaaca gcagaattac aagcggccaa tggatggcac 4501 atatggccct cctgccaagc ggcacgaagg ggagatgtac agcgtgccat acagcactgg 4561 gcaggggcag cctcagcagc agcagttgcc cccagcccag ccccagcctg ccagccagca 4621 acaagctgcc cagccttccc ctcagcaaga tgtatacaac cagtatggca atgcctatcc 4681 tgccactgcc acagctgcta ctgagcgccg accagcaggc ggcccccaga accaatttcc 4741 attccagttt ggccgagacc gtgtctctgc accccctggc accaatgccc agcaaaacat 4801 gccaccacaa atgatgggcg gccccataca ggcatcagct gaggttgctc agcaaggcac 4861 catgtggcag gggcgtaatg acatgaccta taattatgcc aacaggcaga gcacgggctc 4921 tgccccccag ggccccgcct atcatggcgt gaaccgaaca gatgaaatgc tgcacacaga 4981 tcagagggcc aaccacgaag gctcgtggcc ttcccatggc acacgccagc ccccatatgg 5041 tccctctgcc cctgtgcccc ccatgacaag gccccctcca tctaactacc agcccccacc 5101 aagcatgcag aatcacattc ctcaggtatc cagccctgct cccctgcccc ggccaatgga 5161 gaaccgcacc tctcctagca agtctccatt cctgcactct gggatgaaaa tgcagaaggc 5221 aggtccccca gtacctgcct cgcacatagc acctgcccct gtgcagcccc ccatgattcg 5281 gcgggatatc accttcccac ctggctctgt tgaagccaca cagcctgtgt tgaagcagag 5341 gaggcggctc acaatgaaag acattggaac cccggaggca tggcgggtaa tgatgtccct 5401 caagtctggt ctcctggcag agagcacatg ggcattagat accatcaaca tcctgctgta 5461 tgatgacaac agcatcatga ccttcaacct cagtcagctc ccagggttgc tagagctcct 5521 tgtagaatat ttccgacgat gcctgattga gatctttggc attttaaagg agtatgaggt 5581 gggtgaccca ggacagagaa cgctactgga tcctgggagg ttcagcaagg tgtctagtcc 5641 agctcccatg gagggtgggg aagaagaaga agaacttcta ggtcctaaac tagaagagga 5701 agaagaagag gaagtagttg aaaatgatga ggagatagcc ttttcaggca aggacaagcc 5761 agcttcagag aatagtgagg agaagctgat cagtaagttt gacaagcttc cagtaaagat 5821 cgtacagaag aatgatccat ttgtggtgga ctgctcagat aagcttgggc gtgtgcagga 5881 gtttgacagt ggcctgctgc actggcggat tggtgggggg gacaccactg agcatatcca 5941 gacccacttc gagagcaaga cagagctgct gccttcccgg cctcacgcac cctgcccacc 6001 agcccctcgg aagcatgtga caacagcaga gggtacacca gggacaacag accaggaggg 6061 gcccccacct gatggacctc cagaaaaacg gatcacagcc actatggatg acatgttgtc 6121 tactcggtct agcaccttga ccgaggatgg agctaagagt tcagaggcca tcaaggagag 6181 cagcaagttt ccatttggca ttagcccagc acagagccac cggaacatca agatcctaga 6241 ggacgaaccc cacagtaagg atgagacccc actgtgtacc cttctggact ggcaggattc 6301 tcttgccaag cgctgcgtct gtgtgtccaa taccattcga agcctgtcat ttgtgccagg 6361 caatgacttt gagatgtcca aacacccagg gctgctgctc atcctgggca agctgatcct 6421 gctgcaccac aagcacccag aacggaagca ggcaccacta acttatgaaa aggaggagga 6481 acaggaccaa ggggtgagct gcaacaaagt ggagtggtgg tgggactgct tggagatgct 6541 ccgggaaaac accttggtta cactcgccaa catctcgggg cagttggacc tatctccata 6601 ccccgagagc atttgcctgc ctgtcctgga cggactccta cactgggcag tttgcccttc 6661 agctgaagcc caggacccct tttccaccct gggccccaat gccgtccttt ccccgcagag 6721 actggtcttg gaaaccctca gcaaactcag catccaggac aacaatgtgg acctgattct 6781 ggccacaccc cccttcagcc gcctggagaa gttgtatagc actatggtgc gcttcctcag 6841 tgaccgaaag aacccggtgt gccgggagat ggctgtggta ctgctggcca acctggctca 6901 gggggacagc ctggcagctc gtgccattgc agtgcagaag ggcagtatcg gcaacctcct 6961 gggcttccta gaggacagcc ttgccgccac acagttccag cagagccagg ccagcctcct 7021 ccacatgcag aacccaccct ttgagccaac tagtgtggac atgatgcggc gggctgcccg 7081 cgcgctgctt gccttggcca aggtggacga gaaccactca gagtttactc tgtacgaatc 7141 acggctgttg gacatctcgg tatcaccgtt gatgaactca ttggtttcac aagtcatttg 7201 tgatgtactg tttttgattg gccagtcatg acagccgtgg gacacctccc ccccccgtgt 7261 gtgtgtgcgt gtgtggagaa cttagaaact gactgttgcc ctttatttat gcaaaaccac 7321 ctcagaatcc agtttaccct gtgctgtcca gcttctccct tgggaaaaag tctctcctgt 7381 ttctctctcc tccttccacc tcccctccct ccatcacctc acgcctttct gttccttgtc 7441 ctcaccttac tcccctcagg accctacccc accctctttg aaaagacaaa gctctgccta 7501 catagaagac tttttttatt ttaaccaaag ttactgttgt ttacagtgag tttggggaaa 7561 aaaaataaaa taaaaatggc tttcccagtc cttgcatcaa cgggatgcca catttcataa 7621 ctgtttttaa tggtaaaaaa aaaaaaaaaa aatacaaaaa aaaattctga aggacaaaaa 7681 aggtgactgc tgaactgtgt gtggtttatt gttgtacatt cacaatcttg caggagccaa 7741 gaagttcgca gttgtgaaca gaccctgttc actggagagg cctgtgcagt agagtgtaga 7801 ccctttcatg tactgtactg tacacctgat actgtaaaca tactgtaata ataatgtctc 7861 acatggaaac agaaaacgct gggtcagcag caagctgtag tttttaaaaa tgtttttagt 7921 taaacgttga ggagaaaaaa aaaaaaggct tttcccccaa agtatcatgt gtgaacctac 7981 aacaccctga cctctttctc tcctccttga ttgtatgaat aaccctgaga tcacctctta 8041 gaactggttt taacctttag ctgcagcggc tacgctgcca cgtgtgtata tatatgacgt 8101 tgtacattgc acataccctt ggatccccac agtttggtcc tcctcccagc taccccttta 8161 tagtatgacg agttaacaag ttggtgacct gcacaaagcg agacacagct atttaatctc 8221 ttgccagata tcgcccctct tggtgcgatg ctgtacaggt ctctgtaaaa agtccttgct 8281 gtctcagcag ccaatcaact tatagtttat ttttttctgg gtttttgttt tgttttgttt 8341 tctttctaat cgaggtgtga aaaagttcta ggttcagttg aagttctgat gaagaaacac 8401 aattgagatt ttttcagtga taaaatctgc atatttgtat ttcaacaatg tagctaaaac 8461 ttgatgtaaa ttcctccttt ttttcctttt ttggcttaat gaatatcatt tattcagtat 8521 gaaatcttta tactatatgt tccacgtgtt aagaataaat gtacattaaa tcttggtaag 8581 acttt SEQ ID NO: 26 Human ARID1A Amino Acid Sequence isoform A (NP_006006.3) 1 maaqvapaaa sslgnppppp pselkkaeqq qreeaggeaa aaaaaergem kaaagqeseg 61 pavgppqplg kelqdgaesn gggggggags gggpgaepdl knsngnagpr palnnnltep 121 pggggggssd gvgapphsaa aalpppaygf gqpygrspsa vaaaaaavfh qqhggqqspg 181 laalqsgggg glepyagpqq nshdhgfpnh qynsyypnrs aypppapaya lssprggtpg 241 sgaaaaagsk pppsssasas sssssfaqqr fgamggggps aagggtpqpt atptlnqllt 301 spssargyqg ypggdysggp qdggagkgpa dmasqcwgaa aaaaaaaaas ggaqqrshha 361 pmspgssggg gqplartpqp sspmdqmgkm rpqpyggtnp ysqqqgppsg pqqghgypgq 421 pygsqtpqry pmtmggraqs amgglsytqq ippygqqgps gygqqgqtpy ynggsphpqg 481 qqppysqqpp sqtphaqpsy qqqpqsqppq lqssqppysq qpsqpphqqs papypsqqst 541 tqqhpqsqpp ysqpqaqspy qqqqpqqpap stlsqqaayp qpqsqqsqqt aysqqrfppp 601 qelsqdsfgs qassapsmts skggqedmnl slqsrpsslp dlsgsiddlp mgtegalspg 661 vstsgisssq gegsnpagsp fsphtsphlp girgpspspv gspasvaqsr sgplspaavp 721 gnqmpprpps gqsdsimhps mngssiaqdr gymqrnpqmp qysspqpgsa lsprqpsggq 781 ihtgmgsyqq nsmgsygpqg gqygpqggyp rqpnynalpn anypsagmag ginpmgaggq 841 mhgqpgippy gtlppgrmsh asmgnrpygp nmanmppqvg sgmcpppggm nrktqetava 901 mhvaansiqn rppgypnmnq ggmmgtgppy gqginsmagm inpqgppysm ggtmannsag 961 maaspemmgl gdvkltpatk mnnkadgtpk teskskksss stttnekitk lyelggeper 1021 kmwvdrylaf teekamgmtn lpavgrkpld lyrlyvsvke iggltqvnkn kkwrelatnl 1081 nvgtsssaas slkkgyiqcl yafeckierg edpppdifaa adskksqpki qppspagsgs 1141 mqgpqtpqst sssmaeggdl kpptpastph sqipplpgms rsnsvgigda fndgsdstfq 1201 krnsmtpnpg yqpsmntsdm mgrmsyepnk dpygsmrkap gsdpfmssgq gpnggmgdpy 1261 sraagpglgn vamgprqhyp yggpydrvrt epgigpegnm stgapqpnlm psnpdsgmys 1321 psryppqqqq qqqqrhdsyg nqfstqgtps gspfpsqqtt myqqqqqnyk rpmdgtygpp 1381 akrhegemys vpystgqgqp qqqqlppaqp qpasqqqaaq pspqqdvynq ygnaypatat 1441 aaterrpagg pqnqfpfqfg rdrvsappgt naqqnmppqm mggpiqasae vaqqgtmwqg 1501 rndmtynyan rqstgsapqg payhgvnrtd emlhtdqran hegswpshgt rqppygpsap 1561 vppmtrppps nyqpppsmqn hipqvsspap lprpmenrts pskspflhsg mkmqkagppv 1621 pashiapapv qppmirrdit fppgsveatq pvlkgrrrlt mkdigtpeaw rvmmslksgl 1681 laestwaldt inillyddns imtfnlsqlp gllellveyf rrclieifgi lkeyevgdpg 1741 qrtlldpgrf skvsspapme ggeeeeellg pkleeeeeee vvendeeiaf sgkdkpasen 1801 seekliskfd klpvkivqkn dpfvvdcsdk lgrvqefdsg llhwrigggd ttehigthfe 1861 sktellpsrp hapcppaprk hvttaegtpg ttdgegpppd gppekritat mddmlstrss 1921 tltedgakss eaikesskfp fgispaqshr nikiledeph skdetplctl ldwqdslakr 1981 cvcvsntirs lsfvpgndfe mskhpgllli lgklillhhk hperkqaplt yekeeeqdqg 2041 vscnkvewww dclemlrent lvtlanisgq ldlspypesi clpvldgllh wavcpsaeaq 2101 dpfstlgpna vlspqrlvle tlsklsiqdn nvdlilatpp fsrleklyst mvrflsdrkn 2161 pvcremavvl lanlaggdsl aaraiavqkg signllgfle dslaatqfqq sgasllhmqn 2221 ppfeptsvdm mrraaralla lakvdenhse ftlyesrlld isysplmnsl vsqvicdvlf 2281 ligqs SEQ ID NO: 27 Human ARID1A cDNA Sequence Variant 2 (NM_139135.2, CDS: from 374 to 6580) 1 cagaaagcgg agagtcacag cggggccagg ccctggggag cggagcctcc accgcccccc 61 tcattcccag gcaagggctt ggggggaatg agccgggaga gccgggtccc gagcctacag 121 agccgggagc agctgagccg ccggcgcctc ggccgccgcc gccgcctcct cctcctccgc 181 cgccgccagc ccggagcctg agccggcggg gcggggggga gaggagcgag cgcagcgcag 241 cagcggagcc ccgcgaggcc cgcccgggcg ggtggggagg gcagcccggg ggactgggcc 301 ccggggcggg gtgggagggg gggagaagac gaagacaggg ccgggtctct ccgcggacga 361 gacagcgggg atcatggccg cgcaggtcgc ccccgccgcc gccagcagcc tgggcaaccc 481 gggcgaggcg gcggcggcgg cagcggccga gcgcggggaa atgaaggcag ccgccgggca 541 ggaaagcgag ggccccgccg tggggccgcc gcagccgctg ggaaaggagc tgcaggacgg 601 ggccgagagc aatgggggtg gcggcggcgg cggagccggc agcggcggcg ggcccggcgc 661 ggagccggac ctgaagaact cgaacgggaa cgcgggccct aggcccgccc tgaacaataa 721 cctcacggag ccgcccggcg gcggcggtgg cggcagcagc gatggggtgg gggcgcctcc 781 tcactcagcc gcggccgcct tgccgccccc agcctacggc ttcgggcaac cctacggccg 841 gagcccgtct gccgtcgccg ccgccgcggc cgccgtcttc caccaacaac atggcggaca 901 acaaagccct ggcctggcag cgctgcagag cggcggcggc gggggcctgg agccctacgc 961 ggggccccag cagaactctc acgaccacgg cttccccaac caccagtaca actcctacta 1021 ccccaaccgc agcgcctacc ccccgcccgc cccggcctac gcgctgagct ccccgagagg 1081 tggcactccg ggctccggcg cggcggcggc tgccggctcc aagccgcctc cctcctccag 1141 cgcctccgcc tcctcgtcgt cttcgtcctt cgctcagcag cgcttcgggg ccatgggggg 1201 aggcggcccc tccgcggccg gcgggggaac tccccagccc accgccaccc ccaccctcaa 1261 ccaactgctc acgtcgccca gctcggcccg gggctaccag ggctaccccg ggggcgacta 1321 cagtggcggg ccccaggacg ggggcgccgg caagggcccg gcggacatgg cctcgcagtg 1381 ttggggggct gcggcggcgg cagctgcggc ggcggccgcc tcgggagggg cccaacaaag 1441 gagccaccac gcgcccatga gccccgggag cagcggcggc ggggggcagc cgctcgcccg 1501 gacccctcag ccatccagtc caatggatca gatgggcaag atgagacctc agccatatgg 1561 cgggactaac ccatactcgc agcaacaggg acctccgtca ggaccgcagc aaggacatgg 1621 gtacccaggg cagccatacg ggtcccagac cccgcagcgg tacccgatga ccatgcaggg 1681 ccgggcgcag agtgccatgg gcggcctctc ttatacacag cagattcctc cttatggaca 1741 acaaggcccc agcgggtatg gtcaacaggg ccagactcca tattacaacc agcaaagtcc 1801 tcaccctcag cagcagcagc caccctactc ccagcaacca ccgtcccaga cccctcatgc 1861 ccaaccttcg tatcagcagc agccacagtc tcaaccacca cagctccagt cctctcagcc 1921 tccatactcc cagcagccat cccagcctcc acatcagcag tccccggctc catacccctc 1981 ccagcagtcg acgacacagc agcaccccca gagccagccc ccctactcac agccacaggc 2041 tcagtctcct taccagcagc agcaacctca gcagccagca ccctcgacgc tctcccagca 2101 ggctgcgtat cctcagcccc agtctcagca gtcccagcaa actgcctatt cccagcagcg 2161 cttccctcca ccgcaggagc tatctcaaga ttcatttggg tctcaggcat cctcagcccc 2221 ctcaatgacc tccagtaagg gagggcaaga agatatgaac ctgagccttc agtcaagacc 2281 ctccagcttg cctgatctat ctggttcaat agatgacctc cccatgggga cagaaggagc 2341 tctgagtcct ggagtgagca catcagggat ttccagcagc caaggagagc agagtaatcc 2401 agctcagtct cctttctctc ctcatacctc ccctcacctg cctggcatcc gaggcccttc 2461 cccgtcccct gttggctctc ccgccagtgt tgctcagtct cgctcaggac cactctcgcc 2521 tgctgcagtg ccaggcaacc agatgccacc tcggccaccc agtggccagt cggacagcat 2581 catgcatcct tccatgaacc aatcaagcat tgcccaagat cgaggttata tgcagaggaa 2641 cccccagatg ccccagtaca gttcccccca gcccggctca gccttatctc cgcgtcagcc 2701 ttccggagga cagatacaca caggcatggg ctcctaccag cagaactcca tggggagcta 2761 tggtccccag gggggtcagt atggcccaca aggtggctac cccaggcagc caaactataa 2821 tgccttgccc aatgccaact accccagtgc aggcatggct ggaggcataa accccatggg 2881 tgccggaggt caaatgcatg gacagcctgg catcccacct tatggcacac tccctccagg 2941 gaggatgagt cacgcctcca tgggcaaccg gccttatggc cctaacatgg ccaatatgcc 3001 acctcaggtt gggtcaggga tgtgtccccc accagggggc atgaaccgga aaacccaaga 3061 aactgctgtc gccatgcatg ttgctgccaa ctctatccaa aacaggccgc caggctaccc 3121 caatatgaat caagggggca tgatgggaac tggacctcct tatggacaag ggattaatag 3181 tatggctggc atgatcaacc ctcagggacc cccatattcc atgggtggaa ccatggccaa 3241 caattctgca gggatggcag ccagcccaga gatgatgggc cttggggatg taaagttaac 3301 tccagccacc aaaatgaaca acaaggcaga tgggacaccc aagacagaat ccaaatccaa 3361 gaaatccagt tcttctacta caaccaatga gaagatcacc aagttgtatg agctgggtgg 3421 tgagcctgag aggaagatgt gggtggaccg ttatctggcc ttcactgagg agaaggccat 3481 gggcatgaca aatctgcctg ctgtgggtag gaaacctctg gacctctatc gcctctatgt 3541 gtctgtgaag gagattggtg gattgactca ggtcaacaag aacaaaaaat ggcgggaact 3601 tgcaaccaac ctcaatgtgg gcacatcaag cagtgctgcc agctccttga aaaagcagta 3661 tatccagtgt ctctatgcct ttgaatgcaa gattgaacgg ggagaagacc ctcccccaga 3721 catctttgca gctgctgatt ccaagaagtc ccagcccaag atccagcctc cctctcctgc 3781 gggatcagga tctatgcagg ggccccagac tccccagtca accagcagtt ccatggcaga 3841 aggaggagac ttaaagccac caactccagc atccacacca cacagtcaga tccccccatt 3901 gccaggcatg agcaggagca attcagttgg gatccaggat gcctttaatg atggaagtga 3961 ctccacattc cagaagcgga attccatgac tccaaaccct gggtatcagc ccagtatgaa 4021 tacctctgac atgatggggc gcatgtccta tgagccaaat aaggatcctt atggcagcat 4081 gaggaaagct ccagggagtg atcccttcat gtcctcaggg cagggcccca acggcgggat 4141 gggtgacccc tacagtcgtg ctgccggccc tgggctagga aatgtggcga tgggaccacg 4201 acagcactat ccctatggag gtccttatga cagagtgagg acggagcctg gaatagggcc 4261 tgagggaaac atgagcactg gggccccaca gccgaatctc atgccttcca acccagactc 4321 ggggatgtat tctcctagcc gctacccccc gcagcagcag cagcagcagc agcaacgaca 4381 tgattcctat ggcaatcagt tctccaccca aggcacccct tctggcagcc ccttccccag 4441 ccagcagact acaatgtatc aacagcaaca gcaggtatcc agccctgctc ccctgccccg 4501 gccaatggag aaccgcacct ctcctagcaa gtctccattc ctgcactctg ggatgaaaat 4561 gcagaaggca ggtcccccag tacctgcctc gcacatagca cctgcccctg tgcagccccc 4621 catgattcgg cgggatatca ccttcccacc tggctctgtt gaagccacac agcctgtgtt 4681 gaagcagagg aggcggctca caatgaaaga cattggaacc ccggaggcat ggcgggtaat 4741 gatgtccctc aagtctggtc tcctggcaga gagcacatgg gcattagata ccatcaacat 4801 cctgctgtat gatgacaaca gcatcatgac cttcaacctc agtcagctcc cagggttgct 4861 agagctcctt gtagaatatt tccgacgatg cctgattgag atctttggca ttttaaagga 4921 gtatgaggtg ggtgacccag gacagagaac gctactggat cctgggaggt tcagcaaggt 4981 gtctagtcca gctcccatgg agggtgggga agaagaagaa gaacttctag gtcctaaact 5041 agaagaggaa gaagaagagg aagtagttga aaatgatgag gagatagcct tttcaggcaa 5101 ggacaagcca gcttcagaga atagtgagga gaagctgatc agtaagtttg acaagcttcc 5161 agtaaagatc gtacagaaga atgatccatt tgtggtggac tgctcagata agcttgggcg 5221 tgtgcaggag tttgacagtg gcctgctgca ctggcggatt ggtggggggg acaccactga 5281 gcatatccag acccacttcg agagcaagac agagctgctg ccttcccggc ctcacgcacc 5341 ctgcccacca gcccctcgga agcatgtgac aacagcagag ggtacaccag ggacaacaga 5401 ccaggagggg cccccacctg atggacctcc agaaaaacgg atcacagcca ctatggatga 5461 catgttgtct actcggtcta gcaccttgac cgaggatgga gctaagagtt cagaggccat 5521 caaggagagc agcaagtttc catttggcat tagcccagca cagagccacc ggaacatcaa 5581 gatcctagag gacgaacccc acagtaagga tgagacccca ctgtgtaccc ttctggactg 5641 gcaggattct cttgccaagc gctgcgtctg tgtgtccaat accattcgaa gcctgtcatt 5701 tgtgccaggc aatgactttg agatgtccaa acacccaggg ctgctgctca tcctgggcaa 5761 gctgatcctg ctgcaccaca agcacccaga acggaagcag gcaccactaa cttatgaaaa 5821 ggaggaggaa caggaccaag gggtgagctg caacaaagtg gagtggtggt gggactgctt 5881 ggagatgctc cgggaaaaca ccttggttac actcgccaac atctcggggc agttggacct 5941 atctccatac cccgagagca tttgcctgcc tgtcctggac ggactcctac actgggcagt 6001 ttgcccttca gctgaagccc aggacccctt ttccaccctg ggccccaatg ccgtcctttc 6061 cccgcagaga ctggtcttgg aaaccctcag caaactcagc atccaggaca acaatgtgga 6121 cctgattctg gccacacccc ccttcagccg cctggagaag ttgtatagca ctatggtgcg 6181 cttcctcagt gaccgaaaga acccggtgtg ccgggagatg gctgtggtac tgctggccaa 6241 cctggctcag ggggacagcc tggcagctcg tgccattgca gtgcagaagg gcagtatcgg 6301 caacctcctg ggcttcctag aggacagcct tgccgccaca cagttccagc agagccaggc 6361 cagcctcctc cacatgcaga acccaccctt tgagccaact agtgtggaca tgatgcggcg 6421 ggctgcccgc gcgctgcttg ccttggccaa ggtggacgag aaccactcag agtttactct 6481 gtacgaatca cggctgttgg acatctcggt atcaccgttg atgaactcat tggtttcaca 6541 agtcatttgt gatgtactgt ttttgattgg ccagtcatga cagccgtggg acacctcccc 6601 cccccgtgtg tgtgtgcgtg tgtggagaac ttagaaactg actgttgccc tttatttatg 6661 caaaaccacc tcagaatcca gtttaccctg tgctgtccag cttctccctt gggaaaaagt 6721 ctctcctgtt tctctctcct ccttccacct cccctccctc catcacctca cgcctttctg 6781 ttccttgtcc tcaccttact cccctcagga ccctacccca ccctctttga aaagacaaag 6841 ctctgcctac atagaagact ttttttattt taaccaaagt tactgttgtt tacagtgagt 6901 ttggggaaaa aaaataaaat aaaaatggct ttcccagtcc ttgcatcaac gggatgccac 6961 atttcataac tgtttttaat ggtaaaaaaa aaaaaaaaaa atacaaaaaa aaattctgaa 7021 ggacaaaaaa ggtgactgct gaactgtgtg tggtttattg ttgtacattc acaatcttgc 7081 aggagccaag aagttcgcag ttgtgaacag accctgttca ctggagaggc ctgtgcagta 7141 gagtgtagac cctttcatgt actgtactgt acacctgata ctgtaaacat actgtaataa 7201 taatgtctca catggaaaca gaaaacgctg ggtcagcagc aagctgtagt ttttaaaaat 7261 gtttttagtt aaacgttgag gagaaaaaaa aaaaaggctt ttcccccaaa gtatcatgtg 7321 tgaacctaca acaccctgac ctctttctct cctccttgat tgtatgaata accctgagat 7381 cacctcttag aactggtttt aacctttagc tgcagcggct acgctgccac gtgtgtatat 7441 atatgacgtt gtacattgca catacccttg gatccccaca gtttggtcct cctcccagct 7501 acccctttat agtatgacga gttaacaagt tggtgacctg cacaaagcga gacacagcta 7561 tttaatctct tgccagatat cgcccctctt ggtgcgatgc tgtacaggtc tctgtaaaaa 7621 gtccttgctg tctcagcagc caatcaactt atagtttatt tttttctggg tttttgtttt 7681 gttttgtttt ctttctaatc gaggtgtgaa aaagttctag gttcagttga agttctgatg 7741 aagaaacaca attgagattt tttcagtgat aaaatctgca tatttgtatt tcaacaatgt 7801 agctaaaact tgatgtaaat tcctcctttt tttccttttt tggcttaatg aatatcattt 7861 attcagtatg aaatctttat actatatgtt ccacgtgtta agaataaatg tacattaaat 7921 cttggtaaga cttt SEQ ID NO: 28 Human ARID1A Amino Acid Sequence isoforrn B (NP_624361.1) 1 maaqvapaaa sslgnppppp pselkkaeqq qreeaggeaa aaaaaergem kaaagqeseg 61 pavgppqplg kelqdgaesn gggggggags gggpgaepdl knsngnagpr palnnnltep 121 pggggggssd gvgapphsaa aalpppaygf gqpygrspsa vaaaaaavfh qqhggqqspg 181 laalqsgggg glepyagpqq nshdhgfpnh qynsyypnrs aypppapaya lssprggtpg 241 sgaaaaagsk pppsssasas sssssfaqqr fgamggggps aagggtpqpt atptlnqllt 301 spssargyqg ypggdysggp qdggagkgpa dmasqcwgaa aaaaaaaaas ggaqqrshha 361 pmspgssggg gqplartpqp sspmdqmgkm rpqpyggtnp ysqqqgppsg pqqghgypgq 421 pygsqtpqry pmtmggraqs amgglsytqq ippygqqgps gygqqgqtpy ynqqsphpqq 481 qqppysqqpp sqtphaqpsy qqqpqsqppq lqssqppysq qpsqpphqqs papypsqqst 541 tqqhpqsqpp ysqpqaqspy qqqqpqqpap stlsqqaayp qpqsqqsqqt aysqqrfppp 601 qelscidsfg qassapsmts skggqedmnl slqsrpsslp dlsgsiddlp mgtegalspg 661 vstsgisssq gegsnpagsp fsphtsphlp girgpspspv gspasvaqsr sgplspaavp 721 gnqmpprpps gqsdsimhps mngssiaqdr gymqrnpqmp qysspqpgsa lsprqpsggq 781 ihtgmgsyqq nsmgsygpqg gqygpqggyp rqpnynalpn anypsagmag ginpmgaggq 841 mhgqpgippy gtlppgrmsh asmgnrpygp nmanmppqvg sgmcpppggm nrktqetava 901 mhvaansiqn rppgypnmnq ggmmgtgppy gqginsmagm inpqgppysm ggtmannsag 961 maaspemmgl gdvkltpatk mnnkadgtpk teskskksss stttnekitk lyelggeper 1021 kmwvdrylaf teekamgmtn lpavgrkpld lyrlyvsvke iggltqvnkn kkwrelatnl 1081 nvgtsssaas slkkgyiqcl yafeckierg edpppdifaa adskksqpki qppspagsgs 1141 mqgpqtpqst sssmaeggdl kpptpastph sqipplpgms rsnsvgigda fndgsdstfq 1201 krnsmtpnpg yqpsmntsdm mgrmsyepnk dpygsmrkap gsdpfmssgq gpnggmgdpy 1261 sraagpglgn vamgprqhyp yggpydrvrt epgigpegnm stgapqpnlm psnpdsgmys 1321 psryppqqqq qqqqrhdsyg nqfstqgtps gspfpsqqtt myqqqqqvss paplprpmen 1381 rtspskspfl hsgmkmqkag ppvpashiap apvqppmirr ditfppgsve atqpvlkgrr 1441 rltmkdigtp eawrvmmslk sgllaestwa ldtinillyd dnsimtfnls qlpgllellv 1501 eyfrrcliei fgilkeyevg dpgqrtlldp grfskvsspa pmeggeeeee llgpkleeee 1561 eeevvendee iafsgkdkpa senseeklis kfdklpvkiv qkndpfvvdc sdklgrvqef 1621 dsgllhwrig ggdttehiqt hfesktellp srphapcppa prkhvttaeg tpgttdgegp 1681 ppdgppekri tatmddmlst rsstltedga ksseaikess kfpfgispaq shrnikiled 1741 ephskdetpl ctlldwgdsl akrcvcvsnt irslsfvpgn dfemskhpgl llilgklill 1801 hhkhperkqa pltyekeeeq dqgvscnkve wwwdclemlr entivtlani sgqldlspyp 1861 esiclpvldg llhwavcpsa eaqdpfstlg pnavlspqrl vletlsklsi qdnnvdlila 1921 tppfsrlekl ystmvrflsd rknpvcrema vvllanlaqg dslaaraiav qkgsignllg 1981 fledslaatq fqqsgasllh mqnppfepts vdmmrraara llalakvden hseftlyesr 2041 lldisysplm nslvsqvicd vlfligqs SEQ ID NO: 29 Mouse ARID1A cDNA Sequence (NM_001080819.1, CDS: from 1 to 6852) 1 atggccgcgc aggtcgcccc cgccgccgcc agcagcctgg gcaacccgcc gccgccgccc 61 tcggagctga agaaagccga gcagcaacag cgggaggagg cggggggcga ggcggcggcg 121 gcagcggccg agcgcgggga aatgaaggca gccgccgggc aggagagcga gggccccgcc 181 gtggggccgc cgcagccgct gggaaaggag ctgcaggacg gggccgagag caatgggggt 241 ggcggcggcg gcggagccgg cagcggcggc gggcccggcg cggagccgga cctgaagaac 301 tcgaacggga acgcgggccc taggcccgcc ctgaacaata acctcccgga gccgcccggc 361 ggcggcggcg gcggcggcag cagcagcagc gacggggtgg gggcgcctcc tcactcggcc 421 gcggccgccc tgccgccccc agcctacggc ttcgggcaag cctacggccg gagcccgtct 481 gccgtcgccg ccgcggcggc cgccgtcttc caccaacaac atggcggaca acaaagccct 541 ggcctggcag cgctgcagag cggcggcggc gggggcttgg agccctacgc cgggccccag 601 cagaactcgc acgaccacgg cttccccaac caccagtaca actcctacta ccccaaccgc 661 agcgcctacc ccccgcctcc ccaggcctac gcgctgagct ccccgagagg tggcactccg 721 ggctccggcg cggcggcggc cgccggctcc aagccgcctc cctcctccag cgcctctgcc 781 tcctcgtcgt cttcgtcctt cgcacagcag cgcttcgggg ccatgggggg aggcggcccc 841 tcagcggccg gcgggggaac tccccagccc accgccaccc ccaccctcaa ccaactgctc 901 acgtcgccca gctcggcccg tggctaccag ggctaccccg ggggcgacta cggcggcggg 961 ccccaggacg ggggcgcggg caaaggcccg gcggacatgg cctcgcagtg ctggggggct 1021 gcggcggcgg cggcggcggc ggcagcggcc gtctcgggag gggcccaaca aaggagccac 1081 cacgcgccca tgagccccgg gagcagcggc ggcggggggc agccgctcgc ccggacccct 1141 cagtcatcca gtccaatgga tcagatggga aagatgagac ctcagccgta tggtgggact 1201 aacccatact cgcaacaaca gggacctcct tcaggaccgc aacaaggaca tgggtaccca 1261 gggcagccat atgggtccca gactccacag cggtacccca tgaccatgca gggccgggct 1321 cagagtgcca tgggcagcct ctcttatgca cagcagattc caccttatgg ccagcaaggc 1381 cccagtgcgt atggccagca gggccagact ccatactata accagcaaag tcctcatccc 1441 cagcagcagc caccttacgc ccagcaacca ccatcccaga cccctcatgc ccagccttcg 1501 tatcagcagc agccgcagac tcagcaacca cagcttcagt cctctcagcc tccatattcc 1561 cagcagccat cccagcctcc acatcagcag tccccaactc catatccctc ccagcagtcc 1621 accacacaac agcatcccca gagccagccc ccctactcac aaccacaggc acagtctccc 1681 taccagcagc agcaacctca gcagccagca tcctcgtcgc tctcccagca ggctgcatat 1741 cctcagcccc agcctcagca gtcccagcaa actgcctatt cccagcagcg cttccctcca 1801 ccacaggagc tttctcaaga ttcatttggg tctcaggcat cctcagcccc ctcaatgacc 1861 tccagtaagg gagggcaaga agatatgaac ctgagtcttc agtcaaggcc ctccagcttg 1921 cctgatctgt ctggttcaat cgatgatctc cccatgggga cagaaggagc tctgagtcct 1981 ggcgtgagca catcagggat ttccagcagc caaggagagc agagcaatcc agctcagtct 2041 cccttttctc ctcacacctc ccctcacctg cctggcatcc gaggcccgtc cccgtcccct 2101 gttggctctc ctgccagtgt cgcgcagtct cgctcaggac cactctcgcc tgctgcagtg 2161 ccaggcaacc agatgccacc tcggccaccc agtggccagt cagacagcat catgcaccct 2221 tccatgaacc aatcaagcat tgcccaagat cgaggttata tgcagaggaa cccccagatg 2281 ccccagtaca cttcccctca gcctggctcg gccttatccc cacgtcagcc gtctggagga 2341 cagatgcact cgggcgtggg ctcctaccag cagaactcca tggggagcta cggcccccag 2401 ggcagtcagt atggcccaca aggaggctat cctaggcagc ctaactataa tgccttgccc 2461 aacgccaact accccaatgc aggcatggcc ggaagtatga accctatggg tgctggaggt 2521 cagatgcatg ggcagcctgg aatcccacct tacggcacac tccctccagg gagaatggct 2581 catgcgtcta tgggcaacag gccctatggc cctaatatgg ccaatatgcc acctcaggtt 2641 gggtcaggga tgtgtcctcc accaggggga atgaacagga aaactcaaga gtctgctgtt 2701 gccatgcatg ttgctgccaa ctctatccaa aacaggccac caggctaccc aaatatgaat 2761 caagggggca tgatgggaac tggacctccc tatggacagg ggatcaatag tatggctggc 2821 atgatcaacc ctcagggacc cccatatcct atgggtggaa ccatggccaa caattcagca 2881 gggatggcag ccagcccaga gatgatgggc cttggggatg ttaagttaac tcccgccaca 2941 aaaatgaaca acaaggcaga tggaacaccc aagacagaat ccaaatctaa gaaatccagt 3001 tcttctacca ccaccaatga gaagatcacc aaattgtatg agttgggtgg tgagcccgag 3061 aggaagatgt gggtggaccg gtacctggcc ttcacagagg agaaggccat gggcatgaca 3121 aatctgcctg ctgtggggag gaagcctctg gacctctatc gcctctatgt gtctgtgaag 3181 gagattggtg ggttgactca ggtcaacaag aacaaaaaat ggcgggaact tgcaaccaac 3241 ctcaatgtgg gtacatcaag cagtgctgcc agctcactga aaaagcagta tatccaatgt 3301 ctctatgcct ttgagtgcaa gatcgagcgt ggagaagacc ctccccccga tatcttcgca 3361 gctgctgact ccaagaagtc ccaacccaag atccagcccc cctctcctgc gggatcaggg 3421 tctatgcagg ggccacaaac tcctcagtca accagcagtt ctatggcaga aggaggagac 3481 ctgaagccac caactccagc atccacacca catagtcaaa ttcccccctt accaggcatg 3541 agcaggagca actcagtcgg aatccaggat gcctttcctg atggaagtga ccccacattc 3601 cagaagcgga attccatgac tccaaaccct gggtaccagc ccagtatgaa tacctctgac 3661 atgatggggc gcatgtccta tgagccaaat aaggatcctt atggcagcat gaggaaagcg 3721 ccaggaagtg atcccttcat gtcctcaggg cagggcccca atggcgggat gggtgatccc 3781 tacagccgtg ctgctggccc tgggctggga agtgtggcga tgggaccacg gcagcactat 3841 ccctatggag gtccttacga cagagtgagg acggagcctg gaatcgggcc tgaaggaaat 3901 atgggcactg gagcccctca gccaaatctc atgccttcca ccccagattc ggggatgtat 3961 tctcctagcc gctacccccc gcagcagcag cagcaacagc agcaacaaca tgattcctat 4021 ggcaatcaat tctctaccca aggcacccct tccagcagcc ccttccccag ccagcagacc 4081 acaatgtatc agcagcagca gcagaattat aagaggccaa tggatggcac atatggcccc 4141 cctgccaagc ggcatgaagg ggagatgtac agtgtgccgt acagcgctgg gcaaggccag 4201 cctcaacagc agcagttgcc tgcagctcag tcccagcctg ccagccagcc acaagctgcc 4261 cagccttccc ctcagcagga cgtgtacaac cagtacagca atgcctaccc tgcctccgcc 4321 accgctgcta ctgatcgccg accagcaggc ggcccccaga accaatttcc attccagttt 4381 ggccgagacc gagtctctgc acctcctggt tccagtgccc agcagaacat gccaccacaa 4441 atgatgggtg gccccataca ggcatcagct gaggttgctc agcagggcac catgtggcag 4501 gggcgaaatg acatgaccta caattatgcc aacaggcaga acacaggctc tgccacccag 4561 ggccctgcgt atcatggtgt gaaccgaaca gatgaaatgc tccacacaga tcagagggcc 4621 aaccatgaag gcccatggcc ttcccatggc acacgccagc ctccgtatgg tccttcagcc 4681 cctgttcccc ccatgacaag gccccctcca tctaactacc agcccccacc aagcatgccg 4741 aatcacattc ctcaggtatc cagccccgct cccctccccc ggcccatgga gaaccgtact 4801 tctcctagca agtctccatt cctgcactct gggatgaaaa tgcaaaaggc gggtccaccg 4861 gtgcctgctt cgcacatagc gcctacccct gtgcagccgc ctatgattcg gcgggatatc 4921 accttcccac ctggctctgt agaggccact cagcctgtgt tgaagcagag aaggcggctc 4981 acaatgaaag acattggaac cccggaggca tggcgggtaa tgatgtccct caagtccggg 5041 ctcctggcag agagcacgtg ggcgttagac accattaaca ttctactgta tgatgacaac 5101 agcattatga ccttcaacct cagccagctc ccaggcttgc tagagctcct tgtggaatat 5161 ttccgtagat gcctaattga aatctttggc attttaaagg agtatgaggt aggggaccca 5221 ggacagagaa cattactaga ccctgggaga ttcaccaagg tgtatagtcc agcccataca 5281 gaggaagaag aggaagaaca ccttgatcct aaactggagg aggaagagga agaaggggtt 5341 ggaaatgatg aggagatggc ctttttgggc aaggacaagc catcttcaga gaataatgag 5401 gagaagctag tcagtaagtt tgacaagctt ccggtaaaga tcgtgcagag gaatgaccca 5461 tttgtggtgg actgctcaga taagcttggg cgcgtgcagg agtttgacag tggcctgcta 5521 cactggcgga ttggtggtgg ggataccact gagcatatcc agacccactt tgagagcaag 5581 atagagctgc tgccttcccg gccttatgtg ccctgcccaa cgccccctcg gaaacacctc 5641 acaacagtag agggcacacc agggacaacg gagcaggagg gccccccgcc cgatggcctt 5701 ccagagaaaa ggatcacagc caccatggat gacatgttgt ctacccggtc tagcacattg 5761 actgatgagg gggcaaagag tgcagaggcc accaaggaaa gcagcaagtt tccatttggc 5821 attagcccag cacagagcca ccggaacatc aaaattttag aggatgaacc ccatagtaag 5881 gatgagaccc cactgtgtac ccttctggac tggcaggatt cccttgctaa gcgctgtgtc 5941 tgtgtctcca ataccatccg gagcctgtcg tttgtgccag gcaacgactt tgagatgtcc 6001 aaacacccag ggctgctgct tatcctgggc aagctgatcc tgctgcacca caagcaccca 6061 gagcggaagc aggcaccact aacttatgag aaggaggagg aacaggacca aggggtgagc 6121 tgtgacaaag tggagtggtg gtgggactgc ttggagatgc tccgagaaaa cacgctggtc 6181 accctcgcca acatctcggg gcaattggac ctatccccat atcctgagag catctgcctg 6241 cctgtcctgg acggactcct acactgggca gtttgccctt cagctgaagc ccaggacccc 6301 ttctcaaccc taggccccaa tgccgtcctc tccccccaga gattggtctt ggaaaccctc 6361 agcaaactca gcatccagga caacaatgtg gacctgatcc tggccactcc cccttttagc 6421 cgcctggaga agttgtatag taccatggtg cgcttcctca gtgaccgaaa gaacccagtg 6481 tgccgggaga tggccgtggt actgctggca aatctggccc agggggacag cctggcagcc 6541 cgggccattg cagtgcagaa gggcagcatc ggcaacctcc tgggtttcct ggaggacagc 6601 cttgctgcca cacagttcca gcagagccag gcaagcctcc tgcatatgca gaatccaccc 6661 tttgaaccaa ctagtgtgga catgatgcgg cgggctgccc gagcactgct tgccctggcc 6721 aaggtggatg agaaccactc agagttcact ctgtatgagt cacggctgtt ggacatctcc 6781 gtgtcaccac tgatgaactc attggtttca caagtcattt gtgatgtact gtttttgatt 6841 ggccagtcat gacagccgtg ggacacctcc cctccccgtg tgtgtgtgag tgtgtggaga 6901 acttagaaac tgactgttgc cctttattta tgcaaaacca cctcagaatc cagtttaccc 6961 tgtgctgtcc agcttctccc ttgggaaagc ctctcctgtt ctctctcctc cccaccctca 7021 ctccctcaca cctttctgtt ccccatcctc acctgcttcc ctcaggaccc caccctattt 7081 gaaaagacaa agctctgcct acatagaaga cttttttatt ttaaccaaag ttactgttgt 7141 ttacagtgag tttggggaaa aaaatggctt tcccagtcct tgcatcaacg ggatgccaca 7201 tttcataact gtttttaatg gttaaaaaaa aaaaaaaaaa aaggaaaaaa aatacaaaaa 7261 aaccctgaag gacaaaggtg actgctgagc tgtgtggttt gtcgctgtcc attcacaatc 7321 tcgcaggagc cgagaagttc gcagttgtga gcagaccctg ttcactggag aggcctgtgc 7381 agtagagtgt agatcctttc atgtactgta ctgtacacct gatactgtaa acatactgta 7441 ataataatgt ctcacatgga aacgagagaa gacgctgggt cagcagcaag ctgtagtttt 7501 taaaaatgtt tttagttaaa tgttgaggag aaaaaaaatg gctttccccc caaagtatcc 7561 tgtgtgaacc tacaacgccc tgacctcttt ctctcctcct tgattgtatg aatagccctg 7621 agatcacctc ttagacctgg ttttaacctt tagctgcagc ggctgcgctg ccacgtgtgt 7681 atatatatga tgttgtacat tgcacatacc cttgaatctc cacagtttgg tccccttccc 7741 agctacccct ttatagtatg gcgagttaac aagttggtga cctgcacaaa gcgagacaca 7801 gctatttaat ctcttgccag acattgcccc tcttggtgca gtgctctaca ggtctctgta 7861 aaaagccctt gctgtctcag cagccaatca acttacagtt tatttttttc tgggtttttg 7921 ttttgttttg tttcatttct aatcgaggtg tgaaaaagtt ctaggttcag ttgaagttcc 7981 tgatgaagaa acacaattga gattttttca gtgataaaat ctgcatattt gtatttcaac 8041 aatgtagcta aaaacttgat gtaaattcct cctttttttt ccttttttgg cttaatgaat 8101 atcatttatt cagtatgaaa tctttatact atatgttcca cgtgttaaga ataaatgtac 8161 attaaatctt ggtaa SEQ ID NO: 30 Mouse ARID1A Amino Acid Sequence (NP_001074288.1) 1 maaqvapaaa sslgnppppp selkkaeqqg reeaggeaaa aaaergemka aagqesegpa 61 vgppqplgke lqdgaesngg gggggagsgg gpgaepdlkn sngnagprpa lnnnlpeppg 121 ggggggssss dgvgapphsa aaalpppayg fgqaygrsps avaaaaaavf hqqhggqqsp 181 glaalqsggg gglepyagpq qnshdhgfpn hqynsyypnr sayppppqay alssprggtp 241 gsgaaaaags kpppsssasa ssssssfaqq rfgamggggp saagggtpqp tatptlnqll 301 tspssargyq gypggdyggg pgdggagkgp admasqcwga aaaaaaaaaa vsggaqqrsh 361 hapmspgssg gggqplartp gssspmdgmg kmrpqpyggt npysqqqgpp sgpqqghgyp 421 gqpygsqtpq rypmtmqgra qsamgslsya gqippygqqg psaygqqgqt pyynqqsphp 481 qqqppyaqqp psqtphaqps yqqqpqtqqp qlgssqppys qqpsqpphqg sptpypsqqs 541 ttqqhpqsqp pysqpqaqsp yqqqqpqqpa ssslsqqaay pqpqpqqsqq taysqqrfpp 601 pqelsqdsfg sqassapsmt sskggqedmn lslgsrpssl pdlsgsiddl pmgtegalsp 661 gvstsgisss qgeqsnpaqs pfsphtsphl pgirgpspsp vgspasvaqs rsgplspaav 721 pgnqmpprpp sgqsdsimhp smngssiaqd rgymqrnpqm pqytspqpgs alsprqpsgg 781 qmhsgvgsyq qnsmgsygpq gsqygpqggy prqpnynalp nanypnagma gsmnpmgagg 841 qmhgqpgipp ygtlppgrma hasmgnrpyg pnmanmppqv gsgmcpppgg mnrktqesav 901 amhvaansiq nrppgypnmn qggmmgtgpp ygqginsmag minpqgppyp mggtmannsa 961 gmaaspemmg lgdvkltpat kmnnkadgtp kteskskkss sstttnekit klyelggepe 1021 rkmwvdryla fteekamgmt nlpavgrkpl dlyrlyvsvk eiggltqvnk nkkwrelatn 1081 lnvgtsssaa sslkkgyiqc lyafeckier gedpppdifa aadskksqpk iqppspagsg 1141 smqgpqtpqs tsssmaeggd lkpptpastp hsqipplpgm srsnsvgiqd afpdgsdptf 1201 qkrnsmtpnp gygpsmntsd mmgrmsyepn kdpygsmrka pgsdpfmssg qgpnggmgdp 1261 ysraagpglg svamgprqhy pyggpydrvr tepgigpegn mgtgapqpnl mpstpdsgmy 1321 spsryppqqq qqqqqqhdsy gnqfstqgtp ssspfpsqqt tmyqqqqqny krpmdgtygp 1381 pakrhegemy svpysagqgq pqqqqlpaaq sqpasqpqaa gpspqqdvyn qysnaypasa 1441 taatdrrpag gpqnqfpfqf grdrvsappg ssaqqnmppq mmggpigasa evaqqgtmwq 1501 grndmtynya nrqntgsatq gpayhgvnrt demlhtdqra nhegpwpshg trqppygpsa 1561 pvppmtrppp snyqpppsmp nhipqvsspa plprpmenrt spskspflhs gmkmqkagpp 1621 vpashiaptp vqppmirrdi tfppgsveat qpvlkgrrrl tmkdigtpea wrvmmslksg 1681 llaestwald tinillyddn simtfnlsql pgllellvey frrclieifg ilkeyevgdp 1741 gqrtlldpgr ftkvyspaht eeeeeehldp kleeeeeegv gndeemaflg kdkpssenne 1801 eklvskfdkl pvkivqrndp fvvdcsdklg rvgefdsgll hwrigggdtt ehigthfesk 1861 iellpsrpyv pcptpprkhl ttvegtpgtt egegpppdgl pekritatmd dmlstrsstl 1921 tdegaksaea tkesskfpfg ispaqshrni kiledephsk detplctlld wqdslakrcv 1981 cvsntirsls fvpgndfems khpglllilg klillhhkhp erkqapltye keeeqdqgvs 2041 cdkvewwwdc lemlrentiv tlanisgqld lspypesicl pvldgllhwa vcpsaeaqdp 2101 fstlgpnavl spqrlvletl sklsiqdnnv dlilatppfs rleklystmv rflsdrknpv 2161 cremavvlla nlaqgdslaa raiavqkgsi gnllgfleds laatqfqqsq asllhmqnpp 2221 feptsvdmmr raarallala kvdenhseft lyesrlldis vsplmnslvs qvicdvlfli 2281 gqs SEQ ID NO: 31 Human ARID1B cDNA Sequence Variant 1 (NM_017519.2, CDS: from 1 to 6711) 1 atggcccata acgcgggcgc cgcggccgcc gccggcaccc acagcgccaa gagcggcggc 61 tccgaggcgg ctctcaagga gggtggaagc gccgccgcgc tgtcctcctc ctcctcctcc 121 tccgcggcgg cagcggcggc atcctcttcc tcctcgtcgg gcccgggctc ggccatggag 181 acggggctgc tccccaacca caaactgaaa accgttggcg aagcccccgc cgcgccgccc 241 caccagcagc accaccacca ccaccatgcc caccaccacc accaccatgc ccaccacctc 301 caccaccacc acgcactaca gcagcagcta aaccagttcc agcagcagca gcagcagcag 361 caacagcagc agcagcagca gcagcaacag caacatccca tttccaacaa caacagcttg 421 ggcggcgcgg gcggcggcgc gcctcagccc ggccccgaca tggagcagcc gcaacatgga 481 ggcgccaagg acagtgctgc gggcggccag gccgaccccc cgggcccgcc gctgctgagc 541 aagccgggcg acgaggacga cgcgccgccc aagatggggg agccggcggg cggccgctac 601 gagcacccgg gcttgggcgc cctgggcacg cagcagccgc cggtcgccgt gcccgggggc 661 ggcggcggcc cggcggccgt cccggagttt aataattact atggcagcgc tgcccctgcg 721 agcggcggcc ccggcggccg cgctgggcct tgctttgatc aacatggcgg acaacaaagc 781 cccgggatgg ggatgatgca ctccgcctcc gccgccgccg ccggggcccc cggcagcatg 841 gaccccctgc agaactccca cgaagggtac cccaacagcc agtgcaacca ttatccgggc 901 tacagccggc ccggcgcggg cggcggcggc ggcggcggcg gcggaggagg aggaggcagc 961 ggaggaggag gaggaggagg aggagcagga gcaggaggag caggagcggg agctgtggcg 1021 gcggcggccg cggcggcggc ggcagcagca ggaggcggcg gcggcggcgg ctatgggggc 1081 tcgtccgcgg ggtacggggt gctgagctcc ccccggcagc agggcggcgg catgatgatg 1141 ggccccgggg gcggcggggc cgcgagcctc agcaaggcgg ccgccggctc ggcggcgggg 1201 ggcttccagc gcttcgccgg ccagaaccag cacccgtcgg gggccacccc gaccctcaat 1261 cagctgctca cctcgcccag ccccatgatg cggagctacg gcggcagcta ccccgagtac 1321 agcagcccca gcgcgccgcc gccgccgccg tcgcagcccc agtcccaggc ggcggcggcg 1381 ggggcggcgg cgggcggcca gcaggcggcc gcgggcatgg gcttgggcaa ggacatgggc 1441 gcccagtacg ccgctgccag cccggcctgg gcggccgcgc aacaaaggag tcacccggcg 1501 atgagccccg gcacccccgg accgaccatg ggcagatccc agggcagccc aatggatcca 1561 atggtgatga agagacctca gttgtatggc atgggcagta accctcattc tcagcctcag 1621 cagagcagtc cgtacccagg aggttcctat ggccctccag gcccacagcg gtatccaatt 1681 ggcatccagg gtcggactcc cggggccatg gccggaatgc agtaccctca gcagcagatg 1741 ccacctcagt atggacagca aggtgtgagt ggttactgcc agcagggcca acagccatat 1801 tacagccagc agccgcagcc cccgcacctc ccaccccagg cgcagtatct gccgtcccag 1861 tcccagcaga ggtaccagcc gcagcaggac atgtctcagg aaggctatgg aactagatct 1921 caacctcctc tggcccccgg aaaacctaac catgaagact tgaacttaat acagcaagaa 1981 agaccatcaa gtttaccaga tctgtctggc tccattgatg acctccccac gggaacggaa 2041 gcaactttga gctcagcagt cagtgcatcc gggtccacga gcagccaagg ggatcagagc 2101 aacccggcgc agtcgccttt ctccccacat gcgtcccctc atctctccag catcccgggg 2161 ggcccatctc cctctcctgt tggctctcct gtaggaagca accagtctcg atctggccca 2221 atctctcctg caagtatccc aggtagtcag atgcctccgc agccacccgg gagccagtca 2281 gaatccagtt cccatcccgc cttgagccag tcaccaatgc cacaggaaag aggttttatg 2341 gcaggcacac aaagaaaccc tcagatggct cagtatggac ctcaacagac aggaccatcc 2401 atgtcgcctc atccttctcc tgggggccag atgcatgctg gaatcagtag ctttcagcag 2461 agtaactcaa gtgggactta cggtccacag atgagccagt atggaccaca aggtaactac 2521 tccagacccc cagcgtatag tggggtgccc agtgcaagct acagcggccc agggcccggt 2581 atgggtatca gtgccaacaa ccagatgcat ggacaagggc caagccagcc atgtggtgct 2641 gtgcccctgg gacgaatgcc atcagctggg atgcagaaca gaccatttcc tggaaatatg 2701 agcagcatga cccccagttc tcctggcatg tctcagcagg gagggccagg aatggggccg 2761 ccaatgccaa ctgtgaaccg taaggcacag gaggcagccg cagcagtgat gcaggctgct 2821 gcgaactcag cacaaagcag gcaaggcagt ttccccggca tgaaccagag tggacttatg 2881 gcttccagct ctccctacag ccagcccatg aacaacagct ctagcctgat gaacacgcag 2941 gcgccgccct acagcatggc gcccgccatg gtgaacagct cggcagcatc tgtgggtctt 3001 gcagatatga tgtctcctgg tgaatccaaa ctgcccctgc ctctcaaagc agacggcaaa 3061 gaagaaggca ctccacagcc cgagagcaag tcaaagaagt ccagctcctc caccactact 3121 ggggagaaga tcacgaaggt gtacgagctg gggaatgagc cagagagaaa gctctgggtc 3181 gaccgatacc tcaccttcat ggaagagaga ggctctcctg tctcaagtct gcctgccgtg 3241 ggcaagaagc ccctggacct gttccgactc tacgtctgcg tcaaagagat cgggggtttg 3301 gcccaggtta ataaaaacaa gaagtggcgt gagctggcaa ccaacctaaa cgttggcacc 3361 tcaagcagtg cagcgagctc cctgaaaaag cagtatattc agtacctgtt tgcctttgag 3421 tgcaagatcg aacgtgggga ggagcccccg ccggaagtct tcagcaccgg ggacaccaaa 3481 aagcagccca agctccagcc gccatctcct gctaactcgg gatccttgca aggcccacag 3541 accccccagt caactggcag caattccatg gcagaggttc caggtgacct gaagccacct 3601 accccagcct ccacccctca cggccagatg actccaatgc aaggtggaag aagcagtaca 3661 atcagtgtgc acgacccatt ctcagatgtg agtgattcat ccttcccgaa acggaactcc 3721 atgactccaa acgcccccta ccagcagggc atgagcatgc ccgatgtgat gggcaggatg 3781 ccctatgagc ccaacaagga cccctttggg ggaatgagaa aagtgcctgg aagcagcgag 3841 ccctttatga cgcaaggaca gatgcccaac agcagcatgc aggacatgta caaccaaagt 3901 ccctccggag caatgtctaa cctgggcatg gggcagcgcc agcagtttcc ctatggagcc 3961 agttacgacc gaaggcatga accttatggg cagcagtatc caggccaagg ccctccctcg 4021 ggacagccgc cgtatggagg gcaccagccc ggcctgtacc cacagcagcc gaattacaaa 4081 cgccatatgg acggcatgta cgggccccca gccaagcgcc acgagggcga catgtacaac 4141 atgcagtaca gcagccagca gcaggagatg tacaaccagt atggaggctc ctactcgggc 4201 ccggaccgca ggcccatcca gggccagtac ccgtatccct acagcaggga gaggatgcag 4261 ggcccggggc agatccagac acacggaatc ccgcctcaga tgatgggcgg cccgctgcag 4321 tcgtcctcca gtgaggggcc tcagcagaat atgtgggcag cacgcaatga tatgccttat 4381 ccctaccaga acaggcaggg ccctggcggc cctacacagg cgccccctta cccaggcatg 4441 aaccgcacag acgatatgat ggtacccgat cagaggataa atcatgagag ccagtggcct 4501 tctcacgtca gccagcgtca gccttatatg tcgtcctcag cctccatgca gcccatcaca 4561 cgcccaccac agccgtccta ccagacgcca ccgtcactgc caaatcacat ctccagggcg 4621 cccagcccag cgtccttcca gcgctccctg gagaaccgca tgtctccaag caagtctcct 4681 tttctgccgt ctatgaagat gcagaaggtc atgcccacgg tccccacatc ccaggtcacc 4741 gggccaccac cccaaccacc cccaatcaga agggagatca cctttcctcc tggctcagta 4801 gaagcatcac aaccagtctt gaaacaaagg cgaaagatta cctccaaaga tatcgttact 4861 cctgaggcgt ggcgtgtgat gatgtccctt aaatcaggtc ttttggctga gagtacgtgg 4921 gctttggaca ctattaatat tcttctgtat gatgacagca ctgttgctac tttcaatctc 4981 tcccagttgt ctggatttct cgaactttta gtcgagtact ttagaaaatg cctgattgac 5041 atttttggaa ttcttatgga atatgaagtg ggagacccca gccaaaaagc acttgatcac 5101 aacgcagcaa ggaaggatga cagccagtcc ttggcagacg attctgggaa agaggaggaa 5161 gatgctgaat gtattgatga cgacgaggaa gacgaggagg atgaggagga agacagcgag 5221 aagacagaaa gcgatgaaaa gagcagcatc gctctgactg ccccggacgc cgctgcagac 5281 ccaaaggaga agcccaagca agccagtaag ttcgacaagc tgccaataaa gatagtcaaa 5341 aagaacaacc tgtttgttgt tgaccgatct gacaagttgg ggcgtgtgca ggagttcaat 5401 agtggccttc tgcactggca gctcggcggg ggtgacacca ccgagcacat tcagactcac 5461 tttgagagca agatggaaat tcctcctcgc aggcgcccac ctcccccctt aagctccgca 5521 ggtagaaaga aagagcaaga aggcaaaggc gactctgaag agcagcaaga gaaaagcatc 5581 atagcaacca tcgatgacgt cctctctgct cggccagggg cattgcctga agacgcaaac 5641 cctgggcccc agaccgaaag cagtaagttt ccctttggta tccagcaagc caaaagtcac 5701 cggaacatca agctgctgga ggacgagccc aggagccgag acgagactcc tctgtgtacc 5761 atcgcgcact ggcaggactc gctggctaag cgatgcatct gtgtgtccaa tattgtccgt 5821 agcttgtcat tcgtgcctgg caatgatgcc gaaatgtcca aacatccagg cctggtgctg 5881 atcctgggga agctgattct tcttcaccac gagcatccag agagaaagcg agcaccgcag 5941 acctatgaga aagaggagga tgaggacaag ggggtggcct gcagcaaaga tgagtggtgg 6001 tgggactgcc tcgaggtctt gagggataac acgttggtca cgttggccaa catttccggg 6061 cagctagact tgtctgctta cacggaaagc atctgcttgc caattttgga tggcttgctg 6121 cactggatgg tgtgcccgtc tgcagaggca caagatccct ttccaactgt gggacccaac 6181 tcggtcctgt cgcctcagag acttgtgctg gagaccctct gtaaactcag tatccaggac 6241 aataatgtgg acctgatctt ggccactcct ccatttagtc gtcaggagaa attctatgct 6301 acattagtta ggtacgttgg ggatcgcaaa aacccagtct gtcgagaaat gtccatggcg 6361 cttttatcga accttgccca aggggacgca ctagcagcaa gggccatagc tgtgcagaaa 6421 ggaagcattg gaaacttgat aagcttccta gaggatgggg tcacgatggc ccagtaccag 6481 cagagccagc acaacctcat gcacatgcag cccccgcccc tggaaccacc tagcgtagac 6541 atgatgtgca gggcggccaa ggctttgcta gccatggcca gagtggacga aaaccgctcg 6601 gaattccttt tgcacgaggg ccggttgctg gatatctcga tatcagctgt cctgaactct 6661 ctggttgcat ctgtcatctg tgatgtactg tttcagattg ggcagttatg acataagtga 6721 gaaggcaagc atgtgtgagt gaagattaga gggtcacata taactggctg ttttctgttc 6781 ttgtttatcc agcgtaggaa gaaggaaaag aaaatctttg ctcctctgcc ccattcacta 6841 tttaccaatt gggaattaaa gaaataatta atttgaacag ttatgaaatt aatatttgct 6901 gtctgtgtgt ataagtacat cctttggggt tttttttttc tctttttttt aaccaaagtt 6961 gctgtctagt gcattcaaag gtcacttttt gttcttcaca gatcttttta atgttctttc 7021 ccatgttgta ttgcattttt gggggaagca aattgacttt aaagaaaaaa gttgtggcaa 7081 aagatgctaa gatgcgaaaa tttcaccaca ctgagtcaaa aaggtgaaaa attatccatt 7141 tcctatgcgt tttactcctc agagaatgaa aaaaactgca tcccatcacc caaagttctg 7201 tgcaatagaa atttctacag atacaggtat aggggctcaa ggaggtatgt cggtcagtag 7261 tcaaaactat gaaatgatac tggtttctcc acaggaatat ggttccatta ggctgggagc 7321 aaaaacaatg ttttttaaga ttgagaatac atacctgaca acgatccgga aactgctcct 7381 caccactccc gtcatgcctg ctgtcggcgt ttgaccttcc acgtgacagt tcttcacaat 7441 tcctttcatc attttttaaa tatttttttt actgcctatg ggctgtgatg tatatagaag 7501 ttgtacatta aacataccct catttttttc ttttcttttt tttttttttt tttagtacaa 7561 agttttagtt tctttttcat gatgtggtaa ctacgaagtg atggtagatt taaataattt 7621 tttattttta ttttatatat tttttcatta gggccatatc tccaaaaaaa gaaagaaaaa 7681 atacaaaaaa caaaaacaaa aaaaaaagag ggtaatgtac aagtttctgt atgtataaag 7741 tcatgctcga tttcaggaga gcagctgatc acaatttgct tcatgaatca aggtgtggaa 7801 atggttatat atggattgat ttagaaaatg gttaccagta cagtcaaaaa agagaaaatg 7861 aaaaaaatac aactaaaagg aagaaacaca acttcaaaga tttttcagtg atgagaatcc 7921 acatttgtat ttcaagataa tgtagtttaa aaaaaaaaaa aagaaaaaaa cttgatgtaa 7981 attcctcctt ttcctctggc ttaatgaata tcatttattc agtataaaat ctttatatgt 8041 tccacatgtt aagaataaat gtacattaaa tcttgttaag cactgtgatg ggtgttcttg 8101 aatactgttc tagtttcctt aaagtggttt cctagtaatc aagttattta caagaaatag 8161 gggaatgcag cagtgtattc acattataaa accctacatt tggaagagac ctttaggggt 8221 tacctacttt agagtgggga gcaacagttt gattttctca aattacttag ctaattagtc 8281 tttctttgaa gcaattaact ctaacgacat tgaggtatga tcattttcag tatttatggg 8341 aggtggctgc tgacccactt gaggtgagat ctcagaagct taactggcct gaaaatgtaa 8401 cattctgcct tttactaact ccatcttagt ttaatcaaag ttcaatctat tccttgtttc 8461 ttctgtgtgc ctcagagtta ttttgcattt agtttactcc accgtgtata atatttatac 8521 tgtgcaatgt taaaaaagaa tctgttatat tgtatgtggt gtacatagtg caaagtgatg 8581 atttctattt cagggcatat tatggttctc atattccttc ctacctggtg cacagtagct 8641 ttttaatact agtcacttct aatttaaact ttctcttcct gggtcattga ctgttactgt 8701 gtaataatcg atttctttga aactgctgca taattatgct gttagtggac ctctacctct 8761 tctcttccct ctcccaatca cagtatactc agaatcccca gcccctcgca tacattgtgt 8821 cggttcacat tactcacagt aatatatgga agagttagac aagaacatgc agttacagtc 8881 attgtgagac gtgactctcc agtgtcacga ggaaaaaaat catcttttct gcaaacagtc 8941 tctcatctgt caactcccac attactgagt caaacagtct tcttacataa caatgcaacc 9001 aaatatatgt tgaattaaag acccatttat aattctgctt taaatacatc tgcttgctaa 9061 gaacagattt cagtgctcca agcttcaaat atggagattt gtaagaggga attcaatatt 9121 attctaattt ctctcttaca gagtacaaat aaaaggtgta tacaaactcc gaacatatcc 9181 agtattccaa ttcctttgtc aatcagaaga gtaaaataat taacaaaaga ctgttgttat 9241 ggtttgcatt gtaaccgata cgcagagtct gaccgttggg caacaagttt ttctatcctg 9301 atgcgcaaca cagtctctag agactaatcc aggaagactt tagcctcctt tccatattct 9361 cacccccgaa tcaagattta cagaagccca cgaagaattt acagcctgct tgagatcatc 9421 ttgcctataa actgagttat tgctttgtcc taaaaattag tcggtttttt tttttctatg 9481 aggcttttca gaaatttaca ggatgcccag actttacatg tgtaccaaaa aaaaaaaaaa 9541 gataaaaaat aaaggtgcaa agaaagttta gtattttgga atggtgctat aaagttgaaa 9601 aaaaaaaaa SEQ ID NO: 32 Human ARID1B Amino Acid Sequence isoform A (NP_059989.2) 1 mahnagaaaa agthsaksgg seaalkeggs aaalssssss saaaaaasss sssgpgsame 61 tgllpnhklk tvgeapaapp hqqhhhhhha hhhhhhahhl hhhhalqqql nqfqqqqqqq 121 qqqqqqqqqq qhpisnnnsl ggagggapqp gpdmeqpqhg gakdsaaggq adppgpplls 181 kpgdeddapp kmgepaggry ehpglgalgt qqppvavpgg gggpaavpef nnyygsaapa 241 sggpggragp cfdqhggqqs pgmgmmhsas aaaagapgsm dplqnshegy pnsqcnhypg 301 ysrpgagggg gggggggggs ggggggggag aggagagava aaaaaaaaaa gggggggygg 361 ssagygvlss prqqgggmmm gpggggaasl skaaagsaag gfgrfaggng hpsgatptln 421 qlltspspmm rsyggsypey sspsappppp sqpgsgaaaa gaaaggqqaa agmglgkdmg 481 aqyaaaspaw aaaggrshpa mspgtpgptm grsqgspmdp mvmkrpglyg mgsnphsgpg 541 qsspypggsy gppgpqrypi giqgrtpgam agmgypqqqm ppgyggggvs gycqqgqqpy 601 ysggpqpphl ppgagylpsq sggrygpqqd msgegygtrs qpplapgkpn hedlnliqqe 661 rpsslpdlsg siddlptgte atlssaysas gstssggdgs npaqspfsph asphlssipg 721 gpspspvgsp vgsnqsrsgp ispasipgsq mppgppgsgs essshpalsq spmpqergfm 781 agtqrnpqma gygpggtgps msphpspggq mhagissfqg snssgtygpq msqygpqgny 841 srppaysgvp sasysgpgpg mgisannqmh gggpsgpcga vplgrmpsag mqnrpfpgnm 901 ssmtpsspgm sqqggpgmgp pmptvnrkaq eaaaavmqaa ansagsrggs fpgmngsglm 961 assspysgpm nnssslmntq appysmapam vnssaasvgl admmspgesk lplplkadgk 1021 eegtpqpesk skkssssttt gekitkvyel gneperklwv dryltfmeer gspvsslpav 1081 gkkpldlfrl yvcvkeiggl aqvnknkkwr elatnlnvgt sssaasslkk qyigylfafe 1141 ckiergeepp pevfstgdtk kgpklgppsp ansgslqgpq tpqstgsnsm aevpgdlkpp 1201 tpastphgqm tpmqggrsst isvhdpfsdv sdssfpkrns mtpnapyggg msmpdvmgrm 1261 pyepnkdpfg gmrkvpgsse pfmtqgqmpn ssmgdmyngs psgamsnlgm gqrqqfpyga 1321 sydrrhepyg qqypgqgpps gqppygghqp glypqqpnyk rhmdgmygpp akrhegdmyn 1381 mgyssqqqem ynqyggsysg pdrrpiqgqy pypysrermq gpggigthgi ppqmmggplq 1441 ssssegpqqn mwaarndmpy pyqnrqgpgg ptqappypgm nrtddmmvpd qrinhesqwp 1501 shvsgrqpym sssasmqpit rppgpsygtp pslpnhisra pspasfqrsl enrmspsksp 1561 flpsmkmqkv mptvptsqvt gpppqpppir reitfppgsv easgpvlkgr rkitskdivt 1621 peawrvmmsl ksgllaestw aldtinilly ddstvatfnl sqlsgflell veyfrkclid 1681 ifgilmeyev gdpsqkaldh naarkddsqs laddsgkeee daecidddee deedeeedse 1741 ktesdekssi altapdaaad pkekpkgask fdklpikivk knnlfvvdrs dklgrvqefn 1801 sgllhwqlgg gdttehigth feskmeippr rrpppplssa grkkeqegkg dseeqqeksi 1861 iatiddvlsa rpgalpedan pgpqtesskf pfgiqqaksh rniklledep rsrdetplct 1921 iahwqdslak rcicvsnivr slsfvpgnda emskhpglvl ilgklillhh ehperkrapq 1981 tyekeededk gvacskdeww wdclevlrdn tivtlanisg gldlsaytes iclpildgll 2041 hwmvcpsaea qdpfptvgpn svlspqrlvl eticklsiqd nnvdlilatp pfsrqekfya 2101 tivryvgdrk npvcremsma llsnlaggda laaraiavqk gsignlisfl edgvtmaqyq 2161 qsqhnlmhmq pppleppsvd mmcraakall amarvdenrs efllhegrll disisavins 2221 lvasvicdvl fqigql SEQ ID NO: 33 Human ARID1B cDNA Sequence Variant 2 (NM_020732.3, CDS: from 1 to 6750) 1 atggcccata acgcgggcgc cgcggccgcc gccggcaccc acagcgccaa gagcggcggc 61 tccgaggcgg ctctcaagga gggtggaagc gccgccgcgc tgtcctcctc ctcctcctcc 121 tccgcggcgg cagcggcggc atcctcttcc tcctcgtcgg gcccgggctc ggccatggag 181 acggggctgc tccccaacca caaactgaaa accgttggcg aagcccccgc cgcgccgccc 241 caccagcagc accaccacca ccaccatgcc caccaccacc accaccatgc ccaccacctc 301 caccaccacc acgcactaca gcagcagcta aaccagttcc agcagcagca gcagcagcag 361 caacagcagc agcagcagca gcagcaacag caacatccca tttccaacaa caacagcttg 421 ggcggcgcgg gcggcggcgc gcctcagccc ggccccgaca tggagcagcc gcaacatgga 481 ggcgccaagg acagtgctgc gggcggccag gccgaccccc cgggcccgcc gctgctgagc 541 aagccgggcg acgaggacga cgcgccgccc aagatggggg agccggcggg cggccgctac 601 gagcacccgg gcttgggcgc cctgggcacg cagcagccgc cggtcgccgt gcccgggggc 661 ggcggcggcc cggcggccgt cccggagttt aataattact atggcagcgc tgcccctgcg 721 agcggcggcc ccggcggccg cgctgggcct tgctttgatc aacatggcgg acaacaaagc 781 cccgggatgg ggatgatgca ctccgcctcc gccgccgccg ccggggcccc cggcagcatg 841 gaccccctgc agaactccca cgaagggtac cccaacagcc agtgcaacca ttatccgggc 901 tacagccggc ccggcgcggg cggcggcggc ggcggcggcg gcggaggagg aggaggcagc 961 ggaggaggag gaggaggagg aggagcagga gcaggaggag caggagcggg agctgtggcg 1021 gcggcggccg cggcggcggc ggcagcagca ggaggcggcg gcggcggcgg ctatgggggc 1081 tcgtccgcgg ggtacggggt gctgagctcc ccccggcagc agggcggcgg catgatgatg 1141 ggccccgggg gcggcggggc cgcgagcctc agcaaggcgg ccgccggctc ggcggcgggg 1201 ggcttccagc gcttcgccgg ccagaaccag cacccgtcgg gggccacccc gaccctcaat 1261 cagctgctca cctcgcccag ccccatgatg cggagctacg gcggcagcta ccccgagtac 1321 agcagcccca gcgcgccgcc gccgccgccg tcgcagcccc agtcccaggc ggcggcggcg 1381 ggggcggcgg cgggcggcca gcaggcggcc gcgggcatgg gcttgggcaa ggacatgggc 1441 gcccagtacg ccgctgccag cccggcctgg gcggccgcgc aacaaaggag tcacccggcg 1501 atgagccccg gcacccccgg accgaccatg ggcagatccc agggcagccc aatggatcca 1561 atggtgatga agagacctca gttgtatggc atgggcagta accctcattc tcagcctcag 1621 cagagcagtc cgtacccagg aggttcctat ggccctccag gcccacagcg gtatccaatt 1681 ggcatccagg gtcggactcc cggggccatg gccggaatgc agtaccctca gcagcaggac 1741 tctggagatg ccacatggaa agaaacattc tggttgatgc cacctcagta tggacagcaa 1801 ggtgtgagtg gttactgcca gcagggccaa cagccatatt acagccagca gccgcagccc 1861 ccgcacctcc caccccaggc gcagtatctg ccgtcccagt cccagcagag gtaccagccg 1921 cagcaggaca tgtctcagga aggctatgga actagatctc aacctcctct ggcccccgga 1981 aaacctaacc atgaagactt gaacttaata cagcaagaaa gaccatcaag tttaccagat 2041 ctgtctggct ccattgatga cctccccacg ggaacggaag caactttgag ctcagcagtc 2101 agtgcatccg ggtccacgag cagccaaggg gatcagagca acccggcgca gtcgcctttc 2161 tccccacatg cgtcccctca tctctccagc atcccggggg gcccatctcc ctctcctgtt 2221 ggctctcctg taggaagcaa ccagtctcga tctggcccaa tctctcctgc aagtatccca 2281 ggtagtcaga tgcctccgca gccacccggg agccagtcag aatccagttc ccatcccgcc 2341 ttgagccagt caccaatgcc acaggaaaga ggttttatgg caggcacaca aagaaaccct 2401 cagatggctc agtatggacc tcaacagaca ggaccatcca tgtcgcctca tccttctcct 2461 gggggccaga tgcatgctgg aatcagtagc tttcagcaga gtaactcaag tgggacttac 2521 ggtccacaga tgagccagta tggaccacaa ggtaactact ccagaccccc agcgtatagt 2581 ggggtgccca gtgcaagcta cagcggccca gggcccggta tgggtatcag tgccaacaac 2641 cagatgcatg gacaagggcc aagccagcca tgtggtgctg tgcccctggg acgaatgcca 2701 tcagctggga tgcagaacag accatttcct ggaaatatga gcagcatgac ccccagttct 2761 cctggcatgt ctcagcaggg agggccagga atggggccgc caatgccaac tgtgaaccgt 2821 aaggcacagg aggcagccgc agcagtgatg caggctgctg cgaactcagc acaaagcagg 2881 caaggcagtt tccccggcat gaaccagagt ggacttatgg cttccagctc tccctacagc 2941 cagcccatga acaacagctc tagcctgatg aacacgcagg cgccgcccta cagcatggcg 3001 cccgccatgg tgaacagctc ggcagcatct gtgggtcttg cagatatgat gtctcctggt 3061 gaatccaaac tgcccctgcc tctcaaagca gacggcaaag aagaaggcac tccacagccc 3121 gagagcaagt caaagaagtc cagctcctcc accactactg gggagaagat cacgaaggtg 3181 tacgagctgg ggaatgagcc agagagaaag ctctgggtcg accgatacct caccttcatg 3241 gaagagagag gctctcctgt ctcaagtctg cctgccgtgg gcaagaagcc cctggacctg 3301 ttccgactct acgtctgcgt caaagagatc gggggtttgg cccaggttaa taaaaacaag 3361 aagtggcgtg agctggcaac caacctaaac gttggcacct caagcagtgc agcgagctcc 3421 ctgaaaaagc agtatattca gtacctgttt gcctttgagt gcaagatcga acgtggggag 3481 gagcccccgc cggaagtctt cagcaccggg gacaccaaaa agcagcccaa gctccagccg 3541 ccatctcctg ctaactcggg atccttgcaa ggcccacaga ccccccagtc aactggcagc 3601 aattccatgg cagaggttcc aggtgacctg aagccaccta ccccagcctc cacccctcac 3661 ggccagatga ctccaatgca aggtggaaga agcagtacaa tcagtgtgca cgacccattc 3721 tcagatgtga gtgattcatc cttcccgaaa cggaactcca tgactccaaa cgccccctac 3781 cagcagggca tgagcatgcc cgatgtgatg ggcaggatgc cctatgagcc caacaaggac 3841 ccctttgggg gaatgagaaa agtgcctgga agcagcgagc cctttatgac gcaaggacag 3901 atgcccaaca gcagcatgca ggacatgtac aaccaaagtc cctccggagc aatgtctaac 3961 ctgggcatgg ggcagcgcca gcagtttccc tatggagcca gttacgaccg aaggcatgaa 4021 ccttatgggc agcagtatcc aggccaaggc cctccctcgg gacagccgcc gtatggaggg 4081 caccagcccg gcctgtaccc acagcagccg aattacaaac gccatatgga cggcatgtac 4141 gggcccccag ccaagcgcca cgagggcgac atgtacaaca tgcagtacag cagccagcag 4201 caggagatgt acaaccagta tggaggctcc tactcgggcc cggaccgcag gcccatccag 4261 ggccagtacc cgtatcccta cagcagggag aggatgcagg gcccggggca gatccagaca 4321 cacggaatcc cgcctcagat gatgggcggc ccgctgcagt cgtcctccag tgaggggcct 4381 cagcagaata tgtgggcagc acgcaatgat atgccttatc cctaccagaa caggcagggc 4441 cctggcggcc ctacacaggc gcccccttac ccaggcatga accgcacaga cgatatgatg 4501 gtacccgatc agaggataaa tcatgagagc cagtggcctt ctcacgtcag ccagcgtcag 4561 ccttatatgt cgtcctcagc ctccatgcag cccatcacac gcccaccaca gccgtcctac 4621 cagacgccac cgtcactgcc aaatcacatc tccagggcgc ccagcccagc gtccttccag 4681 cgctccctgg agaaccgcat gtctccaagc aagtctcctt ttctgccgtc tatgaagatg 4741 cagaaggtca tgcccacggt ccccacatcc caggtcaccg ggccaccacc ccaaccaccc 4801 ccaatcagaa gggagatcac ctttcctcct ggctcagtag aagcatcaca accagtcttg 4861 aaacaaaggc gaaagattac ctccaaagat atcgttactc ctgaggcgtg gcgtgtgatg 4921 atgtccctta aatcaggtct tttggctgag agtacgtggg ctttggacac tattaatatt 4981 cttctgtatg atgacagcac tgttgctact ttcaatctct cccagttgtc tggatttctc 5041 gaacttttag tcgagtactt tagaaaatgc ctgattgaca tttttggaat tcttatggaa 5101 tatgaagtgg gagaccccag ccaaaaagca cttgatcaca acgcagcaag gaaggatgac 5161 agccagtcct tggcagacga ttctgggaaa gaggaggaag atgctgaatg tattgatgac 5221 gacgaggaag acgaggagga tgaggaggaa gacagcgaga agacagaaag cgatgaaaag 5281 agcagcatcg ctctgactgc cccggacgcc gctgcagacc caaaggagaa gcccaagcaa 5341 gccagtaagt tcgacaagct gccaataaag atagtcaaaa agaacaacct gtttgttgtt 5401 gaccgatctg acaagttggg gcgtgtgcag gagttcaata gtggccttct gcactggcag 5461 ctcggcgggg gtgacaccac cgagcacatt cagactcact ttgagagcaa gatggaaatt 5521 cctcctcgca ggcgcccacc tcccccctta agctccgcag gtagaaagaa agagcaagaa 5581 ggcaaaggcg actctgaaga gcagcaagag aaaagcatca tagcaaccat cgatgacgtc 5641 ctctctgctc ggccaggggc attgcctgaa gacgcaaacc ctgggcccca gaccgaaagc 5701 agtaagtttc cctttggtat ccagcaagcc aaaagtcacc ggaacatcaa gctgctggag 5761 gacgagccca ggagccgaga cgagactcct ctgtgtacca tcgcgcactg gcaggactcg 5821 ctggctaagc gatgcatctg tgtgtccaat attgtccgta gcttgtcatt cgtgcctggc 5881 aatgatgccg aaatgtccaa acatccaggc ctggtgctga tcctggggaa gctgattctt 5941 cttcaccacg agcatccaga gagaaagcga gcaccgcaga cctatgagaa agaggaggat 6001 gaggacaagg gggtggcctg cagcaaagat gagtggtggt gggactgcct cgaggtcttg 6061 agggataaca cgttggtcac gttggccaac atttccgggc agctagactt gtctgcttac 6121 acggaaagca tctgcttgcc aattttggat ggcttgctgc actggatggt gtgcccgtct 6181 gcagaggcac aagatccctt tccaactgtg ggacccaact cggtcctgtc gcctcagaga 6241 cttgtgctgg agaccctctg taaactcagt atccaggaca ataatgtgga cctgatcttg 6301 gccactcctc catttagtcg tcaggagaaa ttctatgcta cattagttag gtacgttggg 6361 gatcgcaaaa acccagtctg tcgagaaatg tccatggcgc ttttatcgaa ccttgcccaa 6421 ggggacgcac tagcagcaag ggccatagct gtgcagaaag gaagcattgg aaacttgata 6481 agcttcctag aggatggggt cacgatggcc cagtaccagc agagccagca caacctcatg 6541 cacatgcagc ccccgcccct ggaaccacct agcgtagaca tgatgtgcag ggcggccaag 6601 gctttgctag ccatggccag agtggacgaa aaccgctcgg aattcctttt gcacgagggc 6661 cggttgctgg atatctcgat atcagctgtc ctgaactctc tggttgcatc tgtcatctgt 6721 gatgtactgt ttcagattgg gcagttatga cataagtgag aaggcaagca tgtgtgagtg 6781 aagattagag ggtcacatat aactggctgt tttctgttct tgtttatcca gcgtaggaag 6841 aaggaaaaga aaatctttgc tcctctgccc cattcactat ttaccaattg ggaattaaag 6901 aaataattaa tttgaacagt tatgaaatta atatttgctg tctgtgtgta taagtacatc 6961 ctttggggtt ttttttttct ctttttttta accaaagttg ctgtctagtg cattcaaagg 7021 tcactttttg ttcttcacag atctttttaa tgttctttcc catgttgtat tgcatttttg 7081 ggggaagcaa attgacttta aagaaaaaag ttgtggcaaa agatgctaag atgcgaaaat 7141 ttcaccacac tgagtcaaaa aggtgaaaaa ttatccattt cctatgcgtt ttactcctca 7201 gagaatgaaa aaaactgcat cccatcaccc aaagttctgt gcaatagaaa tttctacaga 7261 tacaggtata ggggctcaag gaggtatgtc ggtcagtagt caaaactatg aaatgatact 7321 ggtttctcca caggaatatg gttccattag gctgggagca aaaacaatgt tttttaagat 7381 tgagaataca tacctgacaa cgatccggaa actgctcctc accactcccg tcatgcctgc 7441 tgtcggcgtt tgaccttcca cgtgacagtt cttcacaatt cctttcatca ttttttaaat 7501 atttttttta ctgcctatgg gctgtgatgt atatagaagt tgtacattaa acataccctc 7561 atttttttct tttctttttt tttttttttt ttagtacaaa gttttagttt ctttttcatg 7621 atgtggtaac tacgaagtga tggtagattt aaataatttt ttatttttat tttatatatt 7681 ttttcattag ggccatatct ccaaaaaaag aaagaaaaaa tacaaaaaac aaaaacaaaa 7741 aaaaaagagg gtaatgtaca agtttctgta tgtataaagt catgctcgat ttcaggagag 7801 cagctgatca caatttgctt catgaatcaa ggtgtggaaa tggttatata tggattgatt 7861 tagaaaatgg ttaccagtac agtcaaaaaa gagaaaatga aaaaaataca actaaaagga 7921 agaaacacaa cttcaaagat ttttcagtga tgagaatcca catttgtatt tcaagataat 7981 gtagtttaaa aaaaaaaaaa agaaaaaaac ttgatgtaaa ttcctccttt tcctctggct 8041 taatgaatat catttattca gtataaaatc tttatatgtt ccacatgtta agaataaatg 8101 tacattaaat cttgttaagc actgtgatgg gtgttcttga atactgttct agtttcctta 8161 aagtggtttc ctagtaatca agttatttac aagaaatagg ggaatgcagc agtgtattca 8221 cattataaaa ccctacattt ggaagagacc tttaggggtt acctacttta gagtggggag 8281 caacagtttg attttctcaa attacttagc taattagtct ttctttgaag caattaactc 8341 taacgacatt gaggtatgat cattttcagt atttatggga ggtggctgct gacccacttg 8401 aggtgagatc tcagaagctt aactggcctg aaaatgtaac attctgcctt ttactaactc 8461 catcttagtt taatcaaagt tcaatctatt ccttgtttct tctgtgtgcc tcagagttat 8521 tttgcattta gtttactcca ccgtgtataa tatttatact gtgcaatgtt aaaaaagaat 8581 ctgttatatt gtatgtggtg tacatagtgc aaagtgatga tttctatttc agggcatatt 8641 atggttctca tattccttcc tacctggtgc acagtagctt tttaatacta gtcacttcta 8701 atttaaactt tctcttcctg ggtcattgac tgttactgtg taataatcga tttctttgaa 8761 actgctgcat aattatgctg ttagtggacc tctacctctt ctcttccctc tcccaatcac 8821 agtatactca gaatccccag cccctcgcat acattgtgtc ggttcacatt actcacagta 8881 atatatggaa gagttagaca agaacatgca gttacagtca ttgtgagacg tgactctcca 8941 gtgtcacgag gaaaaaaatc atcttttctg caaacagtct ctcatctgtc aactcccaca 9001 ttactgagtc aaacagtctt cttacataac aatgcaacca aatatatgtt gaattaaaga 9061 cccatttata attctgcttt aaatacatct gcttgctaag aacagatttc agtgctccaa 9121 gcttcaaata tggagatttg taagagggaa ttcaatatta ttctaatttc tctcttacag 9181 agtacaaata aaaggtgtat acaaactccg aacatatcca gtattccaat tcctttgtca 9241 atcagaagag taaaataatt aacaaaagac tgttgttatg gtttgcattg taaccgatac 9301 gcagagtctg accgttgggc aacaagtttt tctatcctga tgcgcaacac agtctctaga 9361 gactaatcca ggaagacttt agcctccttt ccatattctc acccccgaat caagatttac 9421 agaagcccac gaagaattta cagcctgctt gagatcatct tgcctataaa ctgagttatt 9481 gctttgtcct aaaaattagt cggttttttt ttttctatga ggcttttcag aaatttacag 9541 gatgcccaga ctttacatgt gtaccaaaaa aaaaaaaaag ataaaaaata aaggtgcaaa 9601 gaaagtttag tattttggaa tggtgctata aagttgaaaa aaaaaaaa SEQ ID NO: 34 Human ARID1B Amino Acid Sequence isoform B (NP_065783.3) 1 mahnagaaaa agthsaksgg seaalkeggs aaalssssss saaaaaasss sssgpgsame 61 tgllpnhklk tvgeapaapp hqqhhhhhha hhhhhhahhl hhhhalqqql nqfqqqqqqq 121 qqqqqqqqqq qhpisnnnsl ggagggapqp gpdmeqpqhg gakdsaaggq adppgpplls 181 kpgdeddapp kmgepaggry ehpglgalgt qqppvavpgg gggpaavpef nnyygsaapa 241 sggpggragp cfdqhggqqs pgmgmmhsas aaaagapgsm dplqnshegy pnsqcnhypg 301 ysrpgagggg gggggggggs ggggggggag aggagagava aaaaaaaaaa gggggggygg 361 ssagygvlss prqqgggmmm gpggggaasl skaaagsaag gfqrfagqnq hpsgatptln 421 qlltspspmm rsyggsypey sspsappppp sqpgsgaaaa gaaaggqqaa agmglgkdmg 481 aqyaaaspaw aaaqqrshpa mspgtpgptm grsqgspmdp mvmkrpglyg mgsnphsqpq 541 qsspypggsy gppgpqrypi giqgrtpgam agmqypqqqd sgdatwketf wlmppqyggq 601 gvsgycqqgq qpyysqqpqp phlppgagyl psqsqqryqp qqdmsgegyg trsqpplapg 661 kpnhedlnli ggerpsslpd lsgsiddlpt gteatlssav sasgstssqg dqsnpaqspf 721 sphasphlss ipggpspspv gspvgsnqsr sgpispasip gsqmppqppg sqsessshpa 781 lsqspmpqer gfmagtqrnp qmagygpqqt gpsmsphpsp ggqmhagiss fqqsnssgty 841 gpqmsqygpq gnysrppays gvpsasysgp gpgmgisann qmhgqgpsqp cgavplgrmp 901 sagmqnrpfp gnmssmtpss pgmsqqggpg mgppmptvnr kaqeaaaavm qaaansagsr 961 qgsfpgmnqs glmassspys qpmnnssslm ntqappysma pamvnssaas vgladmmspg 1021 esklplplka dgkeegtpqp eskskkssss tttgekitkv yelgneperk lwvdryltfm 1081 eergspvssl pavgkkpldl frlyvcvkei gglaqvnknk kwrelatnln vgtsssaass 1141 lkkqyiqylf afeckierge epppevfstg dtkkqpklqp pspansgslq gpqtpqstgs 1201 nsmaevpgdl kpptpastph gqmtpmqggr sstisvhdpf sdvsdssfpk rnsmtpnapy 1261 qqgmsmpdvm grmpyepnkd pfggmrkvpg ssepfmtqgq mpnssmqdmy nqspsgamsn 1321 lgmgqrqqfp ygasydrrhe pygqqypgqg ppsgqppygg hqpglypqqp nykrhmdgmy 1381 gppakrhegd mynmqyssqq qemynqyggs ysgpdrrpiq gqypypysre rmqgpgqiqt 1441 hgippqmmgg plqssssegp qqnmwaarnd mpypyqnrqg pggptqappy pgmnrtddmm 1501 vpdqrinhes qwpshvsqrq pymsssasmq pitrppgpsy qtppslpnhi srapspasfq 1561 rslenrmsps kspflpsmkm qkvmptvpts qvtgpppqpp pirreitfpp gsveasqpvl 1621 kqrrkitskd ivtpeawrvm mslksgllae stwaldtini llyddstvat fnlsqlsgfl 1681 ellveyfrkc lidifgilme yevgdpsqka ldhnaarkdd sqsladdsgk eeedaecidd 1741 deedeedeee dsektesdek ssialtapda aadpkekpkq askfdklpik ivkknnlfvv 1801 drsdklgrvq efnsgllhwq lgggdttehi qthfeskmei pprrrppppl ssagrkkeqe 1861 gkgdseeqqe ksiiatiddv lsarpgalpe danpgpqtes skfpfgiqqa kshrniklle 1921 deprsrdetp lctiahwqds lakrcicvsn ivrslsfvpg ndaemskhpg lvlilgklil 1981 lhhehperkr apqtyekeed edkgvacskd ewwwdclevl rdntivtlan isgqldlsay 2041 tesiclpild gllhwmvcps aeaqdpfptv gpnsvlspqr lvletickls iqdnnvdlil 2101 atppfsrqek fyativryvg drknpvcrem smallsnlaq gdalaaraia vqkgsignli 2161 sfledgvtma qyqqsqhnlm hmqppplepp svdmmcraak allamarvde nrsefllheg 2221 rlldisisav lnslvasvic dvlfgigql SEQ ID NO: 35 Human ARID1B cDNA Sequence Variant 3 (NM_001346813.1, CDS: from 76 to 6945) 1 gggggcggcg gcgacggcgg cggcggcctg aacagtgtgc accaccaccc cctgctcccc 61 cgtcacgaac tcaacatggc ccataacgcg ggcgccgcgg ccgccgccgg cacccacagc 121 gccaagagcg gcggctccga ggcggctctc aaggagggtg gaagcgccgc cgcgctgtcc 181 tcctcctcct cctcctccgc ggcggcagcg gcggcatcct cttcctcctc gtcgggcccg 241 ggctcggcca tggagacggg gctgctcccc aaccacaaac tgaaaaccgt tggcgaagcc 301 cccgccgcgc cgccccacca gcagcaccac caccaccacc atgcccacca ccaccaccac 361 catgcccacc acctccacca ccaccacgca ctacagcagc agctaaacca gttccagcag 421 cagcagcagc agcagcaaca gcagcagcag cagcagcagc aacagcaaca tcccatttcc 481 aacaacaaca gcttgggcgg cgcgggcggc ggcgcgcctc agcccggccc cgacatggag 541 cagccgcaac atggaggcgc caaggacagt gctgcgggcg gccaggccga ccccccgggc 601 ccgccgctgc tgagcaagcc gggcgacgag gacgacgcgc cgcccaagat gggggagccg 661 gcgggcggcc gctacgagca cccgggcttg ggcgccctgg gcacgcagca gccgccggtc 721 gccgtgcccg ggggcggcgg cggcccggcg gccgtcccgg agtttaataa ttactatggc 781 agcgctgccc ctgcgagcgg cggccccggc ggccgcgctg ggccttgctt tgatcaacat 841 ggcggacaac aaagccccgg gatggggatg atgcactccg cctccgccgc cgccgccggg 901 gcccccggca gcatggaccc cctgcagaac tcccacgaag ggtaccccaa cagccagtgc 961 aaccattatc cgggctacag ccggcccggc gcgggcggcg gcggcggcgg cggcggcgga 1021 ggaggaggag gcagcggagg aggaggagga ggaggaggag caggagcagg aggagcagga 1081 gcgggagctg tggcggcggc ggccgcggcg gcggcggcag cagcaggagg cggcggcggc 1141 ggcggctatg ggggctcgtc cgcggggtac ggggtgctga gctccccccg gcagcagggc 1201 ggcggcatga tgatgggccc cgggggcggc ggggccgcga gcctcagcaa ggcggccgcc 1261 ggctcggcgg cggggggctt ccagcgcttc gccggccaga accagcaccc gtcgggggcc 1321 accccgaccc tcaatcagct gctcacctcg cccagcccca tgatgcggag ctacggcggc 1381 agctaccccg agtacagcag ccccagcgcg ccgccgccgc cgccgtcgca gccccagtcc 1441 caggcggcgg cggcgggggc ggcggcgggc ggccagcagg cggccgcggg catgggcttg 1501 ggcaaggaca tgggcgccca gtacgccgct gccagcccgg cctgggcggc cgcgcaacaa 1561 aggagtcacc cggcgatgag ccccggcacc cccggaccga ccatgggcag atcccagggc 1621 agcccaatgg atccaatggt gatgaagaga cctcagttgt atggcatggg cagtaaccct 1681 cattctcagc ctcagcagag cagtccgtac ccaggaggtt cctatggccc tccaggccca 1741 cagcggtatc caattggcat ccagggtcgg actcccgggg ccatggccgg aatgcagtac 1801 cctcagcagc agatgccacc tcagtatgga cagcaaggtg tgagtggtta ctgccagcag 1861 ggccaacagc catattacag ccagcagccg cagcccccgc acctcccacc ccaggcgcag 1921 tatctgccgt cccagtccca gcagaggtac cagccgcagc aggacatgtc tcaggaaggc 1981 tatggaacta gatctcaacc tcctctggcc cccggaaaac ctaaccatga agacttgaac 2041 ttaatacagc aagaaagacc atcaagttta ccagatctgt ctggctccat tgatgacctc 2101 cccacgggaa cggaagcaac tttgagctca gcagtcagtg catccgggtc cacgagcagc 2161 caaggggatc agagcaaccc ggcgcagtcg cctttctccc cacatgcgtc ccctcatctc 2221 tccagcatcc cggggggccc atctccctct cctgttggct ctcctgtagg aagcaaccag 2281 tctcgatctg gcccaatctc tcctgcaagt atcccaggta gtcagatgcc tccgcagcca 2341 cccgggagcc agtcagaatc cagttcccat cccgccttga gccagtcacc aatgccacag 2401 gaaagaggtt ttatggcagg cacacaaaga aaccctcaga tggctcagta tggacctcaa 2461 cagacaggac catccatgtc gcctcatcct tctcctgggg gccagatgca tgctggaatc 2521 agtagctttc agcagagtaa ctcaagtggg acttacggtc cacagatgag ccagtatgga 2581 ccacaaggta actactccag acccccagcg tatagtgggg tgcccagtgc aagctacagc 2641 ggcccagggc ccggtatggg tatcagtgcc aacaaccaga tgcatggaca agggccaagc 2701 cagccatgtg gtgctgtgcc cctgggacga atgccatcag ctgggatgca gaacagacca 2761 tttcctggaa atatgagcag catgaccccc agttctcctg gcatgtctca gcagggaggg 2821 ccaggaatgg ggccgccaat gccaactgtg aaccgtaagg cacaggaggc agccgcagca 2881 gtgatgcagg ctgctgcgaa ctcagcacaa agcaggcaag gcagtttccc cggcatgaac 2941 cagagtggac ttatggcttc cagctctccc tacagccagc ccatgaacaa cagctctagc 3001 ctgatgaaca cgcaggcgcc gccctacagc atggcgcccg ccatggtgaa cagctcggca 3061 gcatctgtgg gtcttgcaga tatgatgtct cctggtgaat ccaaactgcc cctgcctctc 3121 aaagcagacg gcaaagaaga aggcactcca cagcccgaga gcaagtcaaa ggatagctac 3181 agctctcagg gtatttctca gcccccaacc ccaggcaacc tgccagtccc ttccccaatg 3241 tcccccagct ctgctagcat ctcctcattt catggagatg aaagtgatag cattagcagc 3301 ccaggctggc caaagactcc atcaagccct aagtccagct cctccaccac tactggggag 3361 aagatcacga aggtgtacga gctggggaat gagccagaga gaaagctctg ggtcgaccga 3421 tacctcacct tcatggaaga gagaggctct cctgtctcaa gtctgcctgc cgtgggcaag 3481 aagcccctgg acctgttccg actctacgtc tgcgtcaaag agatcggggg tttggcccag 3541 gttaataaaa acaagaagtg gcgtgagctg gcaaccaacc taaacgttgg cacctcaagc 3601 agtgcagcga gctccctgaa aaagcagtat attcagtacc tgtttgcctt tgagtgcaag 3661 atcgaacgtg gggaggagcc cccgccggaa gtcttcagca ccggggacac caaaaagcag 3721 cccaagctcc agccgccatc tcctgctaac tcgggatcct tgcaaggccc acagaccccc 3781 cagtcaactg gcagcaattc catggcagag gttccaggtg acctgaagcc acctacccca 3841 gcctccaccc ctcacggcca gatgactcca atgcaaggtg gaagaagcag tacaatcagt 3901 gtgcacgacc cattctcaga tgtgagtgat tcatccttcc cgaaacggaa ctccatgact 3961 ccaaacgccc cctaccagca gggcatgagc atgcccgatg tgatgggcag gatgccctat 4021 gagcccaaca aggacccctt tgggggaatg agaaaagtgc ctggaagcag cgagcccttt 4081 atgacgcaag gacagatgcc caacagcagc atgcaggaca tgtacaacca aagtccctcc 4141 ggagcaatgt ctaacctggg catggggcag cgccagcagt ttccctatgg agccagttac 4201 gaccgaaggc atgaacctta tgggcagcag tatccaggcc aaggccctcc ctcgggacag 4261 ccgccgtatg gagggcacca gcccggcctg tacccacagc agccgaatta caaacgccat 4321 atggacggca tgtacgggcc cccagccaag cgccacgagg gcgacatgta caacatgcag 4381 tacagcagcc agcagcagga gatgtacaac cagtatggag gctcctactc gggcccggac 4441 cgcaggccca tccagggcca gtacccgtat ccctacagca gggagaggat gcagggcccg 4501 gggcagatcc agacacacgg aatcccgcct cagatgatgg gcggcccgct gcagtcgtcc 4561 tccagtgagg ggcctcagca gaatatgtgg gcagcacgca atgatatgcc ttatccctac 4621 cagaacaggc agggccctgg cggccctaca caggcgcccc cttacccagg catgaaccgc 4681 acagacgata tgatggtacc cgatcagagg ataaatcatg agagccagtg gccttctcac 4741 gtcagccagc gtcagcctta tatgtcgtcc tcagcctcca tgcagcccat cacacgccca 4801 ccacagccgt cctaccagac gccaccgtca ctgccaaatc acatctccag ggcgcccagc 4861 ccagcgtcct tccagcgctc cctggagaac cgcatgtctc caagcaagtc tccttttctg 4921 ccgtctatga agatgcagaa ggtcatgccc acggtcccca catcccaggt caccgggcca 4981 ccaccccaac cacccccaat cagaagggag atcacctttc ctcctggctc agtagaagca 5041 tcacaaccag tcttgaaaca aaggcgaaag attacctcca aagatatcgt tactcctgag 5101 gcgtggcgtg tgatgatgtc ccttaaatca ggtcttttgg ctgagagtac gtgggctttg 5161 gacactatta atattcttct gtatgatgac agcactgttg ctactttcaa tctctcccag 5221 ttgtctggat ttctcgaact tttagtcgag tactttagaa aatgcctgat tgacattttt 5281 ggaattctta tggaatatga agtgggagac cccagccaaa aagcacttga tcacaacgca 5341 gcaaggaagg atgacagcca gtccttggca gacgattctg ggaaagagga ggaagatgct 5401 gaatgtattg atgacgacga ggaagacgag gaggatgagg aggaagacag cgagaagaca 5461 gaaagcgatg aaaagagcag catcgctctg actgccccgg acgccgctgc agacccaaag 5521 gagaagccca agcaagccag taagttcgac aagctgccaa taaagatagt caaaaagaac 5581 aacctgtttg ttgttgaccg atctgacaag ttggggcgtg tgcaggagtt caatagtggc 5641 cttctgcact ggcagctcgg cgggggtgac accaccgagc acattcagac tcactttgag 5701 agcaagatgg aaattcctcc tcgcaggcgc ccacctcccc ccttaagctc cgcaggtaga 5761 aagaaagagc aagaaggcaa aggcgactct gaagagcagc aagagaaaag catcatagca 5821 accatcgatg acgtcctctc tgctcggcca ggggcattgc ctgaagacgc aaaccctggg 5881 ccccagaccg aaagcagtaa gtttcccttt ggtatccagc aagccaaaag tcaccggaac 5941 atcaagctgc tggaggacga gcccaggagc cgagacgaga ctcctctgtg taccatcgcg 6001 cactggcagg actcgctggc taagcgatgc atctgtgtgt ccaatattgt ccgtagcttg 6061 tcattcgtgc ctggcaatga tgccgaaatg tccaaacatc caggcctggt gctgatcctg 6121 gggaagctga ttcttcttca ccacgagcat ccagagagaa agcgagcacc gcagacctat 6181 gagaaagagg aggatgagga caagggggtg gcctgcagca aagatgagtg gtggtgggac 6241 tgcctcgagg tcttgaggga taacacgttg gtcacgttgg ccaacatttc cgggcagcta 6301 gacttgtctg cttacacgga aagcatctgc ttgccaattt tggatggctt gctgcactgg 6361 atggtgtgcc cgtctgcaga ggcacaagat ccctttccaa ctgtgggacc caactcggtc 6421 ctgtcgcctc agagacttgt gctggagacc ctctgtaaac tcagtatcca ggacaataat 6481 gtggacctga tcttggccac tcctccattt agtcgtcagg agaaattcta tgctacatta 6541 gttaggtacg ttggggatcg caaaaaccca gtctgtcgag aaatgtccat ggcgctttta 6601 tcgaaccttg cccaagggga cgcactagca gcaagggcca tagctgtgca gaaaggaagc 6661 attggaaact tgataagctt cctagaggat ggggtcacga tggcccagta ccagcagagc 6721 cagcacaacc tcatgcacat gcagcccccg cccctggaac cacctagcgt agacatgatg 6781 tgcagggcgg ccaaggcttt gctagccatg gccagagtgg acgaaaaccg ctcggaattc 6841 cttttgcacg agggccggtt gctggatatc tcgatatcag ctgtcctgaa ctctctggtt 6901 gcatctgtca tctgtgatgt actgtttcag attgggcagt tatgacataa gtgagaaggc 6961 aagcatgtgt gagtgaagat tagagggtca catataactg gctgttttct gttcttgttt 7021 atccagcgta ggaagaagga aaagaaaatc tttgctcctc tgccccattc actatttacc 7081 aattgggaat taaagaaata attaatttga acagttatga aattaatatt tgctgtctgt 7141 gtgtataagt acatcctttg gggttttttt tttctctttt ttttaaccaa agttgctgtc 7201 tagtgcattc aaaggtcact ttttgttctt cacagatctt tttaatgttc tttcccatgt 7261 tgtattgcat ttttggggga agcaaattga ctttaaagaa aaaagttgtg gcaaaagatg 7321 ctaagatgcg aaaatttcac cacactgagt caaaaaggtg aaaaattatc catttcctat 7381 gcgttttact cctcagagaa tgaaaaaaac tgcatcccat cacccaaagt tctgtgcaat 7441 agaaatttct acagatacag gtataggggc tcaaggaggt atgtcggtca gtagtcaaaa 7501 ctatgaaatg atactggttt ctccacagga atatggttcc attaggctgg gagcaaaaac 7561 aatgtttttt aagattgaga atacatacct gacaacgatc cggaaactgc tcctcaccac 7621 tcccgtcatg cctgctgtcg gcgtttgacc ttccacgtga cagttcttca caattccttt 7681 catcattttt taaatatttt ttttactgcc tatgggctgt gatgtatata gaagttgtac 7741 attaaacata ccctcatttt tttcttttct tttttttttt tttttttagt acaaagtttt 7801 agtttctttt tcatgatgtg gtaactacga agtgatggta gatttaaata attttttatt 7861 tttattttat atattttttc attagggcca tatctccaaa aaaagaaaga aaaaatacaa 7921 aaaacaaaaa caaaaaaaaa agagggtaat gtacaagttt ctgtatgtat aaagtcatgc 7981 tcgatttcag gagagcagct gatcacaatt tgcttcatga atcaaggtgt ggaaatggtt 8041 atatatggat tgatttagaa aatggttacc agtacagtca aaaaagagaa aatgaaaaaa 8101 atacaactaa aaggaagaaa cacaacttca aagatttttc agtgatgaga atccacattt 8161 gtatttcaag ataatgtagt ttaaaaaaaa aaaaaagaaa aaaacttgat gtaaattcct 8221 ccttttcctc tggcttaatg aatatcattt attcagtata aaatctttat atgttccaca 8281 tgttaagaat aaatgtacat taaatcttgt taagcactgt gatgggtgtt cttgaatact 8341 gttctagttt ccttaaagtg gtttcctagt aatcaagtta tttacaagaa ataggggaat 8401 gcagcagtgt attcacatta taaaacccta catttggaag agacctttag gggttaccta 8461 ctttagagtg gggagcaaca gtttgatttt ctcaaattac ttagctaatt agtctttctt 8521 tgaagcaatt aactctaacg acattgaggt atgatcattt tcagtattta tgggaggtgg 8581 ctgctgaccc acttgaggtg agatctcaga agcttaactg gcctgaaaat gtaacattct 8641 gccttttact aactccatct tagtttaatc aaagttcaat ctattccttg tttcttctgt 8701 gtgcctcaga gttattttgc atttagttta ctccaccgtg tataatattt atactgtgca 8761 atgttaaaaa agaatctgtt atattgtatg tggtgtacat agtgcaaagt gatgatttct 8821 atttcagggc atattatggt tctcatattc cttcctacct ggtgcacagt agctttttaa 8881 tactagtcac ttctaattta aactttctct tcctgggtca ttgactgtta ctgtgtaata 8941 atcgatttct ttgaaactgc tgcataatta tgctgttagt ggacctctac ctcttctctt 9001 ccctctccca atcacagtat actcagaatc cccagcccct cgcatacatt gtgtcggttc 9061 acattactca cagtaatata tggaagagtt agacaagaac atgcagttac agtcattgtg 9121 agacgtgact ctccagtgtc acgaggaaaa aaatcatctt ttctgcaaac agtctctcat 9181 ctgtcaactc ccacattact gagtcaaaca gtcttcttac ataacaatgc aaccaaatat 9241 atgttgaatt aaagacccat ttataattct gctttaaata catctgcttg ctaagaacag 9301 atttcagtgc tccaagcttc aaatatggag atttgtaaga gggaattcaa tattattcta 9361 atttctctct tacagagtac aaataaaagg tgtatacaaa ctccgaacat atccagtatt 9421 ccaattcctt tgtcaatcag aagagtaaaa taattaacaa aagactgttg ttatggtttg 9481 cattgtaacc gatacgcaga gtctgaccgt tgggcaacaa gtttttctat cctgatgcgc 9541 aacacagtct ctagagacta atccaggaag actttagcct cctttccata ttctcacccc 9601 cgaatcaaga tttacagaag cccacgaaga atttacagcc tgcttgagat catcttgcct 9661 ataaactgag ttattgcttt gtcctaaaaa ttagtcggtt tttttttttc tatgaggctt 9721 ttcagaaatt tacaggatgc ccagacttta catgtgtacc aaaaaaaaaa aaaagataaa 9781 aaataaaggt gcaaagaaag tttagtattt tggaatggtg ctataaagtt gaa SEQ ID NO: 36 Human ARID1B Amino Acid Sequence isoform C NP_001333742.1) 1 mahnagaaaa agthsaksgg seaalkeggs aaalssssss saaaaaasss sssgpgsame 61 tgllpnhklk tvgeapaapp hqqhhhhhha hhhhhhahhl hhhhalggql ngfqqqqqqg 121 ggqqqqqqqg ghpisnnnsl ggagggapqp gpdmegpqhg gakdsaaggq adppgpplls 181 kpgdeddapp kmgepaggry ehpglgalgt qqppvavpgg gggpaavpef nnyygsaapa 241 sggpggragp cfdqhggqqs pgmgmmhsas aaaagapgsm dplqnshegy pnsqcnhypg 301 ysrpgagggg gggggggggs ggggggggag aggagagava aaaaaaaaaa gggggggygg 361 ssagygvlss prqqgggmmm gpggggaasl skaaagsaag gfgrfagqnq hpsgatptln 421 qlltspspmm rsyggsypey sspsappppp sgpqsqaaaa gaaaggqqaa agmglgkdmg 481 aqyaaaspaw aaaqqrshpa mspgtpgptm grsqgspmdp mvmkrpqlyg mgsnphsqpq 541 qsspypggsy gppgpqrypi giqgrtpgam agmgypqqqm ppqygqqgvs gycqqgqqpy 601 ysqqpqpphl ppgaqylpsq sqqrygpqqd msqegygtrs qpplapgkpn hedlnliqqe 661 rpsslpdlsg siddlptgte atlssavsas gstssqgdqs npaqspfsph asphlssipg 721 gpspspvgsp vgsnqsrsgp ispasipgsq mppgppgsgs essshpalsq spmpqergfm 781 agtqrnpqma qygpqqtgps msphpspggq mhagissfqq snssgtygpq msqygpqgny 841 srppaysgvp sasysgpgpg mgisannqmh gqgpsqpcga vplgrmpsag mqnrpfpgnm 901 ssmtpsspgm sqqggpgmgp pmptvnrkaq eaaaavmqaa ansaqsrqgs fpgmnqsglm 961 assspysgpm nnssslmntq appysmapam vnssaasvgl admmspgesk lplplkadgk 1021 eegtpqpesk skdsyssqgi sqpptpgnlp vpspmspssa sissfhgdes dsisspgwpk 1081 tpsspkssss tttgekitkv yelgneperk lwvdryltfm eergspvssl pavgkkpldl 1141 frlyvcvkei gglaqvnknk kwrelatnln vgtsssaass lkkgyigylf afeckierge 1201 epppevfstg dtkkqpklqp pspansgslq gpqtpqstgs nsmaevpgdl kpptpastph 1261 gqmtpmqggr sstisvhdpf sdvsdssfpk rnsmtpnapy qqgmsmpdvm grmpyepnkd 1321 pfggmrkvpg ssepfmtqgq mpnssmqdmy nqspsgamsn lgmgqrqqfp ygasydrrhe 1381 pygqqypgqg ppsgqppygg hqpglypqqp nykrhmdgmy gppakrhegd mynmgyssqg 1441 qemynqyggs ysgpdrrpiq gqypypysre rmqgpgqiqt hgippqmmgg plqssssegp 1501 qqnmwaarnd mpypyqnrqg pggptqappy pgmnrtddmm vpdqrinhes qwpshvsqrq 1561 pymsssasmq pitrppgpsy qtppslpnhi srapspasfq rslenrmsps kspflpsmkm 1621 qkvmptvpts qvtgpppqpp pirreitfpp gsveasqpvl kqrrkitskd ivtpeawrvm 1681 mslksgllae stwaldtini llyddstvat fnlsqlsgfl ellveyfrkc lidifgilme 1741 yevgdpsqka ldhnaarkdd sqsladdsgk eeedaecidd deedeedeee dsektesdek 1801 ssialtapda aadpkekpkq askfdklpik ivkknnlfvv drsdklgrvq efnsgllhwq 1861 lgggdttehi qthfeskmei pprrrppppl ssagrkkeqe gkgdseeqqe ksiiatiddv 1921 lsarpgalpe danpgpqtes skfpfgiqqa kshrniklle deprsrdetp lctiahwqds 1981 lakrcicvsn ivrslsfvpg ndaemskhpg lvlilgklil lhhehperkr apqtyekeed 2041 edkgvacskd ewwwdclevl rdntivtlan isgqldlsay tesiclpild gllhwmvcps 2101 aeaqdpfptv gpnsvlspqr lvletickls iqdnnvdlil atppfsrqek fyativryvg 2161 drknpvcrem smallsnlaq gdalaaraia vqkgsignli sfledgvtma qyqqsqhnlm 2221 hmqppplepp svdmmcraak allamarvde nrsefllheg rlldisisav lnslvasvic 2281 dvlfqigql SEQ ID NO: 37 Mouse ARID1B cDNA Sequence (NM_001085355.1, CDS: from 22 to 6756) 1 tcggcgggcc ccggctcgac catggagacc gggctgctcc ccaaccacaa actgaaagcc 61 gttggcgagg cccccgctgc accgccccat cagcagcacc accaccacca tgcccaccac 121 caccaccacc accatgccca ccacctccac cacctccacc accaccacgc actacagcag 181 cagctaaacc agttccagca gccgcagccg ccgcagccac agcagcagca gccgccgcca 241 ccgccgcagc agcagcatcc cactgccaac aacagcctgg gcggtgcggg cggcggcgcg 301 cctcagcccg gcccggacat ggagcagccg caacatggag gcgccaagga cagtgtcgcg 361 ggcaatcagg ctgacccgca gggccagcct ctgctgagca aaccgggcga cgaggacgac 421 gcgccgccca agatggggga gccggcgggc agccgctatg agcacccggg cctgggcgcg 481 cagcagcagc ccgcgccggt cgccgtgccc gggggcggcg gcggcccagc ggccgtctcg 541 gagtttaata attactatgg cagcgctgcc cctgctagcg gcggccccgg cggccgcgct 601 gggccttgct ttgatcaaca tggcggacaa caaagccccg ggatggggat gatgcactcc 661 gcctctgccg ccgccggggc ccccagcagc atggaccccc tgcagaactc ccacgaaggg 721 taccccaaca gccagtacaa ccattatccg ggctacagcc ggcccggcgc gggcggcggc 781 ggcggcggcg gcggaggagg aggaggcagc ggaggaggtg gaggaggagg aggagcagga 841 ggagcaggag gagcagcggc agcggcagca ggagccggag ctgtggcggc ggcggccgcg 901 gcggcggcgg cagcagcagc agcagcagga ggaggcggtg gcggcggcta tgggagctcg 961 tcctcggggt acggggtgct gagctccccg cggcagcagg gcggcggcat gatgatgggc 1021 cccgggggcg gcggggccgc gagcctcagc aaggcggccg ccggcgcggc ggcggcggcg 1081 gggggcttcc agcgcttcgc cggccagaac cagcacccgt cgggggctac accgaccctc 1141 aaccagctgc tcacctcacc cagccccatg atgaggagct acggcggtag ctaccccgac 1201 tacagcagct ccagcgcgcc gccgccgccg tcgcagcccc agtcccaggc ggcggcgggg 1261 gcggcggcgg gtggccagca ggcggccgcg ggcatgggct tgggcaagga cctaggcgcc 1321 cagtacgccg ctgccagccc ggcctgggcg gccgcgcaac aaaggagtca cccggcgatg 1381 agccccggca cccccggacc gaccatgggc agatcccagg gcagcccgat ggacccaatg 1441 gtgatgaaga gacctcagtt gtatgggatg ggtactcacc cccactccca gccacagcag 1501 agcagcccat acccaggagg ctcctacggt cccccaggtg cacagcggta tccccttggc 1561 atgcagggcc gggctccagg ggccctggga ggcttgcagt acccgcagca gcagatgcca 1621 ccgcagtacg gacagcaagc tgtgagtggc tactgccagc aaggccagca gccatactac 1681 aaccagcagc cgcagccctc gcacctcccg ccccaggcac agtacctgca gccggcggcg 1741 gcgcagtccc agcagaggta ccagccacag caggacatgt ctcaagaagg ctatggaact 1801 agatctcagc ctcctctggc ccctggaaaa tccaaccatg aagacttgaa tttaattcaa 1861 caggaaagac catcgagtct accagacctg tctggctcca tcgatgacct ccccacggga 1921 acagaagcaa ctctgagctc agcagtcagt gcatccgggt ctacaagcag ccagggagat 1981 cagagcaacc cagcgcagtc tcctttctcc ccacatgcat cacctcacct ctccagcatc 2041 cctggagggc cgtcaccttc tcctgttggc tctcctgtgg gaagcaacca atcgaggtct 2101 ggtccgatct cccctgcgag tattccaggt agccagatgc ctccgcaacc acctggaagc 2161 cagtcagaat ccagttccca tcctgccttg agccagtcac caatgccaca ggaaagaggt 2221 tttatgacag gcactcagag aaaccctcag atgtctcagt acggacctca gcagacagga 2281 ccatccatgt cgcctcaccc atctcctggg ggccagatgc atcctgggat cagtaacttt 2341 cagcagagta actcaagtgg cacgtacggc ccacagatga gccagtatgg accccaaggc 2401 aactactcca gaaccccaac atatagcggg gtacccagtg caagctacag cggcccaggg 2461 cccggtatgg gcatcaatgc caacaaccag atgcatggac aagggccagc ccagccatgt 2521 ggtgctatgc ccctgggacg aatgccttca gctgggatgc agaacagacc atttcctgga 2581 accatgagca gcgtcacccc cagttctcct ggcatgtctc aacagggagg gccaggaatg 2641 ggcccaccaa tgcccactgt gaaccggaag gcccaggaag ctgccgcagc tgtgatgcag 2701 gctgctgcaa actcagcaca aagcaggcaa ggcagttttc ctggcatgaa ccagagtggc 2761 ctggtggcct ccagctctcc ctacagccag tccatgaaca acaactccag cctgatgagc 2821 acccaggccc agccctacag catgacgccc acaatggtga acagctccac agcatctatg 2881 ggtcttgcag atatgatgtc tcccagtgag tccaaattgt ctgtgcctct taaagcagat 2941 ggtaaagaag aaggcgtgtc ccagcctgag agcaagtcaa aggacagcta tggctctcag 3001 ggcatttccc agcctccaac cccaggcaac ctgcctgtcc cttccccaat gtctcccagc 3061 tctgccagca tctcctcctt tcatggagat gagagtgaca gcattagcag cccaggctgg 3121 cccaagacac catcaagccc taagtccagc tcttcctcca ccactgggga gaagatcacg 3181 aaggtctatg agctggggaa tgagccggag aggaagctgt gggtcgaccg ttacctaacg 3241 ttcatggaag agaggggctc cccggtgtcc agtctgccag cagtgggcaa gaagcccctg 3301 gacctgttcc gactgtatgt ctgcgtcaag gagattggag gtttggcgca ggttaataaa 3361 aacaagaagt ggcgtgagct ggcaaccaac ctgaacgttg gcacttccag cagcgcagcc 3421 agctctctga aaaagcagta tattcagtac ctgttcgcct ttgagtgcaa aactgagcgc 3481 ggggaggagc ccccacctga agtcttcagc accggggatt cgaagaagca gccaaagctc 3541 cagccgccat ctcctgctaa ctcaggatcc ttacaaggcc cacagactcc acagtcaact 3601 gggagcaatt cgatggcaga ggttccaggt gacctgaagc caccaacccc agcctctacc 3661 cctcatggac agatgactcc catgcaaagc ggaagaagca gtacagtcag tgtgcatgac 3721 ccgttctcag acgtgagtga ctcagcgtac ccaaaacgga actccatgac tccaaacgcc 3781 ccataccagc agggcatggg catgccagac atgatgggca ggatgcccta tgaacccaac 3841 aaggaccctt tcagtggaat gagaaaagtg cctggaagta gtgagccctt tatgacacaa 3901 ggacaggtgc ccaacagcgg catgcaggac atgtacaacc agagcccctc aggggccatg 3961 tccaatctgg gcatgggaca gcggcagcag tttccctatg gaaccagtta tgaccgaagg 4021 catgaggctt acggacagca gtacccaggc caaggccctc ccacaggaca gccaccgtat 4081 ggaggacacc agcctggcct gtacccacag cagccgaatt acaaacgtca tatggatggc 4141 atgtacgggc ctccagccaa gcggcacgag ggagacatgt acaacatgca gtatggcagc 4201 cagcagcagg agatgtataa ccagtatgga ggctcctact ctggcccgga cagaaggccc 4261 atccagggac aatatcccta cccctacaac agagaaagga tgcagggccc aggccagatg 4321 cagccacacg gaatcccacc tcagatgatg gggggcccca tgcagtcatc ctccagcgag 4381 gggcctcagc agaacatgtg ggctacacgc aacgatatgc cttatcccta ccagagcagg 4441 caaggcccgg gcggccctgc acaggccccc ccttacccag gcatgaaccg cacagatgat 4501 atgatggtac ctgagcagag gatcaatcac gagagccagt ggccttctca cgtcagccag 4561 cgccagcctt acatgtcatc ttcggcctcc atgcagccca tcacgcgccc acctcagtca 4621 tcctaccaga cgccgccgtc actgccaaac cacatctcca gggcacccag ccccgcctcc 4681 ttccagcgct ccctggagag tcgcatgtct ccaagcaagt ctcccttcct gcccaccatg 4741 aagatgcaga aggtcatgcc cacagtcccc acatcccagg tcaccgggcc ccccccacag 4801 cctccaccaa tcagaaggga gattaccttt cctcctggct ccgtagaagc atcacagcca 4861 atcctgaaac aaaggcgaaa gattacctca aaagatattg ttactcccga ggcgtggcgt 4921 gtgatgatgt cccttaaatc gggtctgttg gctgagagca cgtgggctct ggacaccatc 4981 aatattctcc tctatgatga cagcaccgtc gccaccttca atctttccca gctgtctgga 5041 ttcctggaac tattagtaga gtactttcga aaatgcctaa ttgacatttt cggaattctt 5101 atggaatatg aagtgggtga ccccagccaa aaggctcttg atcaccgttc agggaagaaa 5161 gatgacagcc agtccctgga agatgattct gggaaggaag acgatgatgc tgagtgtctt 5221 gtggaagagg aggaggagga agaggaggag gaggaagaca gtgaaaagat agagtcagag 5281 gggaagagca gccctgccct agctgctcca gatgcctccg tggaccccaa ggagacgcca 5341 aagcaggcca gtaagtttga caagctgccc ataaagattg tcaaaaagaa caagctgttt 5401 gtggtggacc ggtccgacaa gctgggccga gtgcaggagt tcagcagcgg gctcctccac 5461 tggcagctgg gtggtggcga cactaccgag cacatccaga ctcacttcga gagcaagatg 5521 gagatccctc ctcgcaggcg tccacctccg cctctaagct ccacgggtaa gaagaaagag 5581 ctggaaggca aaggtgattc tgaagagcag ccagagaaaa gtatcatagc caccatcgat 5641 gacgtcttgt ctgcccggcc aggggctctg cctgaagaca ccaacccagg accccagacc 5701 gacagcggca agtttccctt tggaatccag caggccaaaa gccaccggaa catcaggctc 5761 ctggaagacg agcccaggag ccgagacgag acgccgctgt gcaccatcgc gcactggcag 5821 gactcactgg ccaagcgctg catctgtgtg tcgaacatcg tgcggagctt gtctttcgtg 5881 cctggcaacg acgcagagat gtccaaacac ccgggcttgg tgctgatcct gggaaagctg 5941 attctgctgc atcacgagca tccggagaga aagcgggcgc cacagaccta tgagaaggag 6001 gaggacgagg acaagggggt ggcctgcagc aaagatgagt ggtggtggga ctgcctcgag 6061 gtcttgcggg ataacaccct ggtcacgttg gcgaacattt ccgggcagct agacttgtct 6121 gcttacacag agagcatctg cttgccgatc ctggacggct tgctacactg gatggtgtgc 6181 ccgtccgcag aggctcagga cccctttccc actgtggggc ccaactcagt cctgtcgccg 6241 cagagacttg tgctggagac cctgtgtaaa ctcagtatcc aggacaacaa cgtggacctg 6301 atcttggcca cgcctccatt tagtcgtcag gagaaatttt atgctacatt agttaggtac 6361 gttggggatc gcaaaaatcc agtctgtcga gaaatgtcca tggcgctttt atcgaacctt 6421 gcccaggggg acacactggc ggcgagggca atagctgtgc agaaaggaag cattggtaac 6481 ttgataagct tcctagagga cggggtgacg atggcgcagt accagcagag ccagcataac 6541 cttatgcaca tgcagccccc acctctggaa ccccctagtg tagacatgat gtgccgggcg 6601 gccaaagctc tgctggccat ggccagagtg gacgagaacc gctcggagtt ccttttgcac 6661 gagggtcggt tgctggatat ctcaatatca gctgtcctga actctctggt tgcatctgtc 6721 atctgtgatg tactgtttca gattgggcag ttatgacatc cgtgaaggca cacatgtgtg 6781 agtgaacatt agagggtcac atataactgg ctgttttctg ttctcgttta tccagtgtaa 6841 gaagaaggaa aagaaaaatc tttgctcctc tgccccgttt actatttacc aattgggaat 6901 taaatcatta atttgaacag ttataaaatt aatatttgct gtctgtgtgt ataagtacat 6961 cctctggcgg ttttctgttt cttttttttt taaccaaagt tgccgtctag tgcattcaaa 7021 ggtcacaatt tttgtttgtt tgtttgtttg tttgtttttt cataattttt ttcatgttgt 7081 attgcagtct ttgggaagtg aattgacttt ataaagaaaa acgttttggc aaaaagtgct 7141 aagatagaaa aatgtcacca cactgggtca aaaacgtgaa aggaaaaatt gattcttaaa 7201 ttgatttcct atgaatttta ttcttcacag aatgataaaa gctaaactgc accccgtcac 7261 ccaaagctct gtgcaataga aacttctaga gatatagtgt aggggctgaa ggaggtatgg 7321 cagcagtagt cagggtcaat gatactgctt tctccaccgg aaagtggtta cgttaggcct 7381 cgagcaaaaa acagcgctct cagataggtg caaaaatcca ctcctagcag ccaacagcag 7441 gatcgcttcc tcaccacgac cgccatgtct gctgtggctc agcctccacg ggacaaagct 7501 tcaagatttc tttcatcatt tttttaaata ttttttttac tgcctatggg ctgtgatgta 7561 tatagaagtt gtacattaaa cataccctca tttttttctt cttttctttt tttctttttt 7621 tctttttctt tttttttttt tttagtacaa agtttttagt ttctttttca tgatgtggta 7681 actacgaagt gatggtagat ttaaataatt ttttattttt attttatata ttttttcatt 7741 aggaccatat ctccaaaaaa caagaaaaag aaacaaaaaa tacaaaaaat aaaaacaaac 7801 aaaaaaagag ggtaatgtac aagtttctgt atgtataaag tcatgctctg ttgggagagc 7861 ggctgatccc agtttgcttc atgaatcaaa gtgtggaaat ggttgcatac agattgattt 7921 agaaaatgga caccagtaca tacaaaaaaa gaaaaaagaa agaaaaccaa ctaaatggaa 7981 gaaacacaac ttcaaagatt tttctgtgac aagaatccac atttgtattt caagataatg 8041 tagtttaaga aaagaaaaaa aagaaaaaaa aagaaaaaaa cttgatgtaa attcctcctt 8101 ttcctctggc ttaatgaata tcatttattc agtataaaat ctttatatgt cccacatgtt 8161 aagaataaat gtacattaaa tcttgttacg cactgtgatg ggtgttcttg aatgctgttc 8221 tagtttgcct agcatggttg ccatagtaac caagttattt acaggaaata gggaagatgt 8281 aacaactgct tcctggtaat gatgcccaaa ggccagaagg gactttcagg gtttcctact 8341 tgagagtggg agcaacaatt tgattttctc agattgttta gctaattagg tcttctttga 8401 agcaattaac tctggtgaca ttgagaagtg gtaattccct catggatggg tggtggctgc 8461 caacccactg tgacatgggg ccctgcaagc taactggcct gaaaccacga ccttctgcct 8521 ctcactactg atttaaccca agtctgcacc cgtcatgttt cttctgtgtg cctccaagtt 8581 actctgcgtt agtttgctcc agcgtgtata atatttatat tgtgcaatgt taaagagaac 8641 gtgtcatatt gtatgccgtg tgtatagtgc caagtgatga ttctgtttca gagcatacct 8701 tccttcctgc ccagtccctg gctctctaat accccaccct gatggaaagt gcttcttcct 8761 gggtaattga ctgttactgt gtaacgctca gtctcattga aacttacata accatgctgc 8821 tggtgcccct tcctacccta cctctctcag cactcttcag ttgacacttc ccacacctgt 8881 cactgtggcc caccttgctc acgctgacat ctggaagagt tagacaggag cacacactta 8941 caacactagg agatgttatt ctggtgtcac gagaaagaaa ttggtttttc ctgcaaacag 9001 tcccatcacc aagcagcccc cacatcaggt cagcaaaaag atctgtgttg aatcaaaact 9061 ccatttataa ttctactaga tgggaataca tctgcttaca aaggacagat tttagtgttc 9121 tgtgatgaaa atatggagag tgcaagagag agttcaatgg aatcctaatc ttgctcttgc 9181 agacaatgaa tgaaaggtat agacaggctc agttccctgt cagaagagtg gtctcaaaga 9241 caagtggctg tatagcagcc aggcccagaa cagcctcgca gcacacacta acaccaagcg 9301 ggtgtctgag ctctcctagg aagccttgtg cctgccctcc ctccattcac ccagatccga 9361 ctcctggaag cccacgaaag agtcaccctt tgcttcacat ttcctgacga taccgagttg 9421 ctgctctgtc ctaaaaatat tagttctttt ccagggcttt cagaaatttg caggatgccc 9481 atactctaaa tgtgtaccaa aaagagagag aaataaaggt gcgaagaaag tttagtattt 9541 tggaatggtg cgataaaatg gaatctgttg gtttttaatg taacataaga tactattggc 9601 tggcactggc taaaaaaaat atctaagtgt tggagttgga tgcacaatca acttttactt 9661 agctattcaa agagtactta tgttttccaa gttaaaacag acttgttttt gacaggggcc 9721 gtgggtggtc ttatacaatg ccagctccta actgcagctt ctgagaactg gatatcgttt 9781 gccctgagag ctgcccgtct ccaactatgt gctgctgctg ccctgtgtgc tcagcccaca 9841 aggatgtgga gactggatag acaacccctt gcttcttgct gggttgtgct gagttctttg 9901 cagtccagtc aagtgcccag agctaccagc ctacgtccct catgcatcca agagaaatga 9961 tcttgactat catgatcaaa acagctgtag taatatttct agtaaatatt tctgatgact 10021 ctgtgtaatc tcctacaaca ggacactatt cattaacttg acagagacat gtgggcatgt 10081 ggtcctgctt tagtttaaca gacaagtcaa ccagttctca ttacttagga agagtgaggc 10141 tatgtctgtt acaatcccaa tgtggtgctt gcccttatcc aaagacagtc cgggggccct 10201 gtctgcctga actatgtctc gctccctctt gggcttccca ctgggatgtg aaaagataac 10261 caatggctcc caggttccca gtgcccccca aaccagtaat caggtctggg actacagaac 10321 ccgcaaaatc atacacaggc tgtttcaaag ccagtactct ctttatactc ctgcttcctc 10381 cagcccccat ttcacacccc acccaaatca caaggtcctc tgaagtctca gaactccaaa 10441 ttaacgttgg gatttacgat gtgaatgctg aggagaaaat tgggagttgg tgggagatca 10501 ccaaattgtc aaaactatga aactcatctg tcttcccaaa tctgacctca gggacttggg 10561 gggttcactc tggcttctgc cacagtattt tctggggaac caaaggcctc gggaatagag 10621 aaacaggttg ccggatatcc tggaagtcta agccatactg accagtttgt cttgagtgtt 10681 ttctttgtga gcctggaact gtccccggac ccctttcttt taaacatggt tcaggacttt 10741 aaaaaaaagc actgtatttt ttttatgtaa gccaagatgc cctccctagc agagatagcg 10801 ttgaactgtc tctagttctg tagcctgaga gacttaaatc gtttaacttc agtgtctttg 10861 tccactctgt tgaactgcta aggattctat tgaatgtgtt ctttgcggct ttggaggagt 10921 tgctgggtgt gtaagtcctg catccctttg cctggtatgt gtatattatt cctttgcctg 10981 gctgtgtatc gttcttcagt gtaagtacac ccacactctg tattcctttg cctgctcccc 11041 gcccccccac acacacacat cctgcatagt tttaaaataa ggcctgagag actgtttcta 11101 tttcctgtca tagctggtga cttttaacag ttgaggcgaa tggcctgtca cttgcctggg 11161 ttcccgtcag gggtgatcca tggaactcct cagtggaaca gaatttagga cagaagatcc 11221 caccttcctt ccaggcctgg ggagaatcag actgtgagat aaaccatgat gctgcccaat 11281 cccactgccc caccttgctt ttaaaataaa gtgcctccta acgtc SEQ ID NO: 38 Mouse ARID1B Amino Acid Sequence (NP_001078824.1) 1 metgllpnhk lkavgeapaa pphqqhhhhh ahhhhhhhah hlhhlhhhha lqqqlnqfqg 61 pqppqpqqqq pppppqqqhp tannslggag ggapqpgpdm eqpqhggakd svagnqadpq 121 gqpllskpgd eddappkmge pagsryehpg lgaqqqpapv avpgggggpa aysefnnyyg 181 saapasggpg gragpcfdqh ggqqspgmgm mhsasaaaga pssmdplqns hegypnsqyn 241 hypgysrpga gggggggggg ggsggggggg gaggaggaaa aaagagavaa aaaaaaaaaa 301 aagggggggy gssssgygvl ssprqqgggm mmgpggggaa slskaaagaa aaaggfqrfa 361 gqnqhpsgat ptlnqlltsp spmmrsyggs ypdyssssap pppsqpqsqa aagaaaggqq 421 aaagmglgkd lgaqyaaasp awaaaqqrsh pamspgtpgp tmgrsqgspm dpmvmkrpql 481 ygmgthphsq pqqsspypgg sygppgaqry plgmqgrapg algglqypqq qmppqygqqa 541 vsgycqqgqq pyynqqpqps hlppgagylq paaaqsqqry qpqqdmsqeg ygtrsqppla 601 pgksnhedln liqqerpssl pdlsgsiddl ptgteatlss aysasgstss qgdqsnpaqs 661 pfsphasphl ssipggpsps pvgspvgsnq srsgpispas ipgsqmppqp pgsqsesssh 721 palsqspmpq ergfmtgtqr npqmsqygpq qtgpsmsphp spggqmhpgi snfqqsnssg 781 tygpqmsqyg pqgnysrtpt ysgvpsasys gpgpgmgina nnqmhgqgpa qpcgamplgr 841 mpsagmqnrp fpgtmssvtp sspgmsqqgg pgmgppmptv nrkaqeaaaa vmqaaansaq 901 srqgsfpgmn qsglvasssp ysqsmnnnss lmstqaqpys mtptmvnsst asmgladmms 961 psesklsvpl kadgkeegvs qpeskskdsy gsqgisqppt pgnlpvpspm spssasissf 1021 hgdesdsiss pgwpktpssp ksssssttge kitkvyelgn eperklwvdr yltfmeergs 1081 pvsslpavgk kpldlfrlyv cvkeigglaq vnknkkwrel atnlnvgtss saasslkkqy 1141 iqylfafeck tergeepppe vfstgdskkq pklqppspan sgslqgpqtp qstgsnsmae 1201 vpgdlkpptp astphgqmtp mqsgrsstvs vhdpfsdvsd saypkrnsmt pnapyqqgmg 1261 mpdmmgrmpy epnkdpfsgm rkvpgssepf mtqgqvpnsg mgdmyngsps gamsnlgmgq 1321 rqqfpygtsy drrheaygqq ypgqgpptgq ppygghqpgl ypqqpnykrh mdgmygppak 1381 rhegdmynmq ygsqqqemyn qyggsysgpd rrpiqgqypy pynrermqgp gqmqphgipp 1441 qmmggpmqss ssegpqqnmw atrndmpypy qsrqgpggpa qappypgmnr tddmmvpeqr 1501 inhesqwpsh vsqrqpymss sasmqpitrp pqssyqtpps lpnhisraps pasfqrsles 1561 rmspskspfl ptmkmqkvmp tvptsqvtgp ppqpppirre itfppgsvea sqpilkqrrk 1621 itskdivtpe awrvmmslks gllaestwal dtinillydd stvatfnlsq lsgflellve 1681 yfrkclidif gilmeyevgd psqkaldhrs gkkddsgsle ddsgkeddda eclveeeeee 1741 eeeeedseki esegksspal aapdasvdpk etpkqaskfd klpikivkkn klfvvdrsdk 1801 lgrvqefssg llhwqlgggd ttehigthfe skmeipprrr pppplsstgk kkelegkgds 1861 eeqpeksiia tiddvlsarp galpedtnpg pqtdsgkfpf giqqakshrn irlledeprs 1921 rdetplctia hwqdslakrc icvsnivrsl sfvpgndaem skhpglvlil gklillhheh 1981 perkrapqty ekeededkgv acskdewwwd clevlrdntl vtlanisgql dlsaytesic 2041 1pildgllhw mvcpsaeaqd pfptvgpnsv lspqrlvlet lcklsiqdnn vdlilatppf 2101 srgekfyatl vryvgdrknp vcremsmall snlaqgdtla araiavqkgs ignlisfled 2161 gvtmagyqqs qhnlmhmqpp pleppsvdmm craakallam arvdenrsef llhegrlldi 2221 sisavinslv asvicdvlfq igql SEQ ID NO: 39 Human SMARCC1 cDNA Sequence (NM_003074.3, CDS: 119-3436) 1 ctgggcgggg ccgggaagcg gcagtggcgg ctacgcgcgc gggggtgcgc gcgggaacga 61 ccgggaaaca ccgcgagggc cggggtgggc caggctgtgg ggacgacggg ctgcgacgat 121 ggccgcagcg gcgggcggcg gcgggccggg gacagcggta ggcgccacgg gctcggggat 181 tgcggcggca gccgcaggcc tagctgttta tcgacggaag gatgggggcc cggccaccaa 241 gttttgggag agcccggaga cggtgtccca gctggattcg gtgcgggtct ggctgggcaa 301 gcactacaag aagtatgttc atgcggatgc tcctaccaat aaaacactgg ctgggctggt 361 ggtgcagctt cttcagttcc aggaagatgc ctttgggaag catgtcacca acccggcctt 421 caccaaactc cctgcaaagt gtttcatgga tttcaaagct ggaggcgcct tatgtcacat 481 tcttggggct gcttacaagt ataaaaatga acagggatgg cggaggtttg acctacagaa 541 cccatctcga atggatcgta atgtggaaat gtttatgaac attgaaaaaa cattggtgca 601 gaacaattgt ttgaccagac ccaacatcta cctcattcca gacattgatc tgaagttggc 661 taacaaattg aaagatatca tcaaacgaca tcagggaaca tttacggatg agaagtcaaa 721 agcttcccac cacatttacc catattcttc ctcacaagac gatgaagaat ggttgagacc 781 ggtgatgaga aaagagaagc aagtgttagt gcattggggc ttttacccag acagctatga 841 tacttgggtc catagtaatg atgttgatgc tgaaattgaa gatccaccaa ttccagaaaa 901 accatggaag gttcatgtga aatggatttt ggacactgat attttcaatg aatggatgaa 961 tgaggaggat tatgaggtgg atgaaaatag gaagcctgtg agttttcgtc agcggatttc 1021 aaccaagaat gaagagccag tcagaagtcc agaaagaaga gatagaaaag catcagctaa 1081 tgctcgaaag aggaaacatt cgccttcgcc tccccctccg acaccaacag aatcacggaa 1141 gaagagtggg aagaaaggcc aagctagcct ttatgggaag cgcagaagtc agaaagagga 1201 agatgagcaa gaagatctaa ccaaggatat ggaagaccca acacctgtac ccaatataga 1261 agaagtagta cttcccaaaa atgtgaacct aaagaaagat agtgaaaata cacctgttaa 1321 aggaggaact gtagcggatc tagatgagca ggatgaagaa acagtcacag caggaggaaa 1381 ggaagatgaa gatcctgcca aaggtgatca gagtcgatca gttgaccttg gggaagataa 1441 tgtgacagag cagaccaatc acattattat tcctagttat gcatcatggt ttgattataa 1501 ctgtattcat gtgattgaac ggcgtgctct tcctgagttc ttcaatggaa aaaacaaatc 1561 caagactcca gaaatatact tggcatatcg aaattttatg attgacacgt atcgtctaaa 1621 cccccaagag tatttaacta gcactgcttg tcggaggaac ttgactggag atgtgtgtgc 1681 tgtgatgagg gtccatgcct ttttagagca gtggggactc gttaattacc aagttgaccc 1741 ggaaagtaga cccatggcaa tgggacctcc tcctactcct cattttaatg tattagctga 1801 taccccctct gggcttgtgc ctctgcatct tcgatcacct caggttcctg ctgctcaaca 1861 gatgctaaat tttcctgaga aaaacaagga aaaaccagtt gatttgcaga actttggtct 1921 ccgtactgac atttactcca agaaaacatt agcaaagagt aaaggtgcta gtgctggaag 1981 agaatggact gaacaggaga cccttctact cctggaggcc ctggagatgt acaaggatga 2041 ttggaacaaa gtgtcggaac atgttggaag tcgtactcag gatgaatgca tcctccactt 2101 tttgagactt cccattgagg acccatacct tgagaattca gatgcttccc ttgggccttt 2161 ggcctaccag cctgtcccct tcagtcagtc aggaaatcca gttatgagta ctgttgcttt 2221 tttggcatct gtggtggacc ctcgcgtggc atctgctgca gcaaaagcgg ctttggagga 2281 gttttctcgg gtccgggagg aggtaccact ggaattggtt gaagctcatg tcaagaaagt 2341 acaagaagca gcacgagcct ctgggaaagt ggatcccacc tacggtctgg agagcagctg 2401 cattgcaggc acagggcccg atgagccaga gaagcttgaa ggagctgaag aggaaaaaat 2461 ggaagccgac cctgatggtc agcagcctga aaaggcagaa aataaagtgg aaaatgaaac 2521 ggatgaaggt gataaagcac aagatggaga aaatgaaaaa aatagtgaaa aggaacagga 2581 tagtgaagtg agtgaggata ccaaatcaga agaaaaggag actgaagaga acaaagaact 2641 cactgataca tgtaaagaaa gagaaagtga tactgggaag aagaaagtag aacatgaaat 2701 ttccgaagga aatgttgcca cagccgcagc agctgctctt gcctcagcgg ctaccaaagc 2761 caagcacctg gctgcagtgg aagaaagaaa gatcaagtcc ctggtagctc tcttggttga 2821 gacacaaatg aagaaactag agatcaaact tcgacatttt gaagagctgg aaactatcat 2881 ggacagagag aaagaagctc tagaacaaca gaggcagcag ttgcttactg aacgccaaaa 2941 cttccacatg gaacagctga agtatgctga attacgagca cgacagcaaa tggaacagca 3001 gcagcatggc cagaaccctc aacaggcaca ccagcactca ggaggacctg gcctggcccc 3061 acttggagca gcagggcacc ctggcatgat gcctcatcaa cagccccctc cctaccctct 3121 gatgcaccac cagatgccac cacctcatcc accccagcca ggtcagatac caggcccagg 3181 ttccatgatg cccgggcagc acatgccagg ccgcatgatt cccactgttg cagccaacat 3241 ccacccctct gggagtggcc ctacccctcc tggcatgcca ccaatgccag gaaacatctt 3301 aggaccccgg gtacccctga cagcacctaa cggcatgtat ccccctccac cacagcagca 3361 gccaccgcca ccaccacctg cagatggggt ccctccgcct cctgctcctg gcccgccagc 3421 ctcagctgct ccttagcctg gaagatgcag ggaacctcca cgcccaccac catgagctgg 3481 agtggggatg acaagacttg tgttcctcaa ctttcttggg tttctttcag gatttttctt 3541 ctcacagctc caagcacgtg tcccgtgcct ccccactcct cttaccaccc ctctctctga 3601 cactttttgt gttgggtcct cagccaacac tcaaggggaa acctgtagtg acagtgtgcc 3661 ctggtcatcc ttaaaataac ctgcatctcc cctgtcctgg tgtgggagta agctgacagt 3721 ttctctgcag gtcctgtcaa ctttagcatg ctatgtcttt accatttttg ctctcttgca 3781 gttttttgct ttgtcttatg cttctatgga taatgctata taatcattat ctttttatct 3841 ttctgttatt attgttttaa aggagagcat cctaagttaa taggaaccaa aaaataatga 3901 tgggcagaag ggggggaata gccacagggg acaaacctta aggcattata agtgacctta 3961 tttctgcttt tctgagctaa gaatggtgct gatggtaaag tttgagactt ttgccacaca 4021 caaatttgtg aaaattaaac gagatgtgga aggagaacct cagtgatttt attccctagt 4081 gaggcctctg agggcctcca cactgcctgg cagaacatac cactgaacta gtatgtgcta 4141 gaggagggca caaacatccg ctccttccct aggcctgctg gctctggttt tctatgcaga 4201 tgattcattg gattgggggt gagtgttttg tttttctggg ggcagtgtga gctttgaggg 4261 ttggaatatt gggaggcatt ccttagtttc ctcaactagc ctggaaagtt aggagtctag 4321 ggtaattacc cccaatgagt ctagcctact attcactgct ttgtgtgcat ttttttctcc 4381 ctctttaaaa aaccctttaa aagaaaaaaa aaagtagata gtgctaaata ttttagctca 4441 tgaaacttgg ttaggatggc tgggggtaca agtccccaaa ctacctcttg ttacagtagc 4501 cagggagtgg aatttcgtca accggtactt ttaaggttag gatgggacgg gaaaagtgaa 4561 gcaggatatt agctccttat accttctccc ttccatttct gagatctcac attccatcta 4621 tcacagggtt ttcaaagaga tgctgagggt aacaaggaac tcacttggca gtcagagcat 4681 catgctttga ggtttggggt gctcaggctg ggagggtaga atgccattcc agaggacaag 4741 ccacaaaaat gccttaattt gagctcgtat ttacccctgc tgataagtga cttgagagtt 4801 cccggttttt tcctcttgtc cttccctccc ttctgtcctt ccatgtgtgg ggaaagggtg 4861 tttttggtag agcttggttt ccaaagcgcc tggctttctc acttcacatt ctcaagtggc 4921 agtttcatta tttagaatgc aaggtggaca tcttttggat atctttttct atatattttc 4981 taaagcttta catatgagag ggtataggga ggtgtttata aaacacttga gaactttttt 5041 ccttaatatc agaaagcaaa aaaataaaac cacaattgag atttgccttt caaaccctca 5101 ggtttgcctc taaccaggtg tccctggtca ccatcagagt actggaatac gggaaccgag 5161 gagaccttgg tccttttgtt tttgttctgg actcttggga gtggaaatga gaatgagttt 5221 attcctactg gagcttagtt ccaatgcatt tggctccaga aagaccccag tgccttttga 5281 caatggccag ggttttacct acttcctgcc agtctttccc aaaggaaact cattccaaat 5341 acttcttttt tcccctggag tccgagaagg aaaatggaat tctggttcat actgtggtcc 5401 cttgtaacct caggtcttta atgtgatcac tttcaaattt aaaagatcca ggtggaaata 5461 tttttactat agtaataatt ctacaaaata cctgaattct taacactgtt atatttcagt 5521 ataagtggtg gctttttctt ttcatgtctt tgatctggtt ttattcctgt aattcagcca 5581 cctgattttg tgaggggggg gaataatatg tggtttttgt acaaacatgt ttctcagtgt 5641 gttgttattt tggaaaaaat gaggggaggg agtttggcaa gaatggagaa aatgaatgaa 5701 gaaggcctaa tctctctctt tttcagtgaa taaatggaac accatttctg gattctaaaa 5761 aaaaaaaaaa aaaaaaaaaa SEQ ID NO: 40 Human SMARCC1 Amino Acid Sequence (NP_003065.3) 1 maaaaggggp gtavgatgsg iaaaaaglav yrrkdggpat kfwespetvs qldsvrvwlg 61 khykkyvhad aptnktlagl vvqllqfqed afgkhvtnpa ftklpakcfm dfkaggalch 121 ilgaaykykn eqgwrrfdlq npsrmdrnve mfmniektiv qnncltrpni ylipdidlkl 181 anklkdiikr hqgtftdeks kashhiypys ssqddeewlr pvmrkekqvl vhwgfypdsy 241 dtwvhsndvd aeiedppipe kpwkvhvkwi ldtdifnewm needyevden rkpvsfrqri 301 stkneepvrs perrdrkasa narkrkhsps pppptptesr kksgkkgqas lygkrrsqke 361 edeqedltkd medptpvpni eevvlpknvn lkkdsentpv kggtvadlde qdeetvtagg 421 kededpakgd qsrsvdlged nvteqtnhii ipsyaswfdy ncihvierra lpeffngknk 481 sktpeiylay rnfmidtyrl npqeyltsta crrnitgdvc avmrvhafle qwglvnyqvd 541 pesrpmamgp pptphfnvla dtpsglvplh lrspqvpaaq qmlnfpeknk ekpvdlqnfg 601 lrtdiyskkt lakskgasag rewtegetll llealemykd dwnkvsehvg srtqdecilh 661 flrlpiedpy lensdaslgp layqpvpfsq sgnpvmstva flasvvdpry asaaakaale 721 efsrvreevp lelveahvkk vqeaarasgk vdptygless ciagtgpdep eklegaeeek 781 meadpdgqqp ekaenkvene tdegdkagdg eneknsekeq dsevsedtks eeketeenke 841 ltdtckeres dtgkkkvehe isegnvataa aaalasaatk akhlaaveer kikslvallv 901 etqmkkleik lrhfeeleti mdrekealeq grqqllterq nfhmeqlkya elrarqqmeq 961 qqhgqnpqqa hqhsggpgla plgaaghpgm mphqqpppyp lmhhqmppph ppqpgqipgp 1021 gsmmpgqhmp grmiptvaan ihpsgsgptp pgmppmpgni lgprvpltap ngmyppppqg 1081 qppppppadg vppppapgpp asap SEQ ID NO: 41 Mouse SMARCC1 cDNA Sequence (NM_009211.2, CDS: 94-3408) 1 ggaggtggca tctgcgcgcg cgcgcgcggg tgcgaacggg aaacgccgcg agggccaggc 61 taggccgggc ggtagacacg acggacggtg actatggccg cgacagcggg tggcggtccg 121 ggagcagcag caggcgccgt gggtgcaggg ggtgcggcgg cggcctccgg gctggccgtg 181 taccggagga aggacggggg cccggccagc aagttttggg agagcccgga cacggtgtcc 241 cagctagatt cggtgcgagt ctggctgggc aagcactaca agaagtatgt tcatgcagat 301 gctcctacca ataaaacact agctggactg gtggtgcagc ttctacagtt ccaagaagat 361 gcctttggga agcatgtcac caacccagct ttcaccaaac tacctgcaaa atgtttcatg 421 gatttcaaag ctggaggcac cttgtgtcac attcttgggg cagcttacaa gtacaaaaat 481 gaacagggct ggcggagatt tgatcttcag aacccatccc gaatggatcg taacgttgaa 541 atgttcatga acattgagaa aacattggta cagaacaact gtctgactag accaaacatc 601 tacctcattc cagacattga tttgaagttg gctaacaagt tgaaagatat catcaaacgg 661 catcagggga catttactga tgagaagtca aaagcttccc accatattta tccatatcct 721 tcctcacaag aggatgagga gtggctgaga ccagtgatga ggagagacaa gcaggtgctg 781 gtgcactggg gtttctaccc agacagctat gacacttggg tccacagtaa tgatgttgat 841 gctgaaattg aagatgcacc aatcccagaa aagccctgga aggttcatgt aaaatggatt 901 ttggacactg acgttttcaa tgaatggatg aatgaagagg attatgaagt ggatgagaac 961 agaaagccag tgagctttcg tcaacgaatt tcaacaaaga atgaagagcc agtcagaagt 1021 ccagaaagga gagacagaaa agcctctgcc aactctagga agaggaaacc ttccccttct 1081 cctcctcctc ccacagccac agagtcccgc aagaagagcg ggaagaaagg acaagctagc 1141 ctttatggga aacgtagaag tcagaaggaa gaagatgagc aagaagatct taccaaggac 1201 atggaagacc ccacacctgt acctaacata gaggaagtgg ttctccctaa gaatgtaaac 1261 ccaaagaagg acagtgaaaa cacacccgtt aaaggaggca cggtggcaga tctagatgag 1321 caggatgaag aagcagttac aacaggagga aaggaagatg aagatcccag caaaggtgat 1381 ccaagtcgct cagttgaccc aggtgaagac aacgtgacag aacagaccaa tcacatcatt 1441 attcccagct acgcatcctg gtttgattat aattgtattc atgtcattga acggcgtgcg 1501 cttcctgagt tctttaatgg aaaaaacaaa tccaagaccc ctgaaatata cttggcatat 1561 cgaaatttta tgattgacac ataccgtcta aaccctcaag aatatttaac cagcactgct 1621 tgccggcgaa acctgactgg agatgtgtgt gctgtgatga gggttcatgc cttcttagag 1681 cagtggggtc ttgttaacta ccaagttgac ccagagagtc gacccatggc aatgggacct 1741 cctcccactc ctcacttcaa tgtgttagct gacacaccct ctgggcttgt gcccctgcat 1801 cttcgatcac ctcaggtccc tgccgctcaa cagatgttaa attttcctga gaagaacaag 1861 gaaaaaccaa ttgatttgca gaactttggt cttcgaactg acatttactc caagaaaaca 1921 ctggcaaaga gtaaaggtgc tagtgctgga agggagtgga cagaacagga gacccttctt 1981 ctcctagagg ctctggagat gtacaaggac gattggaata aagtgtcaga acatgttgga 2041 agccgtactc aggacgaatg catcctccac tttctgaggc ttcccattga ggacccttac 2101 cttgaaaatt cagatgcttc tcttgggcca ctggcttacc agcctgtccc tttcagccag 2161 tcgggaaacc cggtgatgag cactgttgcc tttttagcat ctgtcgttga cccccgtgta 2221 gcatctgctg cagcaaaagc agcgttggag gagttttctc gtgtccgaga agaagtaccc 2281 ctggaattgg ttgaagcaca tgtcaagaaa gtacaggaag ctgcaagagc ctctgggaag 2341 gtggacccca cctatggctt ggagagcagc tgtattgctg gcacagggcc tgacgagcca 2401 gagaagcttg aaggatctga agaagagaag atggaaacag atcctgatgg tcagcagcct 2461 gaaaaggcag aaaacaaagt ggaaaatgaa tcggatgaag gtgataaaat acaagatcga 2521 gagaatgaaa aaaacactga gaaggaacaa gatagtgacg tcagtgagga tgtcaagcca 2581 gaagaaaagg agaatgaaga gaacaaagag ctcactgata catgtaaaga aagagaaagc 2641 gatgccggga agaagaaagt ggaacacgag atttcggaag gaaacgttgc cacagccgca 2701 gcagctgctc tggcctcagc tgctactaaa gccaagcacc tggcggctgt tgaagaaaga 2761 aaaatcaagt ccttggtagc tctcttggtt gaaacacaaa tgaagaaact agagatcaaa 2821 cttcgacatt ttgaagagct ggagactata atggacagag agaaagaggc tctagaacaa 2881 cagagacagc agttgcttac tgagcgtcag aacttccaca tggaacagtt gaaatatgct 2941 gaactacgtg cccggcagca aatggagcag cagcagcagc atggccagac acctcagcag 3001 gcgcaccagc acacgggagg gccggggatg gccccacttg gagccacagg ccaccctggc 3061 atgatgccgc atcagcagcc ccctccctac ccactgatgc accatcagat gccgccaccc 3121 catcctcccc aaccaggtca aataccaggc cctggctcca tgatgcctgg ccagcccatg 3181 ccaggtcgca tgatccccgc tgtggcagcc aacattcacc ctactgggag tggccctacc 3241 cctcctggta tgcctccaat gcccggaaac atcttaggac cccgggtacc cctcacagca 3301 ccaaacggca tgtatcctcc tccaccacag cagcagcagc cgcctcctcc tgcagatggg 3361 gtccctccac ctcctgctcc aggcccaccc gcctcggcca ctccctagcc tggaagatac 3421 aagagcctcc acagccacca caagcaggaa tggggatggc aggacttgtg tctcggcttc 3481 cttggttttc ttgcaggatt tttttttcac aaccccaagc acaagcccca tgtctctcca 3541 ctccttgata cttcttgtgt caggtcctta gttgacactc attgggaagc ctgtggtgac 3601 tgatgtgctc tggtcattta aaaagtacca tgtgtctccc ctgtccccgt gtgacagatg 3661 ttggcaggtg gtctgcaggt cctgttgtgt tgacattagt attctttgtg tgtatctctc 3721 tctgtctctc tctctctgct ttgtctaagg cttcaatgta taatcctcta taattattgt 3781 cctttcttcc tttgtaatgg ttgttttttt aaggaaagta tcctaagtta atagaaacca 3841 aaaaaaatgg taatgggcag aaagagatag ccacagaggg acacacctta aggcattata 3901 agtgacctta tttctgctta tctgagctag agtggtgcta ctgatagagt ccctgagact 3961 tgtcacacat aagtgcacca agatgagaag agctggggaa agggggtatc ctttcgattt 4021 gatttcctgg tgaggaccat gaaggacttc cctgtgcctg gaagaacatg ccactgtacc 4081 tagtacacga tagatagcaa agagcacagc tttacaacaa gcccttccta ccttctcccg 4141 ccattctggt tgtctgtgca gaagatttgc aggattggaa catggtggtt gttttcccaa 4201 gggcagcgtg agctttcaga gttggggttt tcccagtcta acaaagataa agggtctggg 4261 gccctaccta caaaccttta ggaacccttc caaacctccc aaccttcccc aaacacatag 4321 ggcctaccct cgccacccca ataaacatta catgtttttt aaaccttcct ataagaaagg 4381 aaaaaaatgt aaaatgggtt atagattatg ttgaacattt tatctcatgc ggcttggtgg 4441 gggtgggggt acagatccct aaactacctc ttgctgtagc cagggtgagc ggggttctta 4501 agcggtactg aggtgcagaa cgggagtggg aatgctcaca tgtgatgagc agcctcctgt 4561 acctcacatt ctgagacctc acattccatc tgttgtcaca gggttatgga gactgtgcta 4621 atggcacaag gacctcactt ggctccagag tgcgaggctg taaggtttaa gtgccatccc 4681 agaggaattg ccaccaaaaa aaaaaaaaaa agccttaatc tgagcctgta tctacccctg 4741 ctgatgaaca actagatggg ttttggtttt gccagcttct ttcctccctc cctccctccc 4801 tccctccctc cctccctcct ttctgtcttt ccattagtag caaaagggtg tttttagcag 4861 aactttaagt ggcagtttca ttcttgagag tgcaaggtag agcaccttac gggtgtattt 4921 ttatgtgtat tttaaagctt tatgtatgag agctataggt aggcatttct taataacaca 4981 aaaacctaca gttgagattt gcctttaaga ctcttggttt tcctctaacc aggagcccac 5041 gtcaccgcca gagtcctgga gctagagcta atgactccag agccttgggg tggaaatgga 5101 gattcgctta ttccctgggt gcttgttttt cctccaggaa aaccccggtg tcttctgacc 5161 gcagccaggg ttgccctcct tccctccatt ctctcccaaa gtaaattgac tccagcactt 5221 gccttctccc cggagtccta ggggaggtat aggactctgc ttgtctgtaa cctgaggtct 5281 gtaatgtgat tgctttccag ttttgagaga tgcaagtggg aatagttttt acattgttga 5341 taatctatag aacctaagtt caacacttca acacagctct ttccatgact gtcagttagg 5401 tatcattcct gtaataacac ccatccagtt ttgtgagggg cgggcttgga tactgtgtgg 5461 tttttgtaca aatgtgtttc tcagtgtggg tttttgtttt ttgttgggtt tttttttttt 5521 ttttggtgtt tttttgtttg tttatttgtt ttttttcttt aggttttgtt ctaatgaggt 5581 aaaggagctt tgagagtttg ggagaaaatg aatgaaagtg gcttaatgtc cctcgtttgc 5641 attgaataaa tgaaatacca tttatgaatt ctaaaaaaaa aaaa SEQ ID NO: 42 Mouse SMARCC1 Amino Acid Sequence (NP_033237.2) 1 maatagggpg aaagavgagg aaaasglavy rrkdggpask fwespdtvsq ldsvrvwlgk 61 hykkyvhada ptnktlaglv vqllqfgeda fgkhvtnpaf tklpakcfmd fkaggtichi 121 lgaaykykne qgwrrfdlqn psrmdrnvem fmniektivq nncltrpniy lipdidlkla 181 nklkdiikrh qgtftdeksk ashhiypyps sqedeewlrp vmrrdkqvlv hwgfypdsyd 241 twvhsndvda eiedapipek pwkvhvkwil dtdvfnewmn eedyevdenr kpvsfrqris 301 tkneepvrsp errdrkasan srkrkpspsp ppptatesrk ksgkkggasl ygkrrsqkee 361 deqedltkdm edptpvpnie evvlpknvnp kkdsentpvk ggtvadldeq deeavttggk 421 ededpskgdp srsvdpgedn vteqtnhiii psyaswfdyn cihvierral peffngknks 481 ktpeiylayr nfmidtyrin pqeyltstac rrnitgdvca vmrvhafleq wglvnyqvdp 541 esrpmamgpp ptphfnvlad tpsglvplhl rspqvpaagq mlnfpeknke kpidlqnfgl 601 rtdiyskktl akskgasagr ewtegetlll lealemykdd wnkvsehvgs rtqdecilhf 661 lrlpiedpyl ensdaslgpl aygpvpfsgs gnpvmstvaf lasvvdprva saaakaalee 721 fsrvreevpl elveahvkkv qeaarasgkv dptyglessc iagtgpdepe klegseeekm 781 etdpdgqqpe kaenkvenes degdkiqdre nekntekeqd sdvsedvkpe ekeneenkel 841 tdtckeresd agkkkvehei segnvataaa aalasaatka khlaaveerk ikslvallve 901 tqmkkleikl rhfeeletim drekealegq rqqllterqn fhmeqlkyae lrarqqmeqq 961 qqhgqtpqqa hqhtggpgma plgatghpgm mphqqpppyp lmhhqmppph ppqpgqipgp 1021 gsmmpgqpmp grmipavaan ihptgsgptp pgmppmpgni lgprvpltap ngmyppppqq 1081 qqppppadgv ppppapgppa satp SEQ ID NO: 43 Human SMARCC2 cDNA Sequence Variant 1 (NM_003075.4, CDS: 114-3758) 1 ggaggcggcg gccgcggcgg cgggaggcgg cgggaggcgg gcggaggagg aggcggagga 61 ggcgggagct gagctgagtg gggcgggcgg cggcggggcc cgagccggag aagatggcgg 121 tgcggaagaa ggacggcggc cccaacgtga agtactacga ggccgcggac accgtgaccc 181 agttcgacaa cgtgcggctg tggctcggca agaactacaa gaagtatata caagctgaac 241 cacccaccaa caagtccctg tctagcctgg ttgtacagtt gctacaattt caggaagaag 301 tttttggcaa acatgtcagc aatgcaccgc tcactaaact gccgatcaaa tgtttcctag 361 atttcaaagc gggaggctcc ttgtgccaca ttcttgcagc tgcctacaaa ttcaagagtg 421 accagggatg gcggcgttac gatttccaga atccatcacg catggaccgc aatgtggaaa 481 tgtttatgac cattgagaag tccttggtgc agaataattg cctgtctcga cctaacattt 541 ttctgtgccc agaaattgag cccaaactac tagggaaatt aaaggacatt atcaagagac 601 accagggaac agtcactgag gataagaaca atgcctccca tgttgtgtat cctgtcccgg 661 ggaatctaga agaagaggaa tgggtacgac cagtcatgaa gagggataag caggttcttc 721 tgcactgggg ctactatcct gacagttacg acacgtggat cccagcgagt gaaattgagg 781 catctgtgga agatgctcca actcctgaga aacctaggaa ggttcatgca aagtggatcc 841 tggacaccga caccttcaat gaatggatga atgaggaaga ctatgaagta aatgatgaca 901 aaaaccctgt ctcccgccga aagaagattt cagccaagac actgacagat gaggtgaaca 961 gcccagattc agatcgacgg gacaagaagg ggggaaacta taagaagagg aagcgctccc 1021 cctctccttc accaacccca gaagcaaaga agaaaaatgc taagaaaggt ccctcaacac 1081 cttacactaa gtcaaagcgt ggccacagag aagaggagca agaagacctg acaaaggaca 1141 tggacgagcc ctcaccagtc cccaatgtag aagaggtgac acttcccaaa acagtcaaca 1201 caaagaaaga ctcagagtcg gccccagtca aaggcggcac catgaccgac ctggatgaac 1261 aggaagatga aagcatggag acgacgggca aggatgagga tgagaacagt acggggaaca 1321 agggagagca gaccaagaat ccagacctgc atgaggacaa tgtgactgaa cagacccacc 1381 acatcatcat tcccagctac gctgcctggt ttgactacaa tagtgttcat gccattgagc 1441 ggagggctct ccccgagttc ttcaacggca agaacaagtc caagactcca gagatctacc 1501 tggcctatcg aaactttatg attgacactt accgactgaa cccccaagag tatcttacct 1561 ctaccgcctg ccgccgaaac ctagcgggtg atgtctgtgc catcatgagg gtccatgcct 1621 tcctagaaca gtggggtctt attaactacc aggtggatgc tgagagtcga ccaaccccaa 1681 tggggcctcc gcctacctct cacttccatg tcttggctga cacaccatca gggctggtgc 1741 ctctgcagcc caagacacct cagcagacct ctgcttccca acaaatgctc aactttcctg 1801 acaaaggcaa agagaaacca acagacatgc aaaactttgg gctgcgcaca gacatgtaca 1861 caaaaaagaa tgttccctcc aagagcaagg ctgcagccag tgccactcgt gagtggacag 1921 aacaggaaac cctgcttctc ctggaggcac tggaaatgta caaagatgac tggaacaaag 1981 tgtccgagca tgtgggaagc cgcacacagg acgagtgcat cttgcatttt cttcgtcttc 2041 ccattgaaga cccatacctg gaggactcag aggcctccct aggccccctg gcctaccaac 2101 ccatcccctt cagtcagtcg ggcaaccctg ttatgagcac tgttgccttc ctggcctctg 2161 tcgtcgatcc ccgagtcgcc tctgctgctg caaagtcagc cctagaggag ttctccaaaa 2221 tgaaggaaga ggtacccacg gccttggtgg aggcccatgt tcgaaaagtg gaagaagcag 2281 ccaaagtaac aggcaaggcg gaccctgcct tcggtctgga aagcagtggc attgcaggaa 2341 ccacctctga tgagcctgag cggattgagg agagcgggaa tgacgaggct cgggtggaag 2401 gccaggccac agatgagaag aaggagccca aggaaccccg agaaggaggg ggtgctatag 2461 aggaggaagc aaaagagaaa accagcgagg ctcccaagaa ggatgaggag aaagggaaag 2521 aaggcgacag tgagaaggag tccgagaaga gtgatggaga cccaatagtc gatcctgaga 2581 aggagaagga gccaaaggaa gggcaggagg aagtgctgaa ggaagtggtg gagtctgagg 2641 gggaaaggaa gacaaaggtg gagcgggaca ttggcgaggg caacctctcc accgctgctg 2701 ccgccgccct ggccgccgcc gcagtgaaag ctaagcactt ggctgctgtt gaggaaagga 2761 agatcaaatc tttggtggcc ctgctggtgg agacccagat gaaaaagttg gagatcaaac 2821 ttcggcactt tgaggagctg gagactatca tggaccggga gcgagaagca ctggagtatc 2881 agaggcagca gctcctggcc gacagacaag ccttccacat ggagcagctg aagtatgcgg 2941 agatgagggc tcggcagcag cacttccaac agatgcacca acagcagcag cagccaccac 3001 cagccctgcc cccaggctcc cagcctatcc ccccaacagg ggctgctggg ccacccgcag 3061 tccatggctt ggctgtggct ccagcctctg tagtccctgc tcctgctggc agtggggccc 3121 ctccaggaag tttgggccct tctgaacaga ttgggcaggc agggtcaact gcagggccac 3181 agcagcagca accagctgga gccccccagc ctggggcagt cccaccaggg gttccccccc 3241 ctggacccca tggcccctca ccgttcccca accaacaaac tcctccctca atgatgccag 3301 gggcagtgcc aggcagcggg cacccaggcg tggcgggtaa tgctcctttg ggtttgcctt 3361 ttggcatgcc gcctcctcct cctcctcctg ctccatccat catcccattt ggtagtctag 3421 ctgactccat cagtattaac ctccccgctc ctcctaacct gcatgggcat caccaccatc 3481 tcccgttcgc cccgggcact ctccccccac ctaacctgcc tgtgtccatg gcgaaccctc 3541 tacatcctaa cctgccggcg accaccacca tgccatcttc cttgcctctc gggccggggc 3601 tcggatccgc cgcagcccaa agccctgcca ttgtggcagc tgttcagggc aacctcctgc 3661 ccagtgccag cccactgcca gacccaggca cccccctgcc tccagacccc acagccccga 3721 gcccaggcac ggtcacccct gtgccacctc cacagtgagg agccagccag acatctctcc 3781 ccctcacccc ctgtggacat cacggttcca ggaacagccc ttcccccacc actgggaccc 3841 tccccagcct ggagagttca tcactacgta aggaaagctc cttccgcccc tccaaagccc 3901 tcaccatgcc taacagaggc atgcattttt atatcagatt attcaaggac ttctgtttaa 3961 aagatgttta taatgtctgg gagagaggat aggatgggaa tgctgcccta aaggaagggc 4021 tggtgaaagg tgtttataca aggttctatt aaccacttct aagggtacac ctccctccaa 4081 actactgcat tttctatgga ttaaaaaaaa aaaaaaaaag tagattttaa aaagccacat 4141 tggagctccc ttctacccac taaaaaataa ccaattttta cattttttga gggggagtga 4201 gttttaggaa aggggaatta agattccagg gagagctctg gggatagaac agggcgcaga 4261 ttccatctct ccccaagccc ctttttagtg actaagtcaa ggccccaact cccctccccc 4321 accctacgct gagcttattc gagttcattc gtactaataa tccctcctgc ggcttcctca 4381 ttgttgctgt tttaggccac cccagctcag ccaatgattc ctttccctct gaatgtcagt 4441 tttgttttta aaagtcactt gcttagttga tgtcagcgta tgtgtatttg gtggggaaaa 4501 cctaatttcg gggatttctg tggtaggtaa taggagaaga aagggcactg ggggctgttc 4561 tccttccttc cctgggctgt atccatggac tcctggaagg cacagagaag ggagctataa 4621 gaggatgtga agttttaaaa cctgaaattg ttttttaaag cacttaagca cctccatatt 4681 atgacttggt gggtcacccc ttagcttcct ccctctccca ccaagactat gagaacttca 4741 gctgatagct gggggctccc cagatgagga tgcagggatt tgggagcagt ggaagagggt 4801 gcccaacctt gggttggacc aacccttggc tcgcagctca actctgcttc ccgcattcct 4861 gctccacgtg tcccagcttc tcccctgtga cgggaaggca ggtgtgactc caggctctgc 4921 actggttctt cttggttcct cccaccaggc cctttgttcc tcatgtcccc atgtttctct 4981 ccctctgcgt cttagcacct ttcttctgtt caaagttttc tgtaaatttt ctcttttttt 5041 ctttctttct tttttttttt tttataaatt aatttgcttt cagttccaaa aaaaaaaaaa 5101 aaaaaa SEQ ID NO: 44 Human SMARCC2 Amino Acid Sequence Isoform A (NP_003066.2) 1 mavrkkdggp nvkyyeaadt vtqfdnvrlw lgknykkyiq aepptnksls slvvqllqfq 61 eevfgkhvsn apltklpikc fldfkaggsl chilaaaykf ksdqgwrryd fqnpsrmdrn 121 vemfmtieks lvqnnclsrp niflcpeiep kllgklkdii krhqgtvted knnashvvyp 181 vpgnleeeew vrpvmkrdkq vllhwgyypd sydtwipase ieasvedapt pekprkvhak 241 wildtdtfne wmneedyevn ddknpvsrrk kisaktltde vnspdsdrrd kkggnykkrk 301 rspspsptpe akkknakkgp stpytkskrg hreeeqedlt kdmdepspvp nveevtlpkt 361 vntkkdsesa pvkggtmtdl deqedesmet tgkdedenst gnkgeqtknp dlhednvteq 421 thhiiipsya awfdynsvha ierralpeff ngknksktpe iylayrnfmi dtyrinpqey 481 ltstacrrnl agdvcaimrv hafleqwgli nyqvdaesrp tpmgppptsh fhvladtpsg 541 lvplqpktpq qtsasqqmln fpdkgkekpt dmqnfglrtd mytkknvpsk skaaasatre 601 wtegetllll ealemykddw nkvsehvgsr tqdecilhfl rlpiedpyle dseaslgpla 661 yqpipfsgsg npvmstvafl asvvdprvas aaaksaleef skmkeevpta lveahvrkve 721 eaakvtgkad pafglessgi agttsdeper ieesgndear vegqatdekk epkepreggg 781 aieeeakekt seapkkdeek gkegdsekes eksdgdpivd pekekepkeg qeevlkevve 841 segerktkve rdigegnlst aaaaalaaaa vkakhlaave erkikslval lvetqmkkle 901 iklrhfeele timdrereal eygrqqllad rgafhmeglk yaemrarqqh fqqmhqqqqq 961 pppalppgsq pipptgaagp pavhglavap asvvpapags gappgslgps egiggagsta 1021 gpqqqqpaga pqpgavppgv pppgphgpsp fpnqqtppsm mpgavpgsgh pgvagnaplg 1081 lpfgmppppp ppapsiipfg sladsisinl pappnlhghh hhlpfapgtl pppnlpvsma 1141 nplhpnlpat ttmpsslplg pglgsaaaqs paivaavqgn llpsasplpd pgtplppdpt 1201 apspgtvtpv pppq SEQ ID NO: 45 Human SMARCC2 cDNA Sequence Variant 2 (NM_139067.3, CDS: 114-3506) 1 ggaggcggcg gccgcggcgg cgggaggcgg cgggaggcgg gcggaggagg aggcggagga 61 ggcgggagct gagctgagtg gggcgggcgg cggcggggcc cgagccggag aagatggcgg 121 tgcggaagaa ggacggcggc cccaacgtga agtactacga ggccgcggac accgtgaccc 181 agttcgacaa cgtgcggctg tggctcggca agaactacaa gaagtatata caagctgaac 241 cacccaccaa caagtccctg tctagcctgg ttgtacagtt gctacaattt caggaagaag 301 tttttggcaa acatgtcagc aatgcaccgc tcactaaact gccgatcaaa tgtttcctag 361 atttcaaagc gggaggctcc ttgtgccaca ttcttgcagc tgcctacaaa ttcaagagtg 421 accagggatg gcggcgttac gatttccaga atccatcacg catggaccgc aatgtggaaa 481 tgtttatgac cattgagaag tccttggtgc agaataattg cctgtctcga cctaacattt 541 ttctgtgccc agaaattgag cccaaactac tagggaaatt aaaggacatt atcaagagac 601 accagggaac agtcactgag gataagaaca atgcctccca tgttgtgtat cctgtcccgg 661 ggaatctaga agaagaggaa tgggtacgac cagtcatgaa gagggataag caggttcttc 721 tgcactgggg ctactatcct gacagttacg acacgtggat cccagcgagt gaaattgagg 781 catctgtgga agatgctcca actcctgaga aacctaggaa ggttcatgca aagtggatcc 841 tggacaccga caccttcaat gaatggatga atgaggaaga ctatgaagta aatgatgaca 901 aaaaccctgt ctcccgccga aagaagattt cagccaagac actgacagat gaggtgaaca 961 gcccagattc agatcgacgg gacaagaagg ggggaaacta taagaagagg aagcgctccc 1021 cctctccttc accaacccca gaagcaaaga agaaaaatgc taagaaaggt ccctcaacac 1081 cttacactaa gtcaaagcgt ggccacagag aagaggagca agaagacctg acaaaggaca 1141 tggacgagcc ctcaccagtc cccaatgtag aagaggtgac acttcccaaa acagtcaaca 1201 caaagaaaga ctcagagtcg gccccagtca aaggcggcac catgaccgac ctggatgaac 1261 aggaagatga aagcatggag acgacgggca aggatgagga tgagaacagt acggggaaca 1321 agggagagca gaccaagaat ccagacctgc atgaggacaa tgtgactgaa cagacccacc 1381 acatcatcat tcccagctac gctgcctggt ttgactacaa tagtgttcat gccattgagc 1441 ggagggctct ccccgagttc ttcaacggca agaacaagtc caagactcca gagatctacc 1501 tggcctatcg aaactttatg attgacactt accgactgaa cccccaagag tatcttacct 1561 ctaccgcctg ccgccgaaac ctagcgggtg atgtctgtgc catcatgagg gtccatgcct 1621 tcctagaaca gtggggtctt attaactacc aggtggatgc tgagagtcga ccaaccccaa 1681 tggggcctcc gcctacctct cacttccatg tcttggctga cacaccatca gggctggtgc 1741 ctctgcagcc caagacacct cagggccgcc aggttgatgc tgataccaag gctgggcgaa 1801 agggcaaaga gctggatgac ctggtgccag agacggctaa gggcaagcca gagctgcaga 1861 cctctgcttc ccaacaaatg ctcaactttc ctgacaaagg caaagagaaa ccaacagaca 1921 tgcaaaactt tgggctgcgc acagacatgt acacaaaaaa gaatgttccc tccaagagca 1981 aggctgcagc cagtgccact cgtgagtgga cagaacagga aaccctgctt ctcctggagg 2041 cactggaaat gtacaaagat gactggaaca aagtgtccga gcatgtggga agccgcacac 2101 aggacgagtg catcttgcat tttcttcgtc ttcccattga agacccatac ctggaggact 2161 cagaggcctc cctaggcccc ctggcctacc aacccatccc cttcagtcag tcgggcaacc 2221 ctgttatgag cactgttgcc ttcctggcct ctgtcgtcga tccccgagtc gcctctgctg 2281 ctgcaaagtc agccctagag gagttctcca aaatgaagga agaggtaccc acggccttgg 2341 tggaggccca tgttcgaaaa gtggaagaag cagccaaagt aacaggcaag gcggaccctg 2401 ccttcggtct ggaaagcagt ggcattgcag gaaccacctc tgatgagcct gagcggattg 2461 aggagagcgg gaatgacgag gctcgggtgg aaggccaggc cacagatgag aagaaggagc 2521 ccaaggaacc ccgagaagga gggggtgcta tagaggagga agcaaaagag aaaaccagcg 2581 aggctcccaa gaaggatgag gagaaaggga aagaaggcga cagtgagaag gagtccgaga 2641 agagtgatgg agacccaata gtcgatcctg agaaggagaa ggagccaaag gaagggcagg 2701 aggaagtgct gaaggaagtg gtggagtctg agggggaaag gaagacaaag gtggagcggg 2761 acattggcga gggcaacctc tccaccgctg ctgccgccgc cctggccgcc gccgcagtga 2821 aagctaagca cttggctgct gttgaggaaa ggaagatcaa atctttggtg gccctgctgg 2881 tggagaccca gatgaaaaag ttggagatca aacttcggca ctttgaggag ctggagacta 2941 tcatggaccg ggagcgagaa gcactggagt atcagaggca gcagctcctg gccgacagac 3001 aagccttcca catggagcag ctgaagtatg cggagatgag ggctcggcag cagcacttcc 3061 aacagatgca ccaacagcag cagcagccac caccagccct gcccccaggc tcccagccta 3121 tccccccaac aggggctgct gggccacccg cagtccatgg cttggctgtg gctccagcct 3181 ctgtagtccc tgctcctgct ggcagtgggg cccctccagg aagtttgggc ccttctgaac 3241 agattgggca ggcagggtca actgcagggc cacagcagca gcaaccagct ggagcccccc 3301 agcctggggc agtcccacca ggggttcccc cccctggacc ccatggcccc tcaccgttcc 3361 ccaaccaaca aactcctccc tcaatgatgc caggggcagt gccaggcagc gggcacccag 3421 gcgtggcgga cccaggcacc cccctgcctc cagaccccac agccccgagc ccaggcacgg 3481 tcacccctgt gccacctcca cagtgaggag ccagccagac atctctcccc ctcaccccct 3541 gtggacatca cggttccagg aacagccctt cccccaccac tgggaccctc cccagcctgg 3601 agagttcatc actacgtaag gaaagctcct tccgcccctc caaagccctc accatgccta 3661 acagaggcat gcatttttat atcagattat tcaaggactt ctgtttaaaa gatgtttata 3721 atgtctggga gagaggatag gatgggaatg ctgccctaaa ggaagggctg gtgaaaggtg 3781 tttatacaag gttctattaa ccacttctaa gggtacacct ccctccaaac tactgcattt 3841 tctatggatt aaaaaaaaaa aaaaaaagta gattttaaaa agccacattg gagctccctt 3901 ctacccacta aaaaataacc aatttttaca ttttttgagg gggagtgagt tttaggaaag 3961 gggaattaag attccaggga gagctctggg gatagaacag ggcgcagatt ccatctctcc 4021 ccaagcccct ttttagtgac taagtcaagg ccccaactcc cctcccccac cctacgctga 4081 gcttattcga gttcattcgt actaataatc cctcctgcgg cttcctcatt gttgctgttt 4141 taggccaccc cagctcagcc aatgattcct ttccctctga atgtcagttt tgtttttaaa 4201 agtcacttgc ttagttgatg tcagcgtatg tgtatttggt ggggaaaacc taatttcggg 4261 gatttctgtg gtaggtaata ggagaagaaa gggcactggg ggctgttctc cttccttccc 4321 tgggctgtat ccatggactc ctggaaggca cagagaaggg agctataaga ggatgtgaag 4381 ttttaaaacc tgaaattgtt ttttaaagca cttaagcacc tccatattat gacttggtgg 4441 gtcacccctt agcttcctcc ctctcccacc aagactatga gaacttcagc tgatagctgg 4501 gggctcccca gatgaggatg cagggatttg ggagcagtgg aagagggtgc ccaaccttgg 4561 gttggaccaa cccttggctc gcagctcaac tctgcttccc gcattcctgc tccacgtgtc 4621 ccagcttctc ccctgtgacg ggaaggcagg tgtgactcca ggctctgcac tggttcttct 4681 tggttcctcc caccaggccc tttgttcctc atgtccccat gtttctctcc ctctgcgtct 4741 tagcaccttt cttctgttca aagttttctg taaattttct ctttttttct ttctttcttt 4801 tttttttttt tataaattaa tttgctttca gttccaaaaa aaaaaaaaaa aaaa SEQ ID NO: 46 Human SMARCC2 Amino Acid Sequence Isoform B (NP_620706.1) 1 mavrkkdggp nvkyyeaadt vtqfdnvrlw lgknykkyiq aepptnksls slvvqllqfq 61 eevfgkhvsn apltklpikc fldfkaggsl chilaaaykf ksdqgwrryd fqnpsrmdrn 121 vemfmtieks lvqnnclsrp niflcpeiep kllgklkdii krhqgtvted knnashvvyp 181 vpgnleeeew vrpvmkrdkq vllhwgyypd sydtwipase ieasvedapt pekprkvhak 241 wildtdtfne wmneedyevn ddknpvsrrk kisaktltde vnspdsdrrd kkggnykkrk 301 rspspsptpe akkknakkgp stpytkskrg hreeeqedlt kdmdepspvp nveevtlpkt 361 vntkkdsesa pvkggtmtdl deqedesmet tgkdedenst gnkgeqtknp dlhednvteq 421 thhiiipsya awfdynsvha ierralpeff ngknksktpe iylayrnfmi dtyrinpqey 481 ltstacrrnl agdvcaimrv hafleqwgli nyqvdaesrp tpmgppptsh fhvladtpsg 541 lvplqpktpq grqvdadtka grkgkelddl vpetakgkpe lqtsasqqml nfpdkgkekp 601 tdmqnfglrt dmytkknvps kskaaasatr ewtegetlll lealemykdd wnkvsehvgs 661 rtqdecilhf lrlpiedpyl edseaslgpl ayqpipfsqs gnpvmstvaf lasvvdprva 721 saaaksalee fskmkeevpt alveahvrkv eeaakvtgka dpafglessg iagttsdepe 781 rieesgndea rvegqatdek kepkepregg gaieeeakek tseapkkdee kgkegdseke 841 seksdgdpiv dpekekepke gqeevlkevv esegerktkv erdigegnls taaaaalaaa 901 avkakhlaav eerkikslva llvetqmkkl eiklrhfeel etimdrerea leygrqqlla 961 drqafhmeql kyaemrargq hfqqmhqqqq qpppalppgs qpipptgaag ppavhglava 1021 pasvvpapag sgappgslgp seqigqagst agpqqqqpag apqpgavppg vpppgphgps 1081 pfpnqqtpps mmpgavpgsg hpgvadpgtp lppdptapsp gtvtpvpppq SEQ ID NO: 47 Human SMARCC2 cDNA Sequence Variant 3 (NM_001130420.2, CDS: 114-3572) 1 ggaggcggcg gccgcggcgg cgggaggcgg cgggaggcgg gcggaggagg aggcggagga 61 ggcgggagct gagctgagtg gggcgggcgg cggcggggcc cgagccggag aagatggcgg 121 tgcggaagaa ggacggcggc cccaacgtga agtactacga ggccgcggac accgtgaccc 181 agttcgacaa cgtgcggctg tggctcggca agaactacaa gaagtatata caagctgaac 241 cacccaccaa caagtccctg tctagcctgg ttgtacagtt gctacaattt caggaagaag 301 tttttggcaa acatgtcagc aatgcaccgc tcactaaact gccgatcaaa tgtttcctag 361 atttcaaagc gggaggctcc ttgtgccaca ttcttgcagc tgcctacaaa ttcaagagtg 421 accagggatg gcggcgttac gatttccaga atccatcacg catggaccgc aatgtggaaa 481 tgtttatgac cattgagaag tccttggtgc agaataattg cctgtctcga cctaacattt 541 ttctgtgccc agaaattgag cccaaactac tagggaaatt aaaggacatt atcaagagac 601 accagggaac agtcactgag gataagaaca atgcctccca tgttgtgtat cctgtcccgg 661 ggaatctaga agaagaggaa tgggtacgac cagtcatgaa gagggataag caggttcttc 721 tgcactgggg ctactatcct gacagttacg acacgtggat cccagcgagt gaaattgagg 781 catctgtgga agatgctcca actcctgaga aacctaggaa ggttcatgca aagtggatcc 841 tggacaccga caccttcaat gaatggatga atgaggaaga ctatgaagta aatgatgaca 901 aaaaccctgt ctcccgccga aagaagattt cagccaagac actgacagat gaggtgaaca 961 gcccagattc agatcgacgg gacaagaagg ggggaaacta taagaagagg aagcgctccc 1021 cctctccttc accaacccca gaagcaaaga agaaaaatgc taagaaaggt ccctcaacac 1081 cttacactaa gtcaaagcgt ggccacagag aagaggagca agaagacctg acaaaggaca 1141 tggacgagcc ctcaccagtc cccaatgtag aagaggtgac acttcccaaa acagtcaaca 1201 caaagaaaga ctcagagtcg gccccagtca aaggcggcac catgaccgac ctggatgaac 1261 aggaagatga aagcatggag acgacgggca aggatgagga tgagaacagt acggggaaca 1321 agggagagca gaccaagaat ccagacctgc atgaggacaa tgtgactgaa cagacccacc 1381 acatcatcat tcccagctac gctgcctggt ttgactacaa tagtgttcat gccattgagc 1441 ggagggctct ccccgagttc ttcaacggca agaacaagtc caagactcca gagatctacc 1501 tggcctatcg aaactttatg attgacactt accgactgaa cccccaagag tatcttacct 1561 ctaccgcctg ccgccgaaac ctagcgggtg atgtctgtgc catcatgagg gtccatgcct 1621 tcctagaaca gtggggtctt attaactacc aggtggatgc tgagagtcga ccaaccccaa 1681 tggggcctcc gcctacctct cacttccatg tcttggctga cacaccatca gggctggtgc 1741 ctctgcagcc caagacacct cagggccgcc aggttgatgc tgataccaag gctgggcgaa 1801 agggcaaaga gctggatgac ctggtgccag agacggctaa gggcaagcca gagctgcaga 1861 cctctgcttc ccaacaaatg ctcaactttc ctgacaaagg caaagagaaa ccaacagaca 1921 tgcaaaactt tgggctgcgc acagacatgt acacaaaaaa gaatgttccc tccaagagca 1981 aggctgcagc cagtgccact cgtgagtgga cagaacagga aaccctgctt ctcctggagg 2041 cactggaaat gtacaaagat gactggaaca aagtgtccga gcatgtggga agccgcacac 2101 aggacgagtg catcttgcat tttcttcgtc ttcccattga agacccatac ctggaggact 2161 cagaggcctc cctaggcccc ctggcctacc aacccatccc cttcagtcag tcgggcaacc 2221 ctgttatgag cactgttgcc ttcctggcct ctgtcgtcga tccccgagtc gcctctgctg 2281 ctgcaaagtc agccctagag gagttctcca aaatgaagga agaggtaccc acggccttgg 2341 tggaggccca tgttcgaaaa gtggaagaag cagccaaagt aacaggcaag gcggaccctg 2401 ccttcggtct ggaaagcagt ggcattgcag gaaccacctc tgatgagcct gagcggattg 2461 aggagagcgg gaatgacgag gctcgggtgg aaggccaggc cacagatgag aagaaggagc 2521 ccaaggaacc ccgagaagga gggggtgcta tagaggagga agcaaaagag aaaaccagcg 2581 aggctcccaa gaaggatgag gagaaaggga aagaaggcga cagtgagaag gagtccgaga 2641 agagtgatgg agacccaata gtcgatcctg agaaggagaa ggagccaaag gaagggcagg 2701 aggaagtgct gaaggaagtg gtggagtctg agggggaaag gaagacaaag gtggagcggg 2761 acattggcga gggcaacctc tccaccgctg ctgccgccgc cctggccgcc gccgcagtga 2821 aagctaagca cttggctgct gttgaggaaa ggaagatcaa atctttggtg gccctgctgg 2881 tggagaccca gatgaaaaag ttggagatca aacttcggca ctttgaggag ctggagacta 2941 tcatggaccg ggagcgagaa gcactggagt atcagaggca gcagctcctg gccgacagac 3001 aagccttcca catggagcag ctgaagtatg cggagatgag ggctcggcag cagcacttcc 3061 aacagatgca ccaacagcag cagcagccac caccagccct gcccccaggc tcccagccta 3121 tccccccaac aggggctgct gggccacccg cagtccatgg cttggctgtg gctccagcct 3181 ctgtagtccc tgctcctgct ggcagtgggg cccctccagg aagtttgggc ccttctgaac 3241 agattgggca ggcagggtca actgcagggc cacagcagca gcaaccagct ggagcccccc 3301 agcctggggc agtcccacca ggggttcccc cccctggacc ccatggcccc tcaccgttcc 3361 ccaaccaaca aactcctccc tcaatgatgc caggggcagt gccaggcagc gggcacccag 3421 gcgtggcggc ccaaagccct gccattgtgg cagctgttca gggcaacctc ctgcccagtg 3481 ccagcccact gccagaccca ggcacccccc tgcctccaga ccccacagcc ccgagcccag 3541 gcacggtcac ccctgtgcca cctccacagt gaggagccag ccagacatct ctccccctca 3601 ccccctgtgg acatcacggt tccaggaaca gcccttcccc caccactggg accctcccca 3661 gcctggagag ttcatcacta cgtaaggaaa gctccttccg cccctccaaa gccctcacca 3721 tgcctaacag aggcatgcat ttttatatca gattattcaa ggacttctgt ttaaaagatg 3781 tttataatgt ctgggagaga ggataggatg ggaatgctgc cctaaaggaa gggctggtga 3841 aaggtgttta tacaaggttc tattaaccac ttctaagggt acacctccct ccaaactact 3901 gcattttcta tggattaaaa aaaaaaaaaa aaagtagatt ttaaaaagcc acattggagc 3961 tcccttctac ccactaaaaa ataaccaatt tttacatttt ttgaggggga gtgagtttta 4021 ggaaagggga attaagattc cagggagagc tctggggata gaacagggcg cagattccat 4081 ctctccccaa gccccttttt agtgactaag tcaaggcccc aactcccctc ccccacccta 4141 cgctgagctt attcgagttc attcgtacta ataatccctc ctgcggcttc ctcattgttg 4201 ctgttttagg ccaccccagc tcagccaatg attcctttcc ctctgaatgt cagttttgtt 4261 tttaaaagtc acttgcttag ttgatgtcag cgtatgtgta tttggtgggg aaaacctaat 4321 ttcggggatt tctgtggtag gtaataggag aagaaagggc actgggggct gttctccttc 4381 cttccctggg ctgtatccat ggactcctgg aaggcacaga gaagggagct ataagaggat 4441 gtgaagtttt aaaacctgaa attgtttttt aaagcactta agcacctcca tattatgact 4501 tggtgggtca ccccttagct tcctccctct cccaccaaga ctatgagaac ttcagctgat 4561 agctgggggc tccccagatg aggatgcagg gatttgggag cagtggaaga gggtgcccaa 4621 ccttgggttg gaccaaccct tggctcgcag ctcaactctg cttcccgcat tcctgctcca 4681 cgtgtcccag cttctcccct gtgacgggaa ggcaggtgtg actccaggct ctgcactggt 4741 tcttcttggt tcctcccacc aggccctttg ttcctcatgt ccccatgttt ctctccctct 4801 gcgtcttagc acctttcttc tgttcaaagt tttctgtaaa ttttctcttt ttttctttct 4861 ttcttttttt tttttttata aattaatttg ctttcagttc caaaaaaaaa aaaaaaaaaa SEQ ID NO: 48 Human SMARCC2 Amino Acid Sequence Isoform C (NP_001123892.1) 1 mavrkkdggp nvkyyeaadt vtqfdnvrlw lgknykkyiq aepptnksls slvvqllqfq 61 eevfgkhvsn apltklpikc fldfkaggsl chilaaaykf ksdqgwrryd fqnpsrmdrn 121 vemfmtieks lvqnnclsrp niflcpeiep kllgklkdii krhqgtvted knnashvvyp 181 vpgnleeeew vrpvmkrdkq vllhwgyypd sydtwipase ieasvedapt pekprkvhak 241 wildtdtfne wmneedyevn ddknpvsrrk kisaktltde vnspdsdrrd kkggnykkrk 301 rspspsptpe akkknakkgp stpytkskrg hreeeqedlt kdmdepspvp nveevtlpkt 361 vntkkdsesa pvkggtmtdl deqedesmet tgkdedenst gnkgeqtknp dlhednvteq 421 thhiiipsya awfdynsvha ierralpeff ngknksktpe iylayrnfmi dtyrinpqey 481 ltstacrrnl agdvcaimry hafleqwgli nyqvdaesrp tpmgppptsh fhvladtpsg 541 lvplqpktpq grqvdadtka grkgkelddl vpetakgkpe lgtsasqqml nfpdkgkekp 601 tdmqnfglrt dmytkknvps kskaaasatr ewtegetlll lealemykdd wnkvsehvgs 661 rtqdecilhf lrlpiedpyl edseaslgpl ayqpipfsqs gnpvmstvaf lasvvdprva 721 saaaksalee fskmkeevpt alveahvrkv eeaakvtgka dpafglessg iagttsdepe 781 rieesgndea rvegqatdek kepkepregg gaieeeakek tseapkkdee kgkegdseke 841 seksdgdpiv dpekekepke gqeevlkevv esegerktkv erdigegnls taaaaalaaa 901 avkakhlaav eerkikslva llvetqmkkl eiklrhfeel etimdrerea leygrqqlla 961 drqafhmeql kyaemrargq hfqqmhqqqq qpppalppgs qpipptgaag ppavhglava 1021 pasvvpapag sgappgslgp segiggagst agpqqqqpag apqpgavppg vpppgphgps 1081 pfpnqqtpps mmpgavpgsg hpgvaaqspa ivaavggnll psasplpdpg tplppdptap 1141 spgtvtpvpp pq SEQ ID NO: 49 Human SMARCC2 cDNA Sequence Variant 4 (NM_001330288.1, CDS: 114-3851) 1 ggaggcggcg gccgcggcgg cgggaggcgg cgggaggcgg gcggaggagg aggcggagga 61 ggcgggagct gagctgagtg gggcgggcgg cggcggggcc cgagccggag aagatggcgg 121 tgcggaagaa ggacggcggc cccaacgtga agtactacga ggccgcggac accgtgaccc 181 agttcgacaa cgtgcggctg tggctcggca agaactacaa gaagtatata caagctgaac 241 cacccaccaa caagtccctg tctagcctgg ttgtacagtt gctacaattt caggaagaag 301 tttttggcaa acatgtcagc aatgcaccgc tcactaaact gccgatcaaa tgtttcctag 361 atttcaaagc gggaggctcc ttgtgccaca ttcttgcagc tgcctacaaa ttcaagagtg 421 accagggatg gcggcgttac gatttccaga atccatcacg catggaccgc aatgtggaaa 481 tgtttatgac cattgagaag tccttggtgc agaataattg cctgtctcga cctaacattt 541 ttctgtgccc agaaattgag cccaaactac tagggaaatt aaaggacatt atcaagagac 601 accagggaac agtcactgag gataagaaca atgcctccca tgttgtgtat cctgtcccgg 661 ggaatctaga agaagaggaa tgggtacgac cagtcatgaa gagggataag caggttcttc 721 tgcactgggg ctactatcct gacagttacg acacgtggat cccagcgagt gaaattgagg 781 catctgtgga agatgctcca actcctgaga aacctaggaa ggttcatgca aagtggatcc 841 tggacaccga caccttcaat gaatggatga atgaggaaga ctatgaagta aatgatgaca 901 aaaaccctgt ctcccgccga aagaagattt cagccaagac actgacagat gaggtgaaca 961 gcccagattc agatcgacgg gacaagaagg ggggaaacta taagaagagg aagcgctccc 1021 cctctccttc accaacccca gaagcaaaga agaaaaatgc taagaaaggt ccctcaacac 1081 cttacactaa gtcaaagcgt ggccacagag aagaggagca agaagacctg acaaaggaca 1141 tggacgagcc ctcaccagtc cccaatgtag aagaggtgac acttcccaaa acagtcaaca 1201 caaagaaaga ctcagagtcg gccccagtca aaggcggcac catgaccgac ctggatgaac 1261 aggaagatga aagcatggag acgacgggca aggatgagga tgagaacagt acggggaaca 1321 agggagagca gaccaagaat ccagacctgc atgaggacaa tgtgactgaa cagacccacc 1381 acatcatcat tcccagctac gctgcctggt ttgactacaa tagtgttcat gccattgagc 1441 ggagggctct ccccgagttc ttcaacggca agaacaagtc caagactcca gagatctacc 1501 tggcctatcg aaactttatg attgacactt accgactgaa cccccaagag tatcttacct 1561 ctaccgcctg ccgccgaaac ctagcgggtg atgtctgtgc catcatgagg gtccatgcct 1621 tcctagaaca gtggggtctt attaactacc aggtggatgc tgagagtcga ccaaccccaa 1681 tggggcctcc gcctacctct cacttccatg tcttggctga cacaccatca gggctggtgc 1741 ctctgcagcc caagacacct cagggccgcc aggttgatgc tgataccaag gctgggcgaa 1801 agggcaaaga gctggatgac ctggtgccag agacggctaa gggcaagcca gagctgcaga 1861 cctctgcttc ccaacaaatg ctcaactttc ctgacaaagg caaagagaaa ccaacagaca 1921 tgcaaaactt tgggctgcgc acagacatgt acacaaaaaa gaatgttccc tccaagagca 1981 aggctgcagc cagtgccact cgtgagtgga cagaacagga aaccctgctt ctcctggagg 2041 cactggaaat gtacaaagat gactggaaca aagtgtccga gcatgtggga agccgcacac 2101 aggacgagtg catcttgcat tttcttcgtc ttcccattga agacccatac ctggaggact 2161 cagaggcctc cctaggcccc ctggcctacc aacccatccc cttcagtcag tcgggcaacc 2221 ctgttatgag cactgttgcc ttcctggcct ctgtcgtcga tccccgagtc gcctctgctg 2281 ctgcaaagtc agccctagag gagttctcca aaatgaagga agaggtaccc acggccttgg 2341 tggaggccca tgttcgaaaa gtggaagaag cagccaaagt aacaggcaag gcggaccctg 2401 ccttcggtct ggaaagcagt ggcattgcag gaaccacctc tgatgagcct gagcggattg 2461 aggagagcgg gaatgacgag gctcgggtgg aaggccaggc cacagatgag aagaaggagc 2521 ccaaggaacc ccgagaagga gggggtgcta tagaggagga agcaaaagag aaaaccagcg 2581 aggctcccaa gaaggatgag gagaaaggga aagaaggcga cagtgagaag gagtccgaga 2641 agagtgatgg agacccaata gtcgatcctg agaaggagaa ggagccaaag gaagggcagg 2701 aggaagtgct gaaggaagtg gtggagtctg agggggaaag gaagacaaag gtggagcggg 2761 acattggcga gggcaacctc tccaccgctg ctgccgccgc cctggccgcc gccgcagtga 2821 aagctaagca cttggctgct gttgaggaaa ggaagatcaa atctttggtg gccctgctgg 2881 tggagaccca gatgaaaaag ttggagatca aacttcggca ctttgaggag ctggagacta 2941 tcatggaccg ggagcgagaa gcactggagt atcagaggca gcagctcctg gccgacagac 3001 aagccttcca catggagcag ctgaagtatg cggagatgag ggctcggcag cagcacttcc 3061 aacagatgca ccaacagcag cagcagccac caccagccct gcccccaggc tcccagccta 3121 tccccccaac aggggctgct gggccacccg cagtccatgg cttggctgtg gctccagcct 3181 ctgtagtccc tgctcctgct ggcagtgggg cccctccagg aagtttgggc ccttctgaac 3241 agattgggca ggcagggtca actgcagggc cacagcagca gcaaccagct ggagcccccc 3301 agcctggggc agtcccacca ggggttcccc cccctggacc ccatggcccc tcaccgttcc 3361 ccaaccaaca aactcctccc tcaatgatgc caggggcagt gccaggcagc gggcacccag 3421 gcgtggcggg taatgctcct ttgggtttgc cttttggcat gccgcctcct cctcctcctc 3481 ctgctccatc catcatccca tttggtagtc tagctgactc catcagtatt aacctccccg 3541 ctcctcctaa cctgcatggg catcaccacc atctcccgtt cgccccgggc actctccccc 3601 cacctaacct gcctgtgtcc atggcgaacc ctctacatcc taacctgccg gcgaccacca 3661 ccatgccatc ttccttgcct ctcgggccgg ggctcggatc cgccgcagcc caaagccctg 3721 ccattgtggc agctgttcag ggcaacctcc tgcccagtgc cagcccactg ccagacccag 3781 gcacccccct gcctccagac cccacagccc cgagcccagg cacggtcacc cctgtgccac 3841 ctccacagtg aggagccagc cagacatctc tccccctcac cccctgtgga catcacggtt 3901 ccaggaacag cccttccccc accactggga ccctccccag cctggagagt tcatcactac 3961 gtaaggaaag ctccttccgc ccctccaaag ccctcaccat gcctaacaga ggcatgcatt 4021 tttatatcag attattcaag gacttctgtt taaaagatgt ttataatgtc tgggagagag 4081 gataggatgg gaatgctgcc ctaaaggaag ggctggtgaa aggtgtttat acaaggttct 4141 attaaccact tctaagggta cacctccctc caaactactg cattttctat ggattaaaaa 4201 aaaaaaaaaa aagtagattt taaaaagcca cattggagct cccttctacc cactaaaaaa 4261 taaccaattt ttacattttt tgagggggag tgagttttag gaaaggggaa ttaagattcc 4321 agggagagct ctggggatag aacagggcgc agattccatc tctccccaag ccccttttta 4381 gtgactaagt caaggcccca actcccctcc cccaccctac gctgagctta ttcgagttca 4441 ttcgtactaa taatccctcc tgcggcttcc tcattgttgc tgttttaggc caccccagct 4501 cagccaatga ttcctttccc tctgaatgtc agttttgttt ttaaaagtca cttgcttagt 4561 tgatgtcagc gtatgtgtat ttggtgggga aaacctaatt tcggggattt ctgtggtagg 4621 taataggaga agaaagggca ctgggggctg ttctccttcc ttccctgggc tgtatccatg 4681 gactcctgga aggcacagag aagggagcta taagaggatg tgaagtttta aaacctgaaa 4741 ttgtttttta aagcacttaa gcacctccat attatgactt ggtgggtcac cccttagctt 4801 cctccctctc ccaccaagac tatgagaact tcagctgata gctgggggct ccccagatga 4861 ggatgcaggg atttgggagc agtggaagag ggtgcccaac cttgggttgg accaaccctt 4921 ggctcgcagc tcaactctgc ttcccgcatt cctgctccac gtgtcccagc ttctcccctg 4981 tgacgggaag gcaggtgtga ctccaggctc tgcactggtt cttcttggtt cctcccacca 5041 ggccctttgt tcctcatgtc cccatgtttc tctccctctg cgtcttagca cctttcttct 5101 gttcaaagtt ttctgtaaat tttctctttt tttctttctt tctttttttt ttttttataa 5161 attaatttgc tttcagttcc aaaaaaaaaa aaaaaaaaa SEQ ID NO: 50 Human SMARCC2 Amino Acid Sequence Isoform D (NP_001317217.1) 1 mavrkkdggp nvkyyeaadt vtqfdnvrlw lgknykkyiq aepptnksls slvvqllqfq 61 eevfgkhvsn apltklpikc fldfkaggsl chilaaaykf ksdqgwrryd fqnpsrmdrn 121 vemfmtieks lvqnnclsrp niflcpeiep kllgklkdii krhqgtvted knnashvvyp 181 vpgnleeeew vrpvmkrdkq vllhwgyypd sydtwipase ieasvedapt pekprkvhak 241 wildtdtfne wmneedyevn ddknpvsrrk kisaktltde vnspdsdrrd kkggnykkrk 301 rspspsptpe akkknakkgp stpytkskrg hreeeqedlt kdmdepspvp nveevtlpkt 361 vntkkdsesa pvkggtmtdl deqedesmet tgkdedenst gnkgeqtknp dlhednvteq 421 thhiiipsya awfdynsvha ierralpeff ngknksktpe iylayrnfmi dtyrinpqey 481 ltstacrrnl agdvcaimrv hafleqwgli nyqvdaesrp tpmgppptsh fhvladtpsg 541 lvplqpktpq grqvdadtka grkgkelddl vpetakgkpe lqtsasqqml nfpdkgkekp 601 tdmqnfglrt dmytkknvps kskaaasatr ewtegetlll lealemykdd wnkvsehvgs 661 rtqdecilhf lrlpiedpyl edseaslgpl ayqpipfsqs gnpvmstvaf lasvvdprva 721 saaaksalee fskmkeevpt alveahvrkv eeaakvtgka dpafglessg iagttsdepe 781 rieesgndea rvegqatdek kepkepregg gaieeeakek tseapkkdee kgkegdseke 841 seksdgdpiv dpekekepke gqeevlkevv esegerktkv erdigegnls taaaaalaaa 901 avkakhlaav eerkikslva llvetqmkkl eiklrhfeel etimdrerea leyqrqqlla 961 drqafhmeql kyaemrargq hfqqmhqqqq qpppalppgs qpipptgaag ppavhglava 1021 pasvvpapag sgappgslgp segiggagst agpqqqqpag apqpgavppg vpppgphgps 1081 pfpnqqtpps mmpgavpgsg hpgvagnapl glpfgmpppp pppapsiipf gsladsisin 1141 lpappnlhgh hhhlpfapgt lpppnlpvsm anplhpnlpa tttmpsslpl gpglgsaaaq 1201 spaivaavqg nllpsasplp dpgtplppdp tapspgtvtp vpppq SEQ ID NO: 51 Mouse SMARCC2 cDNA Sequence Variant 1 (NM_001114097.1, CDS: 92-3733) 1 gtggcggcgg gaggcggcgg gaggcgggcg gaggaggagg cgggagctga gctgagcggg 61 gcgggcggcg gcggggcccg agcccgagaa gatggcggtg cggaagaagg acggcggccc 121 caacgtgaag tactacgagg ccgcggacac cgtgacccag ttcgacaacg tgcggctctg 181 gctcggcaag aactacaaga agtacataca agcagaaccg ccaaccaaca agtctctgtc 241 cagcctggtg gtgcagttgc tccagtttca ggaagaggtt tttggcaaac atgtcagcaa 301 cgcaccgctt actaaactgc cgatcaaatg tttcctagat ttcaaagcag gaggatccct 361 ctgccatatt cttgcagctg cctacaaatt caagagtgac cagggatggc ggcgttacga 421 tttccagaat ccatcacgca tggaccgcaa tgtggaaatg ttcatgacca ttgagaagtc 481 cttggtacag aataattgcc tgtcacgacc taacattttc ctctgcccag aaattgagcc 541 caaactgcta gggaaattaa aagacattgt taagagacac cagggaacca tctctgagga 601 taagagcaat gcctcccatg ttgtgtatcc tgtcccaggg aacctagaag aagaggaatg 661 ggtacggcca gtcatgaaga gggataaaca ggttcttctg cactggggct actatcctga 721 cagctacgac acgtggatcc cagcgagtga aattgaagca tctgtggagg acgctcccac 781 tcctgagaaa ccgaggaagg tccatgcgaa gtggatcctc gacaccgaca cattcaacga 841 gtggatgaat gaggaagact acgaagtcag tgacgacaaa agcccagtct cccgcaggaa 901 gaagatctca gccaagacgc tgacagacga ggtaaacagc ccagattcag acagacgaga 961 caagaagggg ggcaactata agaagaggaa gcgctctccc tctccttcac ccaccccaga 1021 ggctaagaag aaaaacgcta agaaaggacc ctcaacacct tataccaagt caaagcgagg 1081 ccacagagaa gaggaacaag aagacctgac aaaagacatg gatgagccct ctccagtccc 1141 aaacgtggaa gaggtgacac tccccaaaac agtcaacact aaaaaggact ctgagtcagc 1201 cccagtcaaa ggcggcacca tgactgacct ggatgaacag gacgatgaaa gcatggagac 1261 caccggcaag gacgaggatg agaacagcac gggcaacaaa ggcgagcaga cgaagaaccc 1321 ggacctgcat gaggacaatg tgaccgagca gacccaccac atcatcatcc ccagctacgc 1381 cgcctggttt gactacaaca gcgtccatgc cattgaacgg agggctcttc ctgagttctt 1441 caacggcaag aacaagtcta agactccaga gatctacctg gcgtatcgga acttcatgat 1501 tgacacttac cgactgaatc cccaggagta tctaacatct actgcctgtc ggcggaattt 1561 ggcgggtgat gtctgcgcta tcatgagggt ccatgccttc ctggaacagt ggggtcttat 1621 taactaccag gtagatgctg agagccgacc aaccccaatg gggcctccac ccacctctca 1681 cttccatgtc ttggcggaca caccatcagg gctggttcct cttcagccga agcctccaca 1741 gcagagctct gcttcccagc aaatgctgaa cttccctgag aagggcaagg agaaaccagc 1801 agacatgcag aattttgggc tgcgcacaga catgtacaca aagaagaacg tcccctccaa 1861 gagcaaagct gcagcaagtg ccactcggga atggacggag caggagactc tgctgctcct 1921 ggaggctttg gaaatgtaca aggacgactg gaacaaagta tctgagcacg tgggaagccg 1981 cacgcaggac gagtgcatct tgcattttct ccgccttccc attgaagacc catacctgga 2041 ggactcggag gcttctctag gccctctggc ctaccaaccc atccccttca gtcagtcagg 2101 caaccctgtt atgagcaccg ttgccttcct ggcctctgtc gtcgatcccc gagttgcctc 2161 tgctgctgcg aagtcagccc tagaagagtt ctcaaaaatg aaggaagagg tgcccacagc 2221 tttggtggaa gcccacgtgc gtaaggtcga agaagcggcc aaagtcacag gcaaggccga 2281 cccagccttt ggtctggaga gtagcggcat cgcagggact gcctctgatg agcctgagcg 2341 cattgaggaa agcgggactg aggaggcacg gccagagggc caggcagcag atgagaagaa 2401 ggagcctaag gaaccacggg aaggaggggg cgctgtggag gaagaagcaa aggaggaaat 2461 aagtgaggtc cccaagaaag atgaagagaa agggaaagaa ggtgacagtg agaaggagtc 2521 tgagaagagt gacggggacc cgatagttga tcctgagaaa gacaaggaac caacagaagg 2581 gcaggaggaa gtgctaaagg aagtggcaga gccagagggg gagaggaaaa ccaaggtgga 2641 gcgtgacatt ggtgaaggca acctgtccac agctgcagcc gcagccctgg ccgctgctgc 2701 agtcaaggcc aagcacttgg ctgcagttga ggagagaaag atcaagtctt tggtggctct 2761 gctggtagag acccaaatga agaaactaga gatcaaactc cgacattttg aggagctgga 2821 gacaataatg gaccgggagc gagaggcgct ggaataccag aggcagcagc tcctggccga 2881 ccggcaagcc ttccacatgg agcagctgaa gtatgcagag atgagggccc ggcagcagca 2941 cttccagcag atgcaccagc agcagcagca gcagccacca accttgcccc caggctccca 3001 gcccatacct cccaccgggg ctgctggacc acctacagtc catggtctag ctgtgcctcc 3061 agccgctgtg gcctctgccc ctcctggcag tggggcccct cctggaagct tgggcccttc 3121 tgaacagatt gggcaggcag ggacaactgc agggccacag cagccacaac aagctggagc 3181 ccctcagcct ggggcagtcc caccaggggt acccccccct ggaccccatg gcccctcacc 3241 gttccccaac caaccaactc ctccctcaat gatgccaggg gcagtgccag gcagcgggca 3301 cccaggcgtg gcgggtaatg ctcctttggg tttgcctttt ggcatgccgc ctcctcctcc 3361 tgctgctcca tccgtcatcc cattcggtag tctagctgac tccattagta ttaaccttcc 3421 ccctcctcct aacctgcatg ggcatcacca ccatctcccg tttgccccgg gcactatccc 3481 cccacctaac ctgcctgtgt ccatggcgaa ccctctacat cctaacctgc cggcgaccac 3541 caccatgcca tcttccttgc ctctcgggcc ggggctcgga tccgccgcag cccagagccc 3601 tgccattgtg gcagctgttc agggcaacct cctgcccagt gccagcccac tgccagaccc 3661 aggcaccccg ctgcctccag accccacagc tccaagccca ggcacagtca cccctgtgcc 3721 acctccacag tgaggaacca gccagccatc tctccccctc actccccatg gagatcacag 3781 ttccaggaac agccctcccc cactactggg accctccctc agcctgaaga gttcatcact 3841 acgtaaggaa agctcctcct gccccctcac cacccccacc atgcccagca gaggtgtgca 3901 gttttatatc caattattat ccacggactt ctgactaaaa gatgtttcta atgcctggga 3961 gagagaatag gagggaaaga tgtttatacg aggttctact aactggttct gagggtctac 4021 cccttcagaa ttactgcatt tttgaagtga taacatgaaa atgaaaccct ttaaaaggga 4081 ggttttaaaa aaagacactt cggagcccac aaaaaaagaa cttttttaat tattattatt 4141 attattttga ggggaaaggg caggttttaa gaggaattaa atttctgggg caaggtgtga 4201 ggtggaatag ggcaccgagc ctgtctccct gagcccttgg cagtgctgag tcagctcccc 4261 tcacccattc cagtttattc atacaaatcc ctcctgctgc tcgtcatggt tgctgtttta 4321 ggcccagttc agccaatgac cttttcctcc agtcagcttt gtgtttgtgt ttaagtcacc 4381 tgcttactcg tcagcgtctg tgtacttgtg ggaaatgtag ttttcgggga ttctgtggta 4441 ggaaatagag gaagaagggg cctcagttgg gctcttcttc ctgctttcct agttgtatct 4501 gtgagtgccc aacaggcatc agagggggag ctctaagagg atggggggcc tgcagaccct 4561 caagtttgaa aagcacttaa gcacctactt ttgacagtgg gacagtctgc taacttctgc 4621 ccccaccaac caagcctgac agaacccagt gatagctagg agttccccaa atgaggacaa 4681 agatttggga gcagtgcagc gtgcctctgc actccaggtc ttcctcttca ccccctactt 4741 ggaggcagac acaattccag gccgcaccag agcctggccc ctcccaccag gcgctttgct 4801 ccttctgtcc cagcgtctcc ttcctctgca tctccacacc tttcttctgt tcaaagtctt 4861 ctgtaaaatt ttctttcctt ctttgttctt ttctttttcc tttttttttt ataaattaat 4921 ttgctttcag ttccaaaaaa aaaaaaaaaa aaaaaaaaaa aaaa SEQ ID NO: 52 Mouse SMARCC2 Amino Acid Sequence Isoform 1 (NP_001107569.1) 1 mavrkkdggp nvkyyeaadt vtqfdnvrlw lgknykkyiq aepptnksls slvvqllqfq 61 eevfgkhvsn apltklpikc fldfkaggsl chilaaaykf ksdqgwrryd fqnpsrmdrn 121 vemfmtieks lvqnnclsrp niflcpeiep kllgklkdiv krhqgtised ksnashvvyp 181 vpgnleeeew vrpvmkrdkq vllhwgyypd sydtwipase ieasvedapt pekprkvhak 241 wildtdtfne wmneedyevs ddkspvsrrk kisaktltde vnspdsdrrd kkggnykkrk 301 rspspsptpe akkknakkgp stpytkskrg hreeeqedlt kdmdepspvp nveevtlpkt 361 vntkkdsesa pvkggtmtdl deqddesmet tgkdedenst gnkgeqtknp dlhednvteq 421 thhiiipsya awfdynsvha ierralpeff ngknksktpe iylayrnfmi dtyrinpqey 481 ltstacrrnl agdvcaimry hafleqwgli nyqvdaesrp tpmgppptsh fhvladtpsg 541 lvplqpkppq qssasqqmln fpekgkekpa dmqnfglrtd mytkknvpsk skaaasatre 601 wtegetllll ealemykddw nkvsehvgsr tqdecilhfl rlpiedpyle dseaslgpla 661 yqpipfsgsg npvmstvafl asvvdprvas aaaksaleef skmkeevpta lveahvrkve 721 eaakvtgkad pafglessgi agtasdeper ieesgteear pegqaadekk epkepreggg 781 aveeeakeei sevpkkdeek gkegdsekes eksdgdpivd pekdkepteg qeevlkevae 841 pegerktkve rdigegnlst aaaaalaaaa vkakhlaave erkikslval lvetqmkkle 901 iklrhfeele timdrereal eygrqqllad rqafhmeglk yaemrarqqh fqqmhqqqqq 961 qpptlppgsq pipptgaagp ptvhglavpp aavasappgs gappgslgps eqigqagtta 1021 gpqqpqqaga pqpgavppgv pppgphgpsp fpnqptppsm mpgavpgsgh pgvagnaplg 1081 lpfgmppppp aapsvipfgs ladsisinlp pppnlhghhh hlpfapgtip ppnlpvsman 1141 plhpnlpatt tmpsslplgp glgsaaaqsp aivaavggnl lpsasplpdp gtplppdpta 1201 pspgtvtpvp ppq SEQ ID NO: 53 Mouse SMARCC2 cDNA Sequence Variant 2 (NM_001114096.1, CDS: 92-3484) 1 gtggcggcgg gaggcggcgg gaggcgggcg gaggaggagg cgggagctga gctgagcggg 61 gcgggcggcg gcggggcccg agcccgagaa gatggcggtg cggaagaagg acggcggccc 121 caacgtgaag tactacgagg ccgcggacac cgtgacccag ttcgacaacg tgcggctctg 181 gctcggcaag aactacaaga agtacataca agcagaaccg ccaaccaaca agtctctgtc 241 cagcctggtg gtgcagttgc tccagtttca ggaagaggtt tttggcaaac atgtcagcaa 301 cgcaccgctt actaaactgc cgatcaaatg tttcctagat ttcaaagcag gaggatccct 361 ctgccatatt cttgcagctg cctacaaatt caagagtgac cagggatggc ggcgttacga 421 tttccagaat ccatcacgca tggaccgcaa tgtggaaatg ttcatgacca ttgagaagtc 481 cttggtacag aataattgcc tgtcacgacc taacattttc ctctgcccag aaattgagcc 541 caaactgcta gggaaattaa aagacattgt taagagacac cagggaacca tctctgagga 601 taagagcaat gcctcccatg ttgtgtatcc tgtcccaggg aacctagaag aagaggaatg 661 ggtacggcca gtcatgaaga gggataaaca ggttcttctg cactggggct actatcctga 721 cagctacgac acgtggatcc cagcgagtga aattgaagca tctgtggagg acgctcccac 781 tcctgagaaa ccgaggaagg tccatgcgaa gtggatcctc gacaccgaca cattcaacga 841 gtggatgaat gaggaagact acgaagtcag tgacgacaaa agcccagtct cccgcaggaa 901 gaagatctca gccaagacgc tgacagacga ggtaaacagc ccagattcag acagacgaga 961 caagaagggg ggcaactata agaagaggaa gcgctctccc tctccttcac ccaccccaga 1021 ggctaagaag aaaaacgcta agaaaggacc ctcaacacct tataccaagt caaagcgagg 1081 ccacagagaa gaggaacaag aagacctgac aaaagacatg gatgagccct ctccagtccc 1141 aaacgtggaa gaggtgacac tccccaaaac agtcaacact aaaaaggact ctgagtcagc 1201 cccagtcaaa ggcggcacca tgactgacct ggatgaacag gacgatgaaa gcatggagac 1261 caccggcaag gacgaggatg agaacagcac gggcaacaaa ggcgagcaga cgaagaaccc 1321 ggacctgcat gaggacaatg tgaccgagca gacccaccac atcatcatcc ccagctacgc 1381 cgcctggttt gactacaaca gcgtccatgc cattgaacgg agggctcttc ctgagttctt 1441 caacggcaag aacaagtcta agactccaga gatctacctg gcgtatcgga acttcatgat 1501 tgacacttac cgactgaatc cccaggagta tctaacatct actgcctgtc ggcggaattt 1561 ggcgggtgat gtctgcgcta tcatgagggt ccatgccttc ctggaacagt ggggtcttat 1621 taactaccag gtagatgctg agagccgacc aaccccaatg gggcctccac ccacctctca 1681 cttccatgtc ttggcggaca caccatcagg gctggttcct cttcagccga agcctccaca 1741 gggccgccag gttgatgctg acaccaaggc tgggcggaag ggcaaagagc tggatgacct 1801 ggtgccagag acggctaagg gcaagccaga gctgcagagc tctgcttccc agcaaatgct 1861 gaacttccct gagaagggca aggagaaacc agcagacatg cagaattttg ggctgcgcac 1921 agacatgtac acaaagaaga acgtcccctc caagagcaaa gctgcagcaa gtgccactcg 1981 ggaatggacg gagcaggaga ctctgctgct cctggaggct ttggaaatgt acaaggacga 2041 ctggaacaaa gtatctgagc acgtgggaag ccgcacgcag gacgagtgca tcttgcattt 2101 tctccgcctt cccattgaag acccatacct ggaggactcg gaggcttctc taggccctct 2161 ggcctaccaa cccatcccct tcagtcagtc aggcaaccct gttatgagca ccgttgcctt 2221 cctggcctct gtcgtcgatc cccgagttgc ctctgctgct gcgaagtcag ccctagaaga 2281 gttctcaaaa atgaaggaag aggtgcccac agctttggtg gaagcccacg tgcgtaaggt 2341 cgaagaagcg gccaaagtca caggcaaggc cgacccagcc tttggtctgg agagtagcgg 2401 catcgcaggg actgcctctg atgagcctga gcgcattgag gaaagcggga ctgaggaggc 2461 acggccagag ggccaggcag cagatgagaa gaaggagcct aaggaaccac gggaaggagg 2521 gggcgctgtg gaggaagaag caaaggagga aataagtgag gtccccaaga aagatgaaga 2581 gaaagggaaa gaaggtgaca gtgagaagga gtctgagaag agtgacgggg acccgatagt 2641 tgatcctgag aaagacaagg aaccaacaga agggcaggag gaagtgctaa aggaagtggc 2701 agagccagag ggggagagga aaaccaaggt ggagcgtgac attggtgaag gcaacctgtc 2761 cacagctgca gccgcagccc tggccgctgc tgcagtcaag gccaagcact tggctgcagt 2821 tgaggagaga aagatcaagt ctttggtggc tctgctggta gagacccaaa tgaagaaact 2881 agagatcaaa ctccgacatt ttgaggagct ggagacaata atggaccggg agcgagaggc 2941 gctggaatac cagaggcagc agctcctggc cgaccggcaa gccttccaca tggagcagct 3001 gaagtatgca gagatgaggg cccggcagca gcacttccag cagatgcacc agcagcagca 3061 gcagcagcca ccaaccttgc ccccaggctc ccagcccata cctcccaccg gggctgctgg 3121 accacctaca gtccatggtc tagctgtgcc tccagccgct gtggcctctg cccctcctgg 3181 cagtggggcc cctcctggaa gcttgggccc ttctgaacag attgggcagg cagggacaac 3241 tgcagggcca cagcagccac aacaagctgg agcccctcag cctggggcag tcccaccagg 3301 ggtacccccc cctggacccc atggcccctc accgttcccc aaccaaccaa ctcctccctc 3361 aatgatgcca ggggcagtgc caggcagcgg gcacccaggc gtggcggacc caggcacccc 3421 gctgcctcca gaccccacag ctccaagccc aggcacagtc acccctgtgc cacctccaca 3481 gtgaggaacc agccagccat ctctccccct cactccccat ggagatcaca gttccaggaa 3541 cagccctccc ccactactgg gaccctccct cagcctgaag agttcatcac tacgtaagga 3601 aagctcctcc tgccccctca ccacccccac catgcccagc agaggtgtgc agttttatat 3661 ccaattatta tccacggact tctgactaaa agatgtttct aatgcctggg agagagaata 3721 ggagggaaag atgtttatac gaggttctac taactggttc tgagggtcta ccccttcaga 3781 attactgcat ttttgaagtg ataacatgaa aatgaaaccc tttaaaaggg aggttttaaa 3841 aaaagacact tcggagccca caaaaaaaga acttttttaa ttattattat tattattttg 3901 aggggaaagg gcaggtttta agaggaatta aatttctggg gcaaggtgtg aggtggaata 3961 gggcaccgag cctgtctccc tgagcccttg gcagtgctga gtcagctccc ctcacccatt 4021 ccagtttatt catacaaatc cctcctgctg ctcgtcatgg ttgctgtttt aggcccagtt 4081 cagccaatga ccttttcctc cagtcagctt tgtgtttgtg tttaagtcac ctgcttactc 4141 gtcagcgtct gtgtacttgt gggaaatgta gttttcgggg attctgtggt aggaaataga 4201 ggaagaaggg gcctcagttg ggctcttctt cctgctttcc tagttgtatc tgtgagtgcc 4261 caacaggcat cagaggggga gctctaagag gatggggggc ctgcagaccc tcaagtttga 4321 aaagcactta agcacctact tttgacagtg ggacagtctg ctaacttctg cccccaccaa 4381 ccaagcctga cagaacccag tgatagctag gagttcccca aatgaggaca aagatttggg 4441 agcagtgcag cgtgcctctg cactccaggt cttcctcttc accccctact tggaggcaga 4501 cacaattcca ggccgcacca gagcctggcc cctcccacca ggcgctttgc tccttctgtc 4561 ccagcgtctc cttcctctgc atctccacac ctttcttctg ttcaaagtct tctgtaaaat 4621 tttctttcct tctttgttct tttctttttc cttttttttt tataaattaa tttgctttca 4681 gttccaaaaa aaaaaaaaaa aaaaaaaaaa aaaaa SEQ ID NO: 54 Mouse SMARCC2 Amino Acid Sequence Isoform 2 (NP_001107568.1) 1 mavrkkdggp nvkyyeaadt vtqfdnvrlw lgknykkyiq aepptnksls slvvqllqfq 61 eevfgkhvsn apltklpikc fldfkaggsl chilaaaykf ksdqgwrryd fqnpsrmdrn 121 vemfmtieks lvqnnclsrp niflcpeiep kllgklkdiv krhqgtised ksnashvvyp 181 vpgnleeeew vrpvmkrdkq vllhwgyypd sydtwipase ieasvedapt pekprkvhak 241 wildtdtfne wmneedyevs ddkspvsrrk kisaktltde vnspdsdrrd kkggnykkrk 301 rspspsptpe akkknakkgp stpytkskrg hreeeqedlt kdmdepspvp nveevtlpkt 361 vntkkdsesa pvkggtmtdl deqddesmet tgkdedenst gnkgeqtknp dlhednvteq 421 thhiiipsya awfdynsvha ierralpeff ngknksktpe iylayrnfmi dtyrinpqey 481 ltstacrrnl agdvcaimrv hafleqwgli nyqvdaesrp tpmgppptsh fhvladtpsg 541 lvplqpkppq grqvdadtka grkgkelddl vpetakgkpe lqssasqqml nfpekgkekp 601 admqnfglrt dmytkknvps kskaaasatr ewtegetlll lealemykdd wnkvsehvgs 661 rtqdecilhf lrlpiedpyl edseaslgpl ayqpipfsqs gnpvmstvaf lasvvdprva 721 saaaksalee fskmkeevpt alveahvrkv eeaakvtgka dpafglessg iagtasdepe 781 rieesgteea rpegqaadek kepkepregg gaveeeakee isevpkkdee kgkegdseke 841 seksdgdpiv dpekdkepte gqeevlkeva epegerktkv erdigegnls taaaaalaaa 901 avkakhlaav eerkikslva llvetqmkkl eiklrhfeel etimdrerea leyqrqqlla 961 drqafhmeql kyaemrargq hfqqmhqqqq qqpptlppgs qpipptgaag pptvhglavp 1021 paavasappg sgappgslgp segiggagtt agpqqpqqag apqpgavppg vpppgphgps 1081 pfpnqptpps mmpgavpgsg hpgvadpgtp lppdptapsp gtvtpvpppq SEQ ID NO: 55 Mouse SMARCC2 cDNA Sequence Variant 3 (NM_198160.2, CDS: 92-3391) 1 gtggcggcgg gaggcggcgg gaggcgggcg gaggaggagg cgggagctga gctgagcggg 61 gcgggcggcg gcggggcccg agcccgagaa gatggcggtg cggaagaagg acggcggccc 121 caacgtgaag tactacgagg ccgcggacac cgtgacccag ttcgacaacg tgcggctctg 181 gctcggcaag aactacaaga agtacataca agcagaaccg ccaaccaaca agtctctgtc 241 cagcctggtg gtgcagttgc tccagtttca ggaagaggtt tttggcaaac atgtcagcaa 301 cgcaccgctt actaaactgc cgatcaaatg tttcctagat ttcaaagcag gaggatccct 361 ctgccatatt cttgcagctg cctacaaatt caagagtgac cagggatggc ggcgttacga 421 tttccagaat ccatcacgca tggaccgcaa tgtggaaatg ttcatgacca ttgagaagtc 481 cttggtacag aataattgcc tgtcacgacc taacattttc ctctgcccag aaattgagcc 541 caaactgcta gggaaattaa aagacattgt taagagacac cagggaacca tctctgagga 601 taagagcaat gcctcccatg ttgtgtatcc tgtcccaggg aacctagaag aagaggaatg 661 ggtacggcca gtcatgaaga gggataaaca ggttcttctg cactggggct actatcctga 721 cagctacgac acgtggatcc cagcgagtga aattgaagca tctgtggagg acgctcccac 781 tcctgagaaa ccgaggaagg tccatgcgaa gtggatcctc gacaccgaca cattcaacga 841 gtggatgaat gaggaagact acgaagtcag tgacgacaaa agcccagtct cccgcaggaa 901 gaagatctca gccaagacgc tgacagacga ggtaaacagc ccagattcag acagacgaga 961 caagaagggg ggcaactata agaagaggaa gcgctctccc tctccttcac ccaccccaga 1021 ggctaagaag aaaaacgcta agaaaggacc ctcaacacct tataccaagt caaagcgagg 1081 ccacagagaa gaggaacaag aagacctgac aaaagacatg gatgagccct ctccagtccc 1141 aaacgtggaa gaggtgacac tccccaaaac agtcaacact aaaaaggact ctgagtcagc 1201 cccagtcaaa ggcggcacca tgactgacct ggatgaacag gacgatgaaa gcatggagac 1261 caccggcaag gacgaggatg agaacagcac gggcaacaaa ggcgagcaga cgaagaaccc 1321 ggacctgcat gaggacaatg tgaccgagca gacccaccac atcatcatcc ccagctacgc 1381 cgcctggttt gactacaaca gcgtccatgc cattgaacgg agggctcttc ctgagttctt 1441 caacggcaag aacaagtcta agactccaga gatctacctg gcgtatcgga acttcatgat 1501 tgacacttac cgactgaatc cccaggagta tctaacatct actgcctgtc ggcggaattt 1561 ggcgggtgat gtctgcgcta tcatgagggt ccatgccttc ctggaacagt ggggtcttat 1621 taactaccag gtagatgctg agagccgacc aaccccaatg gggcctccac ccacctctca 1681 cttccatgtc ttggcggaca caccatcagg gctggttcct cttcagccga agcctccaca 1741 gcagagctct gcttcccagc aaatgctgaa cttccctgag aagggcaagg agaaaccagc 1801 agacatgcag aattttgggc tgcgcacaga catgtacaca aagaagaacg tcccctccaa 1861 gagcaaagct gcagcaagtg ccactcggga atggacggag caggagactc tgctgctcct 1921 ggaggctttg gaaatgtaca aggacgactg gaacaaagta tctgagcacg tgggaagccg 1981 cacgcaggac gagtgcatct tgcattttct ccgccttccc attgaagacc catacctgga 2041 ggactcggag gcttctctag gccctctggc ctaccaaccc atccccttca gtcagtcagg 2101 caaccctgtt atgagcaccg ttgccttcct ggcctctgtc gtcgatcccc gagttgcctc 2161 tgctgctgcg aagtcagccc tagaagagtt ctcaaaaatg aaggaagagg tgcccacagc 2221 tttggtggaa gcccacgtgc gtaaggtcga agaagcggcc aaagtcacag gcaaggccga 2281 cccagccttt ggtctggaga gtagcggcat cgcagggact gcctctgatg agcctgagcg 2341 cattgaggaa agcgggactg aggaggcacg gccagagggc caggcagcag atgagaagaa 2401 ggagcctaag gaaccacggg aaggaggggg cgctgtggag gaagaagcaa aggaggaaat 2461 aagtgaggtc cccaagaaag atgaagagaa agggaaagaa ggtgacagtg agaaggagtc 2521 tgagaagagt gacggggacc cgatagttga tcctgagaaa gacaaggaac caacagaagg 2581 gcaggaggaa gtgctaaagg aagtggcaga gccagagggg gagaggaaaa ccaaggtgga 2641 gcgtgacatt ggtgaaggca acctgtccac agctgcagcc gcagccctgg ccgctgctgc 2701 agtcaaggcc aagcacttgg ctgcagttga ggagagaaag atcaagtctt tggtggctct 2761 gctggtagag acccaaatga agaaactaga gatcaaactc cgacattttg aggagctgga 2821 gacaataatg gaccgggagc gagaggcgct ggaataccag aggcagcagc tcctggccga 2881 ccggcaagcc ttccacatgg agcagctgaa gtatgcagag atgagggccc ggcagcagca 2941 cttccagcag atgcaccagc agcagcagca gcagccacca accttgcccc caggctccca 3001 gcccatacct cccaccgggg ctgctggacc acctacagtc catggtctag ctgtgcctcc 3061 agccgctgtg gcctctgccc ctcctggcag tggggcccct cctggaagct tgggcccttc 3121 tgaacagatt gggcaggcag ggacaactgc agggccacag cagccacaac aagctggagc 3181 ccctcagcct ggggcagtcc caccaggggt acccccccct ggaccccatg gcccctcacc 3241 gttccccaac caaccaactc ctccctcaat gatgccaggg gcagtgccag gcagcgggca 3301 cccaggcgtg gcggacccag gcaccccgct gcctccagac cccacagctc caagcccagg 3361 cacagtcacc cctgtgccac ctccacagtg aggaaccagc cagccatctc tccccctcac 3421 tccccatgga gatcacagtt ccaggaacag ccctccccca ctactgggac cctccctcag 3481 cctgaagagt tcatcactac gtaaggaaag ctcctcctgc cccctcacca cccccaccat 3541 gcccagcaga ggtgtgcagt tttatatcca attattatcc acggacttct gactaaaaga 3601 tgtttctaat gcctgggaga gagaatagga gggaaagatg tttatacgag gttctactaa 3661 ctggttctga gggtctaccc cttcagaatt actgcatttt tgaagtgata acatgaaaat 3721 gaaacccttt aaaagggagg ttttaaaaaa agacacttcg gagcccacaa aaaaagaact 3781 tttttaatta ttattattat tattttgagg ggaaagggca ggttttaaga ggaattaaat 3841 ttctggggca aggtgtgagg tggaataggg caccgagcct gtctccctga gcccttggca 3901 gtgctgagtc agctcccctc acccattcca gtttattcat acaaatccct cctgctgctc 3961 gtcatggttg ctgttttagg cccagttcag ccaatgacct tttcctccag tcagctttgt 4021 gtttgtgttt aagtcacctg cttactcgtc agcgtctgtg tacttgtggg aaatgtagtt 4081 ttcggggatt ctgtggtagg aaatagagga agaaggggcc tcagttgggc tcttcttcct 4141 gctttcctag ttgtatctgt gagtgcccaa caggcatcag agggggagct ctaagaggat 4201 ggggggcctg cagaccctca agtttgaaaa gcacttaagc acctactttt gacagtggga 4261 cagtctgcta acttctgccc ccaccaacca agcctgacag aacccagtga tagctaggag 4321 ttccccaaat gaggacaaag atttgggagc agtgcagcgt gcctctgcac tccaggtctt 4381 cctcttcacc ccctacttgg aggcagacac aattccaggc cgcaccagag cctggcccct 4441 cccaccaggc gctttgctcc ttctgtccca gcgtctcctt cctctgcatc tccacacctt 4501 tcttctgttc aaagtcttct gtaaaatttt ctttccttct ttgttctttt ctttttcctt 4561 ttttttttat aaattaattt gctttcagtt ccaaaaaaaa aaaaaaaaaa aaaaaaaaaa 4621 aa SEQ ID NO: 56 Mouse SMARCC2 Amino Acid Sequence Isoform 3 (NP_937803.1) 1 mavrkkdggp nvkyyeaadt vtqfdnvrlw lgknykkyiq aepptnksls slvvqllqfq 61 eevfgkhvsn apltklpikc fldfkaggsl chilaaaykf ksdqgwrryd fqnpsrmdrn 121 vemfmtieks lvqnnclsrp niflcpeiep kllgklkdiv krhqgtised ksnashvvyp 181 vpgnleeeew vrpvmkrdkq vllhwgyypd sydtwipase ieasvedapt pekprkvhak 241 wildtdtfne wmneedyevs ddkspvsrrk kisaktltde vnspdsdrrd kkggnykkrk 301 rspspsptpe akkknakkgp stpytkskrg hreeeqedlt kdmdepspvp nveevtlpkt 361 vntkkdsesa pvkggtmtdl deqddesmet tgkdedenst gnkgeqtknp dlhednvteq 421 thhiiipsya awfdynsvha ierralpeff ngknksktpe iylayrnfmi dtyrinpqey 481 ltstacrrnl agdvcaimry hafleqwgli nyqvdaesrp tpmgppptsh fhvladtpsg 541 lvplqpkppq qssasqqmln fpekgkekpa dmqnfglrtd mytkknvpsk skaaasatre 601 wteqetllll ealemykddw nkvsehvgsr tqdecilhfl rlpiedpyle dseaslgpla 661 yqpipfsgsg npvmstvafl asvvdprvas aaaksaleef skmkeevpta lveahvrkve 721 eaakvtgkad pafglessgi agtasdeper ieesgteear pegqaadekk epkepreggg 781 aveeeakeei sevpkkdeek gkegdsekes eksdgdpivd pekdkepteg qeevlkevae 841 pegerktkve rdigegnlst aaaaalaaaa vkakhlaave erkikslval lvetqmkkle 901 iklrhfeele timdrereal eygrqqllad rqafhmeqlk yaemrarqqh fqqmhqqqqq 961 qpptlppgsq pipptgaagp ptvhglavpp aavasappgs gappgslgps eqigqagtta 1021 gpqqpqqaga pqpgavppgv pppgphgpsp fpnqptppsm mpgavpgsgh pgvadpgtpl 1081 ppdptapspg tvtpvpppq SEQ ID NO: 57 Human SMARCD1 cDNA Sequence Variant 1 (NM_003076.4, CDS: 171-1718) 1 agcacgcctt ttccgctagt cgccccgctc tatcccatag tctcgctgcc ctgagcctcc 61 cgtgccggcc ggccggccgg gggaacaggc gggcgctcgg ggggcgctcg gggggcgggg 121 ggagttccgg ttccggttct ttgtgcggct gcatcggcgg ctccgggaag atggcggccc 181 gggcgggttt ccagtctgtg gctccaagcg gcggcgccgg agcctcagga ggggcgggcg 241 cggctgctgc cttgggcccg ggcggaactc cggggcctcc tgtgcgaatg ggcccggctc 301 cgggtcaagg gctgtaccgc tccccgatgc ccggagcggc ctatccgaga ccaggtatgt 361 tgccaggcag ccgaatgaca cctcagggac cttccatggg accccctggc tatgggggga 421 acccttcagt ccgacctggc ctggcccagt cagggatgga tcagtcccgc aagagacctg 481 cccctcagca gatccagcag gtccagcagc aggcggtcca aaatcgaaac cacaatgcaa 541 agaaaaagaa gatggctgac aaaattctac ctcaaaggat tcgtgaactg gtaccagaat 601 cccaggccta tatggatctc ttggcttttg aaaggaaact ggaccagact atcatgagga 661 aacggctaga tatccaagag gccttgaaac gtcccatcaa gcaaaaacgg aagctgcgaa 721 ttttcatttc taacactttc aatccggcta agtcagatgc cgaggatggg gaagggacgg 781 tggcttcctg ggagcttcgg gtagaaggac ggctcctgga ggattcagcc ttgtccaaat 841 atgatgccac taaacaaaag aggaagttct cttccttttt taagtccttg gtgattgaac 901 tggacaaaga cctgtatggg ccagacaacc atctggtaga atggcacagg accgccacta 961 cccaggagac cgatggcttt caggtgaagc ggccgggaga cgtgaatgta cggtgtactg 1021 tcctactgat gctggattac cagcctcccc agtttaaatt agacccccgc ctagctcgac 1081 tcctgggcat ccatacccag actcgtccag tgatcatcca agcactgtgg caatatatta 1141 agacacataa gctccaggac cctcacgagc gggagtttgt catctgtgac aagtacctgc 1201 agcagatctt tgagtctcaa cgtatgaagt tttcagagat ccctcagcgg ctccatgcct 1261 tgcttatgcc accagaacct atcatcatta atcatgtcat cagtgttgac ccgaatgatc 1321 agaaaaagac agcttgttat gacattgatg ttgaagtgga tgacaccttg aagacccaga 1381 tgaattcttt tctgctgtcc actgccagcc aacaggagat tgctactcta gacaacaaga 1441 tccatgagac aatagaaacc atcaaccagc tgaagactca gcgggagttc atgctgagct 1501 ttgccagaga ccctcagggt ttcatcaatg actggcttca gtcccagtgc agggacctca 1561 agacaatgac tgatgtggtg ggtaacccag aggaggagcg ccgagctgag ttctacttcc 1621 agccctgggc tcaggaggct gtgtgccgat acttctactc caaggtgcag cagagacgac 1681 aagaattaga gcaagccctg ggaatccgga atacataggg cctctcccac agccctgatt 1741 cgactgcacc aattcttgat ttgggccctg tgctgcctgc ctcatagtat ctgccttggt 1801 cttgcttggg gcgttccagg ggatgctgtt ggttcaagga caacaccaga atgaagaggg 1861 tctcacaaga cacctgttat cctcttcttt caccctatct cttcccaccc ccagcttccc 1921 tttgccccac aaagttccca tgtgcctgta ccctcccctg gtctacatag gacctctaga 1981 tagtgttaga gagagaacat gtagtggtaa tgagtgcttg gaatggattg ggcctcaggc 2041 caggtggtct tcaaggggac cagctaactg atcctgccct tcagagaccc aggagttggg 2101 agctttcgct ccttctccaa gactcaggcc tgtgggcact ctataagcta gttgatcttg 2161 gctctcctga taacagaatc caatttcctt ccttccctcc acaggtttgg aacaaactct 2221 cccttcactt gttgccctgt agcactacag aaaccctggt tcttgggctc cactgagccc 2281 caggtcagtc cccagccctc tgggttggcc tgctgtcagt gcttctctca ctccttagtt 2341 ggggtccaca tcagtattgg agttttgttc tttattgctc cctcccagac actccctgtg 2401 gctgcccttt gtgattccct cagatctgcc ctaatcccgg gcatttgggt gggggaatct 2461 tgcctttccc tttcagagcc ccagggatct catctgggga actgtcattg ccagcagagg 2521 ctgttccttc ctgctgtttg gagatgtgac tcattcattc actcactcca ccctgcctct 2581 gcatccctta atggagaaac gggcctaaaa ccaaacgggt aaaaagccct gggccatccc 2641 tgtcttcctg tcccttgtct gcccagttga cacctactgg tgacttctag ggcactgagg 2701 agtgaaagcg cctagggctg gagaatagcg ctgagttggg tttgtgactc ttccctctcc 2761 ctgcctcaca ggattgtgac tccccagccc ctgccctcaa agcttcagac ccctcaggta 2821 gcagcaggac cttgtgatct tggccccttg gatctgagat ggtttttgca tctttccagg 2881 agagcctcac attcttcttc caggttgtat cacccccgag ttagcatatc ccaggctcgc 2941 agactcaaca cagcaagggt gggagacagc tgggcacaaa gggggaattc cgttcagcat 3001 gggctctaaa cccacagaac tgacaaagcc cctgcttccc caccccctcc tcaggctcct 3061 gcgagcacac ccccaccccc aaatccctcc ctgttctaca ctggggacag cagaattttc 3121 tccccgtctt ccccttcctg ccattttccc tcccttgaaa ggttgacact ggacaacctt 3181 ggggcagctg agccctggcc gcctcctggc tggaaccatg agaaggaagc tcagtacttc 3241 ccacagtgtc cctgttgata actgttttta ttaactgaat tgtttttttc atggaccaaa 3301 cttttttttg tactgtcccc ttattgatgt tacccagttt taataaaaga atcttctgaa 3361 ggatgggtcc tcctacctac tgtgagagag ctcttccctg agctcttctt ccttcaatac 3421 cattagccaa a SEQ ID NO: 58 Human SMARCD1 Amino Acid Sequence Isoform A (NP_003067.3) 1 maaragfqsv apsggagasg gagaaaalgp ggtpgppvrm gpapgqglyr spmpgaaypr 61 pgmlpgsrmt pqgpsmgppg yggnpsvrpg lagsgmdqsr krpapqqiqq vqqqavqnrn 121 hnakkkkmad kilpqrirel vpesqaymdl laferkldqt imrkrldiqe alkrpikqkr 181 klrifisntf npaksdaedg egtvaswelr vegrlledsa lskydatkqk rkfssffksl 241 vieldkdlyg pdnhlvewhr tattqetdgf qvkrpgdvnv rctvllmldy qppqfkldpr 301 larllgihtq trpviiqalw qyikthklqd pherefvicd kylgqifesq rmkfseipqr 361 lhallmppep iiinhvisvd pndqkktacy didvevddtl ktqmnsflls tasqqeiatl 421 dnkihetiet inglktgref mlsfardpqg findwlqsqc rdlktmtdvv gnpeeerrae 481 fyfqpwagea vcryfyskvq qrrqeleqal girnt SEQ ID NO: 59 Human SMARCD1 cDNA Sequence Variant 2 (NM_139071.2, CDS: 171-1595) 1 agcacgcctt ttccgctagt cgccccgctc tatcccatag tctcgctgcc ctgagcctcc 61 cgtgccggcc ggccggccgg gggaacaggc gggcgctcgg ggggcgctcg gggggcgggg 121 ggagttccgg ttccggttct ttgtgcggct gcatcggcgg ctccgggaag atggcggccc 181 gggcgggttt ccagtctgtg gctccaagcg gcggcgccgg agcctcagga ggggcgggcg 241 cggctgctgc cttgggcccg ggcggaactc cggggcctcc tgtgcgaatg ggcccggctc 301 cgggtcaagg gctgtaccgc tccccgatgc ccggagcggc ctatccgaga ccaggtatgt 361 tgccaggcag ccgaatgaca cctcagggac cttccatggg accccctggc tatgggggga 421 acccttcagt ccgacctggc ctggcccagt cagggatgga tcagtcccgc aagagacctg 481 cccctcagca gatccagcag gtccagcagc aggcggtcca aaatcgaaac cacaatgcaa 541 agaaaaagaa gatggctgac aaaattctac ctcaaaggat tcgtgaactg gtaccagaat 601 cccaggccta tatggatctc ttggcttttg aaaggaaact ggaccagact atcatgagga 661 aacggctaga tatccaagag gccttgaaac gtcccatcaa gcaaaaacgg aagctgcgaa 721 ttttcatttc taacactttc aatccggcta agtcagatgc cgaggatggg gaagggacgg 781 tggcttcctg ggagcttcgg gtagaaggac ggctcctgga ggattcagcc ttgtccaaat 841 atgatgccac taaacaaaag aggaagttct cttccttttt taagtccttg gtgattgaac 901 tggacaaaga cctgtatggg ccagacaacc atctggtaga atggcacagg accgccacta 961 cccaggagac cgatggcttt caggtgaagc ggccgggaga cgtgaatgta cggtgtactg 1021 tcctactgat gctggattac cagcctcccc agtttaaatt agacccccgc ctagctcgac 1081 tcctgggcat ccatacccag actcgtccag tgatcatcca agcactgtgg caatatatta 1141 agacacataa gctccaggac cctcacgagc gggagtttgt catctgtgac aagtacctgc 1201 agcagatctt tgagtctcaa cgtatgaagt tttcagagat ccctcagcgg ctccatgcct 1261 tgcttatgcc accagaacct atcatcatta atcatgtcat cagtgttgac ccgaatgatc 1321 agaaaaagac agcttgttat gacattgatg ttgaagtgga tgacaccttg aagacccaga 1381 tgaattcttt tctgctgtcc actgccagcc aacaggagat tgctactcta gacaacaaga 1441 caatgactga tgtggtgggt aacccagagg aggagcgccg agctgagttc tacttccagc 1501 cctgggctca ggaggctgtg tgccgatact tctactccaa ggtgcagcag agacgacaag 1561 aattagagca agccctggga atccggaata catagggcct ctcccacagc cctgattcga 1621 ctgcaccaat tcttgatttg ggccctgtgc tgcctgcctc atagtatctg ccttggtctt 1681 gcttggggcg ttccagggga tgctgttggt tcaaggacaa caccagaatg aagagggtct 1741 cacaagacac ctgttatcct cttctttcac cctatctctt cccaccccca gcttcccttt 1801 gccccacaaa gttcccatgt gcctgtaccc tcccctggtc tacataggac ctctagatag 1861 tgttagagag agaacatgta gtggtaatga gtgcttggaa tggattgggc ctcaggccag 1921 gtggtcttca aggggaccag ctaactgatc ctgcccttca gagacccagg agttgggagc 1981 tttcgctcct tctccaagac tcaggcctgt gggcactcta taagctagtt gatcttggct 2041 ctcctgataa cagaatccaa tttccttcct tccctccaca ggtttggaac aaactctccc 2101 ttcacttgtt gccctgtagc actacagaaa ccctggttct tgggctccac tgagccccag 2161 gtcagtcccc agccctctgg gttggcctgc tgtcagtgct tctctcactc cttagttggg 2221 gtccacatca gtattggagt tttgttcttt attgctccct cccagacact ccctgtggct 2281 gccctttgtg attccctcag atctgcccta atcccgggca tttgggtggg ggaatcttgc 2341 ctttcccttt cagagcccca gggatctcat ctggggaact gtcattgcca gcagaggctg 2401 ttccttcctg ctgtttggag atgtgactca ttcattcact cactccaccc tgcctctgca 2461 tcccttaatg gagaaacggg cctaaaacca aacgggtaaa aagccctggg ccatccctgt 2521 cttcctgtcc cttgtctgcc cagttgacac ctactggtga cttctagggc actgaggagt 2581 gaaagcgcct agggctggag aatagcgctg agttgggttt gtgactcttc cctctccctg 2641 cctcacagga ttgtgactcc ccagcccctg ccctcaaagc ttcagacccc tcaggtagca 2701 gcaggacctt gtgatcttgg ccccttggat ctgagatggt ttttgcatct ttccaggaga 2761 gcctcacatt cttcttccag gttgtatcac ccccgagtta gcatatccca ggctcgcaga 2821 ctcaacacag caagggtggg agacagctgg gcacaaaggg ggaattccgt tcagcatggg 2881 ctctaaaccc acagaactga caaagcccct gcttccccac cccctcctca ggctcctgcg 2941 agcacacccc cacccccaaa tccctccctg ttctacactg gggacagcag aattttctcc 3001 ccgtcttccc cttcctgcca ttttccctcc cttgaaaggt tgacactgga caaccttggg 3061 gcagctgagc cctggccgcc tcctggctgg aaccatgaga aggaagctca gtacttccca 3121 cagtgtccct gttgataact gtttttatta actgaattgt ttttttcatg gaccaaactt 3181 ttttttgtac tgtcccctta ttgatgttac ccagttttaa taaaagaatc ttctgaagga 3241 tgggtcctcc tacctactgt gagagagctc ttccctgagc tcttcttcct tcaataccat 3301 tagccaaa SEQ ID NO: 60 Human SMARCD1 Amino Acid Sequence Isoform B (NP_620710.2) 1 maaragfqsv apsggagasg gagaaaalgp ggtpgppvrm gpapgqglyr spmpgaaypr 61 pgmlpgsrmt pqgpsmgppg yggnpsvrpg lagsgmdqsr krpapqqiqq vqqqavqnrn 121 hnakkkkmad kilpqrirel vpesqaymdl laferkldqt imrkrldiqe alkrpikqkr 181 klrifisntf npaksdaedg egtvaswelr vegrlledsa lskydatkqk rkfssffksl 241 vieldkdlyg pdnhlvewhr tattqetdgf qvkrpgdvnv rctvllmldy qppqfkldpr 301 larllgihtq trpviiqalw qyikthklqd pherefvicd kylqqifesq rmkfseipqr 361 lhallmppep iiinhvisvd pndqkktacy didvevddtl ktqmnsflls tasqqeiatl 421 dnktmtdvvg npeeerraef yfqpwageav cryfyskvqq rrgelegalg irnt SEQ ID NO: 61 Mouse SMARCD1 cDNA Sequence (NM_031842.2, CDS: 36-1583) 1 gttctttgtg cagctgcagc ggcggctccg ggaagatggc ggcccgggcg ggtttccagt 61 ctgtggctcc gagcggcggc gcgggagcct caggaggagc gggcgtggcg gctgctctgg 121 gcccgggcgg aactcccggg cctcccgtgc gaatgggccc ggcgccgggt caagggctgt 181 accgctctcc gatgcccggg gcggcctatc cgagaccagg tatgctgcca ggtagccgaa 241 tgacacctca gggaccttcc atgggacctc ctggctatgg ggggaaccct tcagtccgac 301 ctggtctggc ccagtcaggg atggaccagt cccgcaagag acctgcacct caacagatcc 361 agcaggtcca gcagcaggcg gtccaaaatc gaaatcacaa tgcaaagaaa aagaagatgg 421 ctgacaaaat cctacctcaa aggattcggg aactggtccc agaatcacag gcctacatgg 481 atctcctggc ttttgaaagg aaactggacc agactattat gaggaagcgg ctagatatcc 541 aggaggcctt gaaacgtccc atcaagcaaa aacggaagct gcgaattttc atttctaaca 601 cgttcaatcc ggctaagtcg gacgcggagg atggggaagg gacggtggct tcctgggagc 661 tccgggtaga aggccggctc ctggaggacg cggccttgtc caaatatgac gccaccaagc 721 aaaagagaaa gttctcttcc ttttttaagt ccttggtgat cgaactggac aaagacctct 781 atggcccaga caaccatctg gtagaatggc acaggaccgc cactacccag gagaccgatg 841 gcttccaggt gaagcggcca ggagatgtga atgtacggtg tactgtcctg ctgatgctgg 901 actaccagcc cccccagttt aaattagacc ctcgcctggc tcggctcttg ggcatccata 961 cccagacacg tccagtgatc atccaagcac tgtggcagta tattaaaaca cacaagctcc 1021 aggaccctca cgagcgagag tttgttctct gtgacaagta cctccagcag atctttgaat 1081 ctcagcggat gaagttctca gagatccctc agcggctcca cgccttgctt atgccaccag 1141 agcccatcat catcaatcat gtcatcagtg tggacccaaa tgaccagaaa aagaccgcgt 1201 gctatgacat tgacgtggag gtggatgaca ctctgaagac ccagatgaac tctttcctgt 1261 tgtccactgc cagccagcag gagatcgcca ctctagacaa caagatccat gagacgatag 1321 agaccatcaa ccagctgaag acccagcgag agttcatgtt gagctttgcc cgagaccctc 1381 agggtttcat caatgattgg cttcagtccc agtgcaggga cctcaagacg atgactgatg 1441 tggtgggtaa cccggaagag gagcgtcgtg ctgagttcta cttccagccc tgggctcagg 1501 aggctgtgtg ccgatacttc tactccaagg tgcagcagag gcggcaagag ttagagcaag 1561 ccctgggaat ccgaaacaca tagggcctct gtggccctag cctggctgca ccgattcctt 1621 gggccctgtg ctgcctgcct cagtgtacct gtcttggtct tgcttgaggc attccagggg 1681 acttggcttc aggacagtgt cacaatgaag agggtgtcac atttctgtct cacagtcacc 1741 tgttatcccg tcctgtaccc cagtcgtccc ccgtcccgtc gtgtcccccc ctcaccccac 1801 cccgcctcag ctcctcccca tcaggctcct gtgtgcctct acctccctat cctacatagg 1861 acctctagat agtgttagag aaccacagag tgggggcctc ctgaggtcag gtggtcttga 1921 gggagaccag ctacactgat cctgcccttg tcaggagacc taggccttgg gagctatccc 1981 tgtctgagcc tcaggcctag ggcagtctgt aagctagctg accttggccc tcccggtagc 2041 ttgacttctt ccctcccctc cgcaggttgg ggcagaggct cctttacctc tggcagtaaa 2101 ggagcctggg cttcactgag ccccgggttg gtcccctgcc ctctggactt aacctgctgt 2161 ctcagtgtcc tctgacccct taggggtcca tgtcagtatt ggagtgtgtg ttgaattgtt 2221 gctccctccc acacactccc gtagccgccc agtttaggat ttccctacac ctgccctaac 2281 ccacgctttt gggttgggga tcttgccttt ccttgtcatt cccagcagag actgttcctt 2341 cctgctgtta gaggagtggc ttgtttattc actccaccct gccccctcct gtaaatggag 2401 aaacaggcct gaaatcaaac gggtaaagcc ctaggccatc cctgtcttcc tgtcccatgt 2461 ctgcccagtt gaatcccact ggtggcttcc cgggcactga ggagtaaaag cgcctagggc 2521 tggagaatag gtctgaaatg ggtttgtgac tccccacccc ctgccctgcc ctcaaagctt 2581 cagacccctc agggagcagc aggatgtggg atcgaggccc cttgggacag atgctttgaa 2641 tcttccaggg aagcctccga ttcttccagg tttgtcaccc ggagttagca tgtcccaggc 2701 tcgcagacaa cactgcaggg tgggagacag ctgggcacag ggggattctg ttgagcatgg 2761 gctctgaacc cacagaactg acaaagcccc tgcttcccca cccccacctc aggctcctgc 2821 gagcagtgct cctgcaccct tcccagcctg ttctgtactg gggacagcag tcttctccct 2881 gtcctcccat gtcctatatc cacccctccc cttggaaggt cctccccaca gtgacactgg 2941 acagccctgg ggcagctgag ccccagcctg gcttctggct ggaagcgcga tgaggagact 3001 tagcactcca cagtgtccct ggtggtaact gttcttatta actgattgtg ttttgttttg 3061 ttttgttttg ttttcatgga ccaaaatttt ttttgtactg tctccttaac tgatgtcacc 3121 cagttttaat aaaagacttc taaagagcag gtc SEQ ID NO: 62 Mouse SMARCD1 Amino Acid Sequence (NP_114030.2) 1 maaragfqsv apsggagasg gagvaaalgp ggtpgppvrm gpapgqglyr spmpgaaypr 61 pgmlpgsrmt pqgpsmgppg yggnpsvrpg lagsgmdqsr krpapqqiqq vqqqavqnrn 121 hnakkkkmad kilpqrirel vpesqaymdl laferkldqt imrkrldiqe alkrpikqkr 181 klrifisntf npaksdaedg egtvaswelr vegrlledaa lskydatkqk rkfssffksl 241 vieldkdlyg pdnhlvewhr tattqetdgf qvkrpgdvnv rctvllmldy qppqfkldpr 301 larllgihtq trpviiqalw qyikthklqd pherefvlcd kylgqifesq rmkfseipqr 361 lhallmppep iiinhvisvd pndqkktacy didvevddtl ktqmnsflls tasqqeiatl 421 dnkihetiet inglktgref mlsfardpqg findwlqsqc rdlktmtdvv gnpeeerrae 481 fyfqpwagea vcryfyskvq qrrqeleqal girnt SEQ ID NO: 63 Human SMARCD2 cDNA Sequence Variant 1 (NM_001098426.1, CDS: 318-1913) 1 gttgggcggg gcagggagtt cgtagccgcc tctgggtaac tcgactcggg cggccaaacc 61 tccggaggcc ggggacggaa ggcgggcccg cagcagatcc tggatccgga atctcccggg 121 caggagcgga atctgtcccg aaccgggtct gtgaggaact cgcgaacttg gattaggaaa 181 tcccggagcc cggatcgaca aatcccggaa cccggaatta agatcgccaa gtcccggatc 241 gcggagcaca gagcacggag tggactcgac gcggagcccg gagtccggat cgcggcaccg 301 cgggacggga cggagcgatg tcgggccgag gcgcgggcgg gttcccgctg cccccgctaa 361 gccctggcgg cggcgccgtg gctgcggccc tgggagcgcc gcctcccccc gcgggacccg 421 gcatgctgcc cggaccggcg ctccggggac cgggtccggc aggaggcgtg gggggccccg 481 gggccgccgc cttccgcccc atgggccccg cgggccccgc ggcgcagtac cagcgacctg 541 gcatgtcacc agggaaccgg atgcccatgg ctggcttgca ggtgggaccc cctgctggct 601 ccccatttgg tgcagcagct ccgcttcgac ctggcatgcc acccaccatg atggatccat 661 tccgaaaacg cctgcttgtg ccccaggcgc agcctcccat gcctgcccag cgccgggggt 721 taaagaggag gaagatggca gataaggttc tacctcagcg aatccgggag cttgttccag 781 agtctcaggc gtacatggat ctcttggctt ttgagcggaa gctggaccag accattgctc 841 gcaagcggat ggagatccag gaggccatca aaaagcctct gacacaaaag cgaaagcttc 901 ggatctacat ttccaatacg ttcagtccca gcaaggcgga aggcgatagt gcaggaactg 961 cagggacccc tgggggaacc ccagcagggg acaaggtggc ttcctgggaa ctccgagtgg 1021 aaggaaaact gctggatgat cctagcaaac agaagaggaa gttttcttca ttctttaaga 1081 gcctcgtcat tgagctggac aaggagctgt acgggcctga caatcacctg gtggagtggc 1141 accggatgcc caccacccag gagacagatg gcttccaagt aaaacggcct ggagacctca 1201 acgtcaagtg caccctcctg ctcatgctgg atcatcagcc tccccagtac aaattggacc 1261 cccgattggc aaggctgctg ggagtgcaca cgcagacgag ggccgccatc atgcaggccc 1321 tgtggcttta catcaagcac aaccagctgc aggatgggca cgagcgggag tacatcaact 1381 gcaaccgtta cttccgccag atcttcagtt gtggccgact ccgtttctcc gagattccca 1441 tgaagctggc agggttgctg cagcatccag accccattgt catcaaccat gtcattagtg 1501 tcgaccctaa cgaccagaag aagacagcct gttacgacat cgatgtggag gtggacgacc 1561 cactgaaggc ccaaatgagc aattttctgg cctctaccac caatcagcag gagatcgcct 1621 cccttgatgt caagatccat gagaccattg agtccatcaa ccagctgaag acccagagag 1681 atttcatgct cagttttagc accgaccccc aggacttcat ccaggaatgg ctccgttccc 1741 agcgccgaga cctcaagatc atcactgatg tgattggaaa tcctgaggag gagagacgag 1801 ctgctttcta ccaccagccc tgggcccagg aagcagtagg caggcacatc tttgccaagg 1861 tgcagcagcg aaggcaggaa ctggaacagg tgctgggaat tcgcctgacc taactgctca 1921 gggatctttc ttcccagccc tggagcctgg agggagacca ccctctgggt ccttgctggg 1981 gccgcagaca cgtaggctgg ggtgaggagt gtctgctgtc accctctact ctccagcttt 2041 agtcttataa atgtagtgat aggattcctt gttgcttggt ccccaaagcc ttatactttt 2101 tgcattggct ttaattgggt tcagcagatg cctcctctgc ccccctgcag gcaggcccaa 2161 gtaggactgc tggaggctgt gctttgacat tgtaagacat ttccgaacca aaggctgctg 2221 ggtttgcatg tttacagact ccccctgggg cgagggtcag agctggctct ggggagctgg 2281 gctaggaaga ggaggtgcag cccagactct tcctagcctt tctaaaccaa agttctttgc 2341 cattcctaca agcccagcct tgctgctggt tttttccttt cctttgggta tttgcactat 2401 tttgggagca agttttctat gtgggagcca ctttttttgt acaggggtaa gttgggggtt 2461 ttcagggagc ctgttaggtg cctccttctt ttctttcctc aatctatgca agcggctctg 2521 gccgccatca tctcctggga tgccagaggg ctgcctctcc agcggcttgg gccggggagg 2581 ggacactcca gttctctagc atggcctgag gtatggggta tgtgcatgtg gaggccaggg 2641 taaggtgaat ggggaggctg ggaggactgg tgttgccctt tggagcttgg tgaggagggt 2701 gggcctaggg cttggcgagt gccacatctg gcaggtttgg aaatttccaa ataaatcctt 2761 ttgtctattg SEQ ID NO: 64 Human SMARCD2 Amino Acid Sequence Isoform 1 (NP_001091896.1) 1 msgrgaggfp lpplspggga vaaalgappp pagpgmlpgp alrgpgpagg vggpgaaafr 61 pmgpagpaaq yqrpgmspgn rmpmaglqvg ppagspfgaa aplrpgmppt mmdpfrkrll 121 vpqaqppmpa qrrglkrrkm adkvlpgrir elvpesqaym dllaferkld qtiarkrmei 181 qeaikkpltq krklriyisn tfspskaegd sagtagtpgg tpagdkvasw elrvegklld 241 dpskqkrkfs sffkslviel dkelygpdnh lvewhrmptt qetdgfqvkr pgdlnvkctl 301 llmldhqppq ykldprlarl lgvhtqtraa imqalwlyik hnqlqdgher eyincnryfr 361 qifscgrlrf seipmklagl lqhpdpivin hvisvdpndq kktacydidv evddplkaqm 421 snflasttnq qeiasldvki hetiesinql ktqrdfmlsf stdpgdfiqe wlrsqrrdlk 481 iitdvignpe eerraafyhq pwaqeavgrh ifakvqqrrq eleqvlgirl t SEQ ID NO: 65 Human SMARCD2 cDNA Sequence Variant 2 (NM_001330439.1, CDS: 96-1466) 1 agtaccaggt gagcaaggag gacgcgagcg gacgggggcg agaggcgctg cgagggcgcc 61 cgggccggcg gctgaagggg cctcgacgac ctggcatgtc accagggaac cggatgccca 121 tggctggctt gcaggtggga ccccctgctg gctccccatt tggtgcagca gctccgcttc 181 gacctggcat gccacccacc atgatggatc cattccgaaa acgcctgctt gtgccccagg 241 cgcagcctcc catgcctgcc cagcgccggg ggttaaagag gaggaagatg gcagataagg 301 ttctacctca gcgaatccgg gagcttgttc cagagtctca ggcgtacatg gatctcttgg 361 cttttgagcg gaagctggac cagaccattg ctcgcaagcg gatggagatc caggaggcca 421 tcaaaaagcc tctgacacaa aagcgaaagc ttcggatcta catttccaat acgttcagtc 481 ccagcaaggc ggaaggcgat agtgcaggaa ctgcagggac ccctggggga accccagcag 541 gggacaaggt ggcttcctgg gaactccgag tggaaggaaa actgctggat gatcctagca 601 aacagaagag gaagttttct tcattcttta agagcctcgt cattgagctg gacaaggagc 661 tgtacgggcc tgacaatcac ctggtggagt ggcaccggat gcccaccacc caggagacag 721 atggcttcca agtaaaacgg cctggagacc tcaacgtcaa gtgcaccctc ctgctcatgc 781 tggatcatca gcctccccag tacaaattgg acccccgatt ggcaaggctg ctgggagtgc 841 acacgcagac gagggccgcc atcatgcagg ccctgtggct ttacatcaag cacaaccagc 901 tgcaggatgg gcacgagcgg gagtacatca actgcaaccg ttacttccgc cagatcttca 961 gttgtggccg actccgtttc tccgagattc ccatgaagct ggcagggttg ctgcagcatc 1021 cagaccccat tgtcatcaac catgtcatta gtgtcgaccc taacgaccag aagaagacag 1081 cctgttacga catcgatgtg gaggtggacg acccactgaa ggcccaaatg agcaattttc 1141 tggcctctac caccaatcag caggagatcg cctcccttga tgtcaagatc catgagacca 1201 ttgagtccat caaccagctg aagacccaga gagatttcat gctcagtttt agcaccgacc 1261 cccaggactt catccaggaa tggctccgtt cccagcgccg agacctcaag atcatcactg 1321 atgtgattgg aaatcctgag gaggagagac gagctgcttt ctaccaccag ccctgggccc 1381 aggaagcagt aggcaggcac atctttgcca aggtgcagca gcgaaggcag gaactggaac 1441 aggtgctggg aattcgcctg acctaactgc tcagggatct ttcttcccag ccctggagcc 1501 tggagggaga ccaccctctg ggtccttgct ggggccgcag acacgtaggc tggggtgagg 1561 agtgtctgct gtcaccctct actctccagc tttagtctta taaatgtagt gataggattc 1621 cttgttgctt ggtccccaaa gccttatact ttttgcattg gctttaattg ggttcagcag 1681 atgcctcctc tgcccccctg caggcaggcc caagtaggac tgctggaggc tgtgctttga 1741 cattgtaaga catttccgaa ccaaaggctg ctgggtttgc atgtttacag actccccctg 1801 gggcgagggt cagagctggc tctggggagc tgggctagga agaggaggtg cagcccagac 1861 tcttcctagc ctttctaaac caaagttctt tgccattcct acaagcccag ccttgctgct 1921 ggttttttcc tttcctttgg gtatttgcac tattttggga gcaagttttc tatgtgggag 1981 ccactttttt tgtacagggg taagttgggg gttttcaggg agcctgttag gtgcctcctt 2041 cttttctttc ctcaatctat gcaagcggct ctggccgcca tcatctcctg ggatgccaga 2101 gggctgcctc tccagcggct tgggccgggg aggggacact ccagttctct agcatggcct 2161 gaggtatggg gtatgtgcat gtggaggcca gggtaaggtg aatggggagg ctgggaggac 2221 tggtgttgcc ctttggagct tggtgaggag ggtgggccta gggcttggcg agtgccacat 2281 ctggcaggtt tggaaatttc caaataaatc cttttgtcta ttgaaaaaaa aaaaaaaaaa 2341 a SEQ ID NO: 66 Human SMARCD2 Amino Acid Sequence Isoform 2 (NP_001317368.1) 1 mspgnrmpma glqvgppags pfgaaaplrp gmpptmmdpf rkrllvpqaq ppmpagrrgl 61 krrkmadkvl pqrirelvpe sqaymdllaf erkldqtiar krmeigeaik kpltqkrklr 121 iyisntfsps kaegdsagta gtpggtpagd kvaswelrve gkllddpskq krkfssffks 181 lvieldkely gpdnhlvewh rmpttgetdg fqvkrpgdln vkctlllmld hqppqykldp 241 rlarllgvht qtraaimqal wlyikhnqlq dghereyinc nryfrqifsc grlrfseipm 301 klagllqhpd pivinhvisv dpndqkktac ydidvevddp lkaqmsnfla sttnqqeias 361 ldvkihetie sinqlktqrd fmlsfstdpq dfigewlrsq rrdlkiitdv ignpeeerra 421 afyhqpwaqe avgrhifakv qqrrqeleqv lgirlt SEQ ID NO: 67 Human SMARCD2 cDNA Sequence Variant 3 (NM_001330440.1, CDS: 48-1499) 1 agtgtgtgca aggcagagct gccaaacagg ccttgcaggc agcagccatg gggaggcggg 61 tgggggtgga ggtgactccc agatgggctc cacagaaatg tcagggagca aggcctcagc 121 gacctggcat gtcaccaggg aaccggatgc ccatggctgg cttgcaggtg ggaccccctg 181 ctggctcccc atttggtgca gcagctccgc ttcgacctgg catgccaccc accatgatgg 241 atccattccg aaaacgcctg cttgtgcccc aggcgcagcc tcccatgcct gcccagcgcc 301 gggggttaaa gaggaggaag atggcagata aggttctacc tcagcgaatc cgggagcttg 361 ttccagagtc tcaggcgtac atggatctct tggcttttga gcggaagctg gaccagacca 421 ttgctcgcaa gcggatggag atccaggagg ccatcaaaaa gcctctgaca caaaagcgaa 481 agcttcggat ctacatttcc aatacgttca gtcccagcaa ggcggaaggc gatagtgcag 541 gaactgcagg gacccctggg ggaaccccag caggggacaa ggtggcttcc tgggaactcc 601 gagtggaagg aaaactgctg gatgatccta gcaaacagaa gaggaagttt tcttcattct 661 ttaagagcct cgtcattgag ctggacaagg agctgtacgg gcctgacaat cacctggtgg 721 agtggcaccg gatgcccacc acccaggaga cagatggctt ccaagtaaaa cggcctggag 781 acctcaacgt caagtgcacc ctcctgctca tgctggatca tcagcctccc cagtacaaat 841 tggacccccg attggcaagg ctgctgggag tgcacacgca gacgagggcc gccatcatgc 901 aggccctgtg gctttacatc aagcacaacc agctgcagga tgggcacgag cgggagtaca 961 tcaactgcaa ccgttacttc cgccagatct tcagttgtgg ccgactccgt ttctccgaga 1021 ttcccatgaa gctggcaggg ttgctgcagc atccagaccc cattgtcatc aaccatgtca 1081 ttagtgtcga ccctaacgac cagaagaaga cagcctgtta cgacatcgat gtggaggtgg 1141 acgacccact gaaggcccaa atgagcaatt ttctggcctc taccaccaat cagcaggaga 1201 tcgcctccct tgatgtcaag atccatgaga ccattgagtc catcaaccag ctgaagaccc 1261 agagagattt catgctcagt tttagcaccg acccccagga cttcatccag gaatggctcc 1321 gttcccagcg ccgagacctc aagatcatca ctgatgtgat tggaaatcct gaggaggaga 1381 gacgagctgc tttctaccac cagccctggg cccaggaagc agtaggcagg cacatctttg 1441 ccaaggtgca gcagcgaagg caggaactgg aacaggtgct gggaattcgc ctgacctaac 1501 tgctcaggga tctttcttcc cagccctgga gcctggaggg agaccaccct ctgggtcctt 1561 gctggggccg cagacacgta ggctggggtg aggagtgtct gctgtcaccc tctactctcc 1621 agctttagtc ttataaatgt agtgatagga ttccttgttg cttggtcccc aaagccttat 1681 actttttgca ttggctttaa ttgggttcag cagatgcctc ctctgccccc ctgcaggcag 1741 gcccaagtag gactgctgga ggctgtgctt tgacattgta agacatttcc gaaccaaagg 1801 ctgctgggtt tgcatgttta cagactcccc ctggggcgag ggtcagagct ggctctgggg 1861 agctgggcta ggaagaggag gtgcagccca gactcttcct agcctttcta aaccaaagtt 1921 ctttgccatt cctacaagcc cagccttgct gctggttttt tcctttcctt tgggtatttg 1981 cactattttg ggagcaagtt ttctatgtgg gagccacttt ttttgtacag gggtaagttg 2041 ggggttttca gggagcctgt taggtgcctc cttcttttct ttcctcaatc tatgcaagcg 2101 gctctggccg ccatcatctc ctgggatgcc agagggctgc ctctccagcg gcttgggccg 2161 gggaggggac actccagttc tctagcatgg cctgaggtat ggggtatgtg catgtggagg 2221 ccagggtaag gtgaatgggg aggctgggag gactggtgtt gccctttgga gcttggtgag 2281 gagggtgggc ctagggcttg gcgagtgcca catctggcag gtttggaaat ttccaaataa 2341 atccttttgt ctattgaaaa aaaaaaaaaa aaaa SEQ ID NO: 68 Human SMARCD2 Amino Acid Sequence Isoform 3 (NP_001317369.1) 1 mgrrvgvevt prwapqkcqg arpqrpgmsp gnrmpmaglq vgppagspfg aaaplrpgmp 61 ptmmdpfrkr llvpqaqppm paqrrglkrr kmadkvlpqr irelvpesqa ymdllaferk 121 ldqtiarkrm eigeaikkpl tqkrklriyi sntfspskae gdsagtagtp ggtpagdkva 181 swelrvegkl lddpskqkrk fssffkslvi eldkelygpd nhlvewhrmp ttqetdgfqv 241 krpgdlnvkc tlllmldhqp pqykldprla rllgvhtqtr aaimqalwly ikhnqlqdgh 301 ereyincnry frgifscgrl rfseipmkla gllqhpdpiv inhvisvdpn dqkktacydi 361 dvevddplka qmsnflastt nqqeiasldv kihetiesin qlktgrdfml sfstdpqdfi 421 gewlrsqrrd lkiitdvign peeerraafy hqpwaqeavg rhifakvqqr rqeleqvlgi 481 rlt SEQ ID NO: 69 Mouse SMARCD2 cDNA Sequence Variant 1 (NM_001130187.1, CDS: 265-1860) 1 ctccggcgat caaacctccg gaggccggga gaggcctgcg ggctcgcggc acatcccgga 61 tctggagtat ccctggcagg agcggagtca gaggggccgc gggatcctaa agccgggctg 121 caaagaactt gcgaacttgg agtagaagat cccggaaccc ggtagtaaaa tcgggaagtc 181 ccggatcgcg gaacgtagct cgcggagcgg actcaacacg gagaccggag gccggatcgc 241 tgcaccgcgg gacgggacag agtgatgtcc ggccgtggcg cgggcgggtt cccgctgcct 301 ccgctgagcc ccggcggcgg cgccgttgcc gcggcccttg gtgcgccgcc tccgcctgcg 361 ggacccggaa tgctgcccag cccggcgctc aggggcccgg ggccttctgg aggcatgggg 421 gtaccggggg ccgccgcctt ccgccccatg ggccccgctg gccccgcggc gcagtaccag 481 cgtcctggca tgtcaccagg aagcaggatg cccatggctg gcttgcaggt gggacctcct 541 gccggttccc catttggcac agctgctccg ctccgacctg gcatgccacc taccatgatg 601 gatccattcc gaaaacgcct gcttgtgcct caggcccagc ccccgatgcc tgcccagcgc 661 cgagggttaa agaggaggaa gatggcagat aaggttctac ctcagcgaat ccgggagctt 721 gtcccagagt ctcaggcata catggatctt ttagctttcg agaggaagct ggaccagacc 781 atcgctcgca agcggatgga gattcaagag gccatcaaga agcctctgac gcaaaagcga 841 aaacttcgga tctatatttc caatacattc agccccagca aggcggatgg agataatgcg 901 ggaactgcgg ggacccctgg gggaaccccg gcagcagaca aggtggcctc ctgggagctt 961 cgagtagagg ggaaactgct ggatgatcct agcaaacaga agaggaagtt ctcatcattc 1021 tttaagagcc ttgtgattga gttggacaag gaactctatg ggccggacaa ccatctggtg 1081 gagtggcatc ggatgcccac cacacaggaa acagatggct ttcaggtgaa acggccagga 1141 gatctcaatg tcaagtgcac ccttctgctc atgctggatc atcagcctcc tcagtataaa 1201 ctggaccccc gcctggcgag gttgctggga gtgcacacac agaccagggc ggcaatcatg 1261 caggcactgt ggctttacat caaacacaac cagctgcagg acggccatga gcgcgagtac 1321 atcaactgca atcgttactt ccgccagatc ttcagttgtg gccgactccg tttctccgag 1381 attcccatga agctggctgg attgctgcag catccagacc ccattgttat taatcatgtc 1441 attagtgtgg atcctaatga ccaaaagaag acagcctgct atgacattga tgtagaggtt 1501 gatgacccac tgaaggccca gatgagcaac ttcctggcct ctaccaccaa ccagcaggag 1561 attgcttctc ttgacgtcaa gatccatgag accattgagt ccatcaacca gctaaagacc 1621 cagagggatt tcatgctcag ctttagcacc gagccccagg acttcatcca ggagtggctc 1681 cgttcccaac gccgagacct caagatcatc acagatgtga ttggaaaccc tgaggaggag 1741 agacgagctg ctttctacca ccagccctgg gctcaggaag cagtggggag gcacatcttt 1801 gccaaggtgc agcagcgaag gcaggaactg gaacaggtgc tgggaattcg cctgacctaa 1861 ctgctcaggg attgcctcct tccttcctcc cctgccctgg atggaacctg gcaagagccc 1921 gtcctctggg ttctggcttg ggctgcagac atgtaggatg gagtgaggtg tgtttcctgt 1981 caccctccac tccccagctt tagtttcata aatgtagttt tagatccctc actgcttggt 2041 tcccaaagcc ttattactga ccttttagcg ctggctttaa ttgggtttgc aatgagcggc 2101 ctcagccccc tgcaggcagg caggcctgag taggaggctg gaggctgtgc tttaactttg 2161 taccagacat ttccaaacca aaggctgctg ggtttgcatg tttacaggct ccaccctagg 2221 gccagtgcca gagctggctt tggggagctg ggcaaggaag agaaggccct agactcttcc 2281 tggcctttct aaccaaagtt ttttgccatt cctacaagcc cagtcttgct gctggtttgt 2341 ccttcttttt gggtatttgc actatttggg gagcaggttt ttctatgtgg gagccacttt 2401 tttgtacaga ggtaatgggg tttttcaggg agcccacttg gtgcctcctt cttcctttct 2461 tttcttaatc tatgcaagcg gctgcagccg ccatcatctc ctggtatgcc acaaggctgc 2521 ccacccatag ctgcttgggc agggggaggt ggaatctcct gagagtggca atgccagttc 2581 tctaacccag ttacagcagg ggtgtgtgtg cgtgcgtgcg tgcgtgctgc aggggaaggg 2641 gaaagctgga ggactgctgt taccttttgc agtcggtctt aaagaggatg ggcctaaggc 2701 ttggcaaact tggaaaattc caaataaatc tttttgttta ttggtggtgc ccagaaaaaa 2761 aaaaaaa SEQ ID NO: 70 Mouse SMARCD2 Amino Acid Sequence Isoform 1 (NP_001123659.1) 1 msgrgaggfp lpplspggga vaaalgappp pagpgmlpsp alrgpgpsgg mgvpgaaafr 61 pmgpagpaaq yqrpgmspgs rmpmaglqvg ppagspfgta aplrpgmppt mmdpfrkrll 121 vpqaqppmpa qrrglkrrkm adkvlpgrir elvpesqaym dllaferkld qtiarkrmei 181 qeaikkpltq krklriyisn tfspskadgd nagtagtpgg tpaadkvasw elrvegklld 241 dpskqkrkfs sffkslviel dkelygpdnh lvewhrmptt getdgfqvkr pgdlnvkctl 301 llmldhqppq ykldprlarl lgvhtqtraa imqalwlyik hnqlqdgher eyincnryfr 361 qifscgrlrf seipmklagl lqhpdpivin hvisvdpndq kktacydidv evddplkaqm 421 snflasttnq qeiasldvki hetiesinql ktqrdfmlsf stepqdfige wlrsqrrdlk 481 iitdvignpe eerraafyhq pwaqeavgrh ifakvqqrrq eleqvlgirl t SEQ ID NO: 71 Mouse SMARCD2 cDNA Sequence Variant 2 (NM_031878.2, CDS: 40-1494) 1 tttgttcctg gtctccccat ttgagagaga gagagagaga tggagggtat gggctatgga 61 cctcggaggg ctccgccact gacctgtgtc cctccactgt tccactttcc tcagcgtcct 121 ggcatgtcac caggaagcag gatgcccatg gctggcttgc aggtgggacc tcctgccggt 181 tccccatttg gcacagctgc tccgctccga cctggcatgc cacctaccat gatggatcca 241 ttccgaaaac gcctgcttgt gcctcaggcc cagcccccga tgcctgccca gcgccgaggg 301 ttaaagagga ggaagatggc agataaggtt ctacctcagc gaatccggga gcttgtccca 361 gagtctcagg catacatgga tcttttagct ttcgagagga agctggacca gaccatcgct 421 cgcaagcgga tggagattca agaggccatc aagaagcctc tgacgcaaaa gcgaaaactt 481 cggatctata tttccaatac attcagcccc agcaaggcgg atggagataa tgcgggaact 541 gcggggaccc ctgggggaac cccggcagca gacaaggtgg cctcctggga gcttcgagta 601 gaggggaaac tgctggatga tcctagcaaa cagaagagga agttctcatc attctttaag 661 agccttgtga ttgagttgga caaggaactc tatgggccgg acaaccatct ggtggagtgg 721 catcggatgc ccaccacaca ggaaacagat ggctttcagg tgaaacggcc aggagatctc 781 aatgtcaagt gcacccttct gctcatgctg gatcatcagc ctcctcagta taaactggac 841 ccccgcctgg cgaggttgct gggagtgcac acacagacca gggcggcaat catgcaggca 901 ctgtggcttt acatcaaaca caaccagctg caggacggcc atgagcgcga gtacatcaac 961 tgcaatcgtt acttccgcca gatcttcagt tgtggccgac tccgtttctc cgagattccc 1021 atgaagctgg ctggattgct gcagcatcca gaccccattg ttattaatca tgtcattagt 1081 gtggatccta atgaccaaaa gaagacagcc tgctatgaca ttgatgtaga ggttgatgac 1141 ccactgaagg cccagatgag caacttcctg gcctctacca ccaaccagca ggagattgct 1201 tctcttgacg tcaagatcca tgagaccatt gagtccatca accagctaaa gacccagagg 1261 gatttcatgc tcagctttag caccgagccc caggacttca tccaggagtg gctccgttcc 1321 caacgccgag acctcaagat catcacagat gtgattggaa accctgagga ggagagacga 1381 gctgctttct accaccagcc ctgggctcag gaagcagtgg ggaggcacat ctttgccaag 1441 gtgcagcagc gaaggcagga actggaacag gtgctgggaa ttcgcctgac ctaactgctc 1501 agggattgcc tccttccttc ctcccctgcc ctggatggaa cctggcaaga gcccgtcctc 1561 tgggttctgg cttgggctgc agacatgtag gatggagtga ggtgtgtttc ctgtcaccct 1621 ccactcccca gctttagttt cataaatgta gttttagatc cctcactgct tggttcccaa 1681 agccttatta ctgacctttt agcgctggct ttaattgggt ttgcaatgag cggcctcagc 1741 cccctgcagg caggcaggcc tgagtaggag gctggaggct gtgctttaac tttgtaccag 1801 acatttccaa accaaaggct gctgggtttg catgtttaca ggctccaccc tagggccagt 1861 gccagagctg gctttgggga gctgggcaag gaagagaagg ccctagactc ttcctggcct 1921 ttctaaccaa agttttttgc cattcctaca agcccagtct tgctgctggt ttgtccttct 1981 ttttgggtat ttgcactatt tggggagcag gtttttctat gtgggagcca cttttttgta 2041 cagaggtaat ggggtttttc agggagccca cttggtgcct ccttcttcct ttcttttctt 2101 aatctatgca agcggctgca gccgccatca tctcctggta tgccacaagg ctgcccaccc 2161 atagctgctt gggcaggggg aggtggaatc tcctgagagt ggcaatgcca gttctctaac 2221 ccagttacag caggggtgtg tgtgcgtgcg tgcgtgcgtg ctgcagggga aggggaaagc 2281 tggaggactg ctgttacctt ttgcagtcgg tcttaaagag gatgggccta aggcttggca 2341 aacttggaaa attccaaata aatctttttg tttattggtg gtgcccagaa aaaaaaaaaa 2401 a SEQ ID NO: 72 Mouse SMARCD2 Amino Acid Sequence Isoform 2 (NP_114084.2) 1 megmgygprr appltcvppl fhfpqrpgms pgsrmpmagl qvgppagspf gtaaplrpgm 61 pptmmdpfrk rllvpqaqpp mpaqrrglkr rkmadkvlpq rirelvpesq aymdllafer 121 kldqtiarkr meiqeaikkp ltqkrklriy isntfspska dgdnagtagt pggtpaadkv 181 aswelrvegk llddpskqkr kfssffkslv ieldkelygp dnhlvewhrm pttqetdgfq 241 vkrpgdlnvk ctlllmldhq ppqykldprl arllgvhtqt raaimgalwl yikhnqlqdg 301 hereyincnr yfrqifscgr lrfseipmkl agllqhpdpi vinhvisvdp ndqkktacyd 361 idvevddplk aqmsnflast tnqqeiasld vkihetiesi nqlktqrdfm lsfstepqdf 421 iqewlrsqrr dlkiitdvig npeeerraaf yhqpwageav grhifakvqq rrgelegvlg 481 irlt SEQ ID NO: 73 Human SMARCD3 cDNA Sequence Variant 1 (NM_001003802.1, CDS: 130-1542) 1 ctggcatctt cctcccctcc tcctttccag atcctcagaa tggcccttgg tgctgcaggc 61 gcggtgggct ccgggcccag gcaccgaggg ggcactggat gactctccag gtgcaggacc 121 ctgccatcta tgactccagg tcttcagcac ccacccaccg tggtacagcg ccccgggatg 181 ccgtctggag cccggatgcc ccaccagggg gcgcccatgg gccccccggg ctccccgtac 241 atgggcagcc ccgccgtgcg acccggcctg gcccccgcgg gcatggagcc cgcccgcaag 301 cgagcagcgc ccccgcccgg gcagagccag gcacagagcc agggccagcc ggtgcccacc 361 gcccccgcgc ggagccgcag tgccaagagg aggaagatgg ctgacaaaat cctccctcaa 421 aggattcggg agctggtccc cgagtcccag gcttacatgg acctcttggc atttgagagg 481 aaactggatc aaaccatcat gcggaagcgg gtggacatcc aggaggctct gaagaggccc 541 atgaagcaaa agcggaagct gcgactctat atctccaaca cttttaaccc tgcgaagcct 601 gatgctgagg attccgacgg cagcattgcc tcctgggagc tacgggtgga ggggaagctc 661 ctggatgatc ccagcaaaca gaagcggaag ttctcttctt tcttcaagag tttggtcatc 721 gagctggaca aagatcttta tggccctgac aaccacctcg ttgagtggca tcggacaccc 781 acgacccagg agacggacgg cttccaggtg aaacggcctg gggacctgag tgtgcgctgc 841 acgctgctcc tcatgctgga ctaccagcct ccccagttca aactggatcc ccgcctagcc 901 cggctgctgg ggctgcacac acagagccgc tcagccattg tccaggccct gtggcagtat 961 gtgaagacca acaggctgca ggactcccat gacaaggaat acatcaatgg ggacaagtat 1021 ttccagcaga tttttgattg tccccggctg aagttttctg agattcccca gcgcctcaca 1081 gccctgctat tgccccctga cccaattgtc atcaaccatg tcatcagcgt ggacccttca 1141 gaccagaaga agacggcgtg ctatgacatt gacgtggagg tggaggagcc attaaagggg 1201 cagatgagca gcttcctcct atccacggcc aaccagcagg agatcagtgc tctggacagt 1261 aagatccatg agacgattga gtccataaac cagctcaaga tccagaggga cttcatgcta 1321 agcttctcca gagaccccaa aggctatgtc caagacctgc tccgctccca gagccgggac 1381 ctcaaggtga tgacagatgt agccggcaac cctgaagagg agcgccgggc tgagttctac 1441 caccagccct ggtcccagga ggccgtcagt cgctacttct actgcaagat ccagcagcgc 1501 aggcaggagc tggagcagtc gctggttgtg cgcaacacct aggagcccaa aaataagcag 1561 cacgacggaa ctttcagccg tgtcccgggc cccagcattt tgccccgggc tccagcatca 1621 ctcctctgcc accttggggt gtggggctgg attaaaagtc attcatctga caaaaaaaaa 1681 aaaaaaaaa SEQ ID NO: 74 Human SMARCD3 Amino Acid Sequence Isoform 1 (NP_001003802.1 and NP_003069.2) 1 mtpglqhppt vvqrpgmpsg armphqgapm gppgspymgs pavrpglapa gmeparkraa 61 pppggsgags qgqpvptapa rsrsakrrkm adkilpqrir elvpesqaym dllaferkld 121 qtimrkrvdi gealkrpmkg krklrlyisn tfnpakpdae dsdgsiaswe lrvegklldd 181 pskqkrkfss ffkslvield kdlygpdnhl vewhrtpttq etdgfqvkrp gdlsvrctll 241 lmldyqppqf kldprlarll glhtqsrsai vgalwqyvkt nrlqdshdke yingdkyfqq 301 ifdcprlkfs eipqrltall lppdpivinh visvdpsdqk ktacydidve veeplkgqms 361 sfllstangq eisaldskih etiesinqlk iqrdfmlsfs rdpkgyvqdl lrsgsrdlkv 421 mtdvagnpee erraefyhqp wsqeaysryf yckiqqrrge leqslvvrnt SEQ ID NO: 75 Human SMARCD3 cDNA Sequence Variant 2 (NM_003078.3, CDS: 169-1581) 1 gccgggccga gccgagcgcc gagcagggag cgggcggccg cgctccgggc cggggtcccg 61 ggggagcaga tcctcagaat ggcccttggt gctgcaggcg cggtgggctc cgggcccagg 121 caccgagggg gcactggatg actctccagg tgcaggaccc tgccatctat gactccaggt 181 cttcagcacc cacccaccgt ggtacagcgc cccgggatgc cgtctggagc ccggatgccc 241 caccaggggg cgcccatggg ccccccgggc tccccgtaca tgggcagccc cgccgtgcga 301 cccggcctgg cccccgcggg catggagccc gcccgcaagc gagcagcgcc cccgcccggg 361 cagagccagg cacagagcca gggccagccg gtgcccaccg cccccgcgcg gagccgcagt 421 gccaagagga ggaagatggc tgacaaaatc ctccctcaaa ggattcggga gctggtcccc 481 gagtcccagg cttacatgga cctcttggca tttgagagga aactggatca aaccatcatg 541 cggaagcggg tggacatcca ggaggctctg aagaggccca tgaagcaaaa gcggaagctg 601 cgactctata tctccaacac ttttaaccct gcgaagcctg atgctgagga ttccgacggc 661 agcattgcct cctgggagct acgggtggag gggaagctcc tggatgatcc cagcaaacag 721 aagcggaagt tctcttcttt cttcaagagt ttggtcatcg agctggacaa agatctttat 781 ggccctgaca accacctcgt tgagtggcat cggacaccca cgacccagga gacggacggc 841 ttccaggtga aacggcctgg ggacctgagt gtgcgctgca cgctgctcct catgctggac 901 taccagcctc cccagttcaa actggatccc cgcctagccc ggctgctggg gctgcacaca 961 cagagccgct cagccattgt ccaggccctg tggcagtatg tgaagaccaa caggctgcag 1021 gactcccatg acaaggaata catcaatggg gacaagtatt tccagcagat ttttgattgt 1081 ccccggctga agttttctga gattccccag cgcctcacag ccctgctatt gccccctgac 1141 ccaattgtca tcaaccatgt catcagcgtg gacccttcag accagaagaa gacggcgtgc 1201 tatgacattg acgtggaggt ggaggagcca ttaaaggggc agatgagcag cttcctccta 1261 tccacggcca accagcagga gatcagtgct ctggacagta agatccatga gacgattgag 1321 tccataaacc agctcaagat ccagagggac ttcatgctaa gcttctccag agaccccaaa 1381 ggctatgtcc aagacctgct ccgctcccag agccgggacc tcaaggtgat gacagatgta 1441 gccggcaacc ctgaagagga gcgccgggct gagttctacc accagccctg gtcccaggag 1501 gccgtcagtc gctacttcta ctgcaagatc cagcagcgca ggcaggagct ggagcagtcg 1561 ctggttgtgc gcaacaccta ggagcccaaa aataagcagc acgacggaac tttcagccgt 1621 gtcccgggcc ccagcatttt gccccgggct ccagcatcac tcctctgcca ccttggggtg 1681 tggggctgga ttaaaagtca ttcatctgac aaaaaaaaaa aaaaaaaa SEQ ID NO: 76 Human SMARCD3 Amino Acid Sequence Isoform 2 (NP_001317368.1) 1 mspgnrmpma glqvgppags pfgaaaplrp gmpptmmdpf rkrllvpqaq ppmpaqrrgl 61 krrkmadkvl pqrirelvpe sqaymdllaf erkldqtiar krmeigeaik kpltqkrklr 121 iyisntfsps kaegdsagta gtpggtpagd kvaswelrve gkllddpskq krkfssffks 181 lvieldkely gpdnhlvewh rmpttqetdg fqvkrpgdln vkctlllmld hqppqykldp 241 rlarllgvht qtraaimqal wlyikhnqlq dghereyinc nryfrqifsc grlrfseipm 301 klagllqhpd pivinhvisv dpndqkktac ydidvevddp lkaqmsnfla sttnqqeias 361 ldvkihetie singlktgrd fmlsfstdpq dfigewlrsq rrdlkiitdv ignpeeerra 421 afyhqpwaqe avgrhifakv qqrrgeleqv lgirlt SEQ ID NO: 77 Human SMARCD3 cDNA Sequence Variant 3 (NM_001003801.1, CDS: 102-1553) 1 agcaggactc agaggggaga gttggaggaa aaaaaaaggc agaaaaggga aagaaagagg 61 aagagagaga gagagtgaga ggagccgctg agcccacccc gatggccgcg gacgaagttg 121 ccggaggggc gcgcaaagcc acgaaaagca aactttttga gtttctggtc catggggtgc 181 gccccgggat gccgtctgga gcccggatgc cccaccaggg ggcgcccatg ggccccccgg 241 gctccccgta catgggcagc cccgccgtgc gacccggcct ggcccccgcg ggcatggagc 301 ccgcccgcaa gcgagcagcg cccccgcccg ggcagagcca ggcacagagc cagggccagc 361 cggtgcccac cgcccccgcg cggagccgca gtgccaagag gaggaagatg gctgacaaaa 421 tcctccctca aaggattcgg gagctggtcc ccgagtccca ggcttacatg gacctcttgg 481 catttgagag gaaactggat caaaccatca tgcggaagcg ggtggacatc caggaggctc 541 tgaagaggcc catgaagcaa aagcggaagc tgcgactcta tatctccaac acttttaacc 601 ctgcgaagcc tgatgctgag gattccgacg gcagcattgc ctcctgggag ctacgggtgg 661 aggggaagct cctggatgat cccagcaaac agaagcggaa gttctcttct ttcttcaaga 721 gtttggtcat cgagctggac aaagatcttt atggccctga caaccacctc gttgagtggc 781 atcggacacc cacgacccag gagacggacg gcttccaggt gaaacggcct ggggacctga 841 gtgtgcgctg cacgctgctc ctcatgctgg actaccagcc tccccagttc aaactggatc 901 cccgcctagc ccggctgctg gggctgcaca cacagagccg ctcagccatt gtccaggccc 961 tgtggcagta tgtgaagacc aacaggctgc aggactccca tgacaaggaa tacatcaatg 1021 gggacaagta tttccagcag atttttgatt gtccccggct gaagttttct gagattcccc 1081 agcgcctcac agccctgcta ttgccccctg acccaattgt catcaaccat gtcatcagcg 1141 tggacccttc agaccagaag aagacggcgt gctatgacat tgacgtggag gtggaggagc 1201 cattaaaggg gcagatgagc agcttcctcc tatccacggc caaccagcag gagatcagtg 1261 ctctggacag taagatccat gagacgattg agtccataaa ccagctcaag atccagaggg 1321 acttcatgct aagcttctcc agagacccca aaggctatgt ccaagacctg ctccgctccc 1381 agagccggga cctcaaggtg atgacagatg tagccggcaa ccctgaagag gagcgccggg 1441 ctgagttcta ccaccagccc tggtcccagg aggccgtcag tcgctacttc tactgcaaga 1501 tccagcagcg caggcaggag ctggagcagt cgctggttgt gcgcaacacc taggagccca 1561 aaaataagca gcacgacgga actttcagcc gtgtcccggg ccccagcatt ttgccccggg 1621 ctccagcatc actcctctgc caccttgggg tgtggggctg gattaaaagt cattcatctg 1681 acaaaaaaaa aaaaaaaaaa SEQ ID NO: 78 Mouse SMARCD3 cDNA Sequence (NM_025891.3, CDS: 145-1596) 1 gggccccctc cccactccgc tcgagtagaa gtgtgagaga gcccagcagg actcagaggg 61 gagagttgga ggaaaaaaaa ggcagaaaag ggaaagaaag aggaagagag agagagagtg 121 agaggagccg ctgagcccac cccgatggcc gcggacgaag ttgccggagg ggcgcgcaaa 181 gccacgaaaa gcaaactttt tgagtttctg gtccatgggg tgcgccccgg gatgccgtct 241 ggagcccgaa tgccccacca gggggcgccc atgggccccc cgggctcccc gtacatgggc 301 agccccgcgg tacgacccgg cctggccccc gcgggcatgg agcccgcccg caagcgagca 361 gcgcccccgc ccgggcagag ccaggcacag ggccagggcc agcccgtgcc caccgcccca 421 gcgcggagcc gcagtgccaa gaggaggaag atggctgaca aaatcctccc tcaaaggatt 481 cgggagctgg tacccgagtc ccaggcttac atggacctcc tagcatttga gaggaaactg 541 gatcaaacca tcatgcggaa gcgggtggac atccaggagg ccctgaagag gcccatgaag 601 caaaagcgaa agctgcgcct ttatatctcc aatactttta accctgcgaa gcctgatgcg 661 gaagactctg atggcagcat tgcctcctgg gagctgcggg tggaggggaa gctcttggat 721 gatcctagta agcagaagag gaagttttct tccttcttca agagtttggt cattgagttg 781 gacaaagacc tttatggccc agacaaccac cttgttgagt ggcaccggac acccacaacc 841 caggaaacag atgggttcca agtgaagaga ccaggggact tgagtgtgcg ctgcaccctg 901 ctcctgatgc tggactatca gcctccccag ttcaaattgg acccccgctt agcccggctg 961 ctggggttac acacacagag ccgctcagcc attgtccagg cactgtggca gtatgtgaag 1021 accaacaggc tacaggactc ccatgacaag gagtacatca atggcgacaa gtatttccag 1081 cagatttttg actgcccccg cctaaagttc tctgagattc cccagcgcct cacagccctg 1141 ctgctgcccc ctgaccccat tgtgatcaac cacgtcatca gcgtggaccc atcagaccag 1201 aagaagacag cgtgctatga catagatgtg gaggtggagg aaccgctgaa agggcagatg 1261 agtagcttcc tcctgtccac ggccaaccag caggagatca gtgctctgga cagtaagatc 1321 catgagacga ttgagtccat aaaccagctc aagatccaga gggacttcat gctaagtttc 1381 tccagagacc ccaaaggcta cgtccaagac ctgctccgct cccagagccg tgatctcaag 1441 gtgatgacag atgtggcagg gaaccccgag gaagaacgca gggctgagtt ctaccaccag 1501 ccctggtccc aggaagccgt tagccgctac ttctactgta agatccagca gcgcaggcag 1561 gagctggagc agtcgctggt cgtgcgcaac acctaggagc ccgtgaacaa gcgtcagggt 1621 ggaccagcca ctccgcccag cacaggccct gggctctgga ctccccctct cgcgctgtgc 1681 ggaaggtggg gagggctgga tggattaaag gtcacgtaac agacaaaaaa aaaaaaaaaa 1741 aaa SEQ ID NO: 79 Mouse SMARCD3 Amino Acid Sequence (NP_080167.3) 1 maadevagga rkatksklfe flvhgvrpgm psgarmphqg apmgppgspy mgspavrpgl 61 apagmepark raapppgqsq aggqggpvpt aparsrsakr rkmadkilpq rirelvpesq 121 aymdllafer kldqtimrkr vdiqealkrp mkqkrklrly isntfnpakp daedsdgsia 181 swelrvegkl lddpskqkrk fssffkslvi eldkdlygpd nhlvewhrtp ttgetdgfqv 241 krpgdlsvrc tlllmldyqp pqfkldprla rllglhtqsr saivqalwqy vktnrlqdsh 301 dkeyingdky fqqifdcprl kfseipqrlt alllppdpiv inhvisvdps dqkktacydi 361 dveveeplkg qmssfllsta nqqeisalds kihetiesin qlkiqrdfml sfsrdpkgyv 421 qdllrsqsrd lkvmtdvagn peeerraefy hqpwsqeays ryfyckiqqr rgelegslvv 481 rnt SEQ ID NO: 80 Human SMARCB1 cDNA Sequence Variant 1 (NM_003073.4, CDS: 240-1397) 1 tttgtttgag cggcggcgcg cgcgtcagcg tcaacgccag cgcctgcgca ctgagggcgg 61 cctggtcgtc gtctgcggcg gcggcggcgg ctgaggagcc cggctgaggc gccagtaccc 121 ggcccggtcc gcatttcgcc ttccggcttc ggtttccctc ggcccagcac gccccggccc 181 cgccccagcc ctcctgatcc ctcgcagccc ggctccggcc gcccgcctct gccgccgcaa 241 tgatgatgat ggcgctgagc aagaccttcg ggcagaagcc cgtgaagttc cagctggagg 301 acgacggcga gttctacatg atcggctccg aggtgggaaa ctacctccgt atgttccgag 361 gttctctgta caagagatac ccctcactct ggaggcgact agccactgtg gaagagagga 421 agaaaatagt tgcatcgtca catggtaaaa aaacaaaacc taacactaag gatcacggat 481 acacgactct agccaccagt gtgaccctgt taaaagcctc ggaagtggaa gagattctgg 541 atggcaacga tgagaagtac aaggctgtgt ccatcagcac agagcccccc acctacctca 601 gggaacagaa ggccaagagg aacagccagt gggtacccac cctgcccaac agctcccacc 661 acttagatgc cgtgccatgc tccacaacca tcaacaggaa ccgcatgggc cgagacaaga 721 agagaacctt ccccctttgc tttgatgacc atgacccagc tgtgatccat gagaacgcat 781 ctcagcccga ggtgctggtc cccatccggc tggacatgga gatcgatggg cagaagctgc 841 gagacgcctt cacctggaac atgaatgaga agttgatgac gcctgagatg ttttcagaaa 901 tcctctgtga cgatctggat ttgaacccgc tgacgtttgt gccagccatc gcctctgcca 961 tcagacagca gatcgagtcc taccccacgg acagcatcct ggaggaccag tcagaccagc 1021 gcgtcatcat caagctgaac atccatgtgg gaaacatttc cctggtggac cagtttgagt 1081 gggacatgtc agagaaggag aactcaccag agaagtttgc cctgaagctg tgctcggagc 1141 tggggttggg cggggagttt gtcaccacca tcgcatacag catccgggga cagctgagct 1201 ggcatcagaa gacctacgcc ttcagcgaga accctctgcc cacagtggag attgccatcc 1261 ggaacacggg cgatgcggac cagtggtgcc cactgctgga gactctgaca gacgctgaga 1321 tggagaagaa gatccgcgac caggacagga acacgaggcg gatgaggcgt cttgccaaca 1381 cggccccggc ctggtaacca gcccatcagc acacggctcc cacggagcat ctcagaagat 1441 tgggccgcct ctcctccatc ttctggcaag gacagaggcg aggggacagc ccagcgccat 1501 cctgaggatc gggtgggggt ggagtggggg cttccaggtg gcccttcccg gcacacattc 1561 catttgttga gccccagtcc tgccccccac cccaccctcc ctacccctcc ccagtctctg 1621 gggtcaggaa gaaaccttat tttaggttgt gttttgtttt tgtataggag ccccaggcag 1681 ggctagtaac agtttttaaa taaaaggcaa caggtcatgt tcaatttctt caacaaaaaa 1741 aaaaaaaaa SEQ ID NO: 81 Human SMARCB1 Amino Acid Sequence Isoform A (NP_003064.2) 1 mmmmalsktf gqkpvkfqle ddgefymigs evgnylrmfr gslykrypsl wrrlatveer 61 kkivasshgk ktkpntkdhg yttlatsvtl lkaseveeil dgndekykav sistepptyl 121 reqkakrnsq wvptlpnssh hldavpcstt inrnrmgrdk krtfplcfdd hdpavihena 181 sqpevlvpir ldmeidgqkl rdaftwnmne klmtpemfse ilcddldlnp ltfvpaiasa 241 irqqiesypt dsiledqsdq rviiklnihv gnislvdqfe wdmsekensp ekfalklcse 301 lglggefvtt iaysirgqls whqktyafse nplptveiai rntgdadqwc plletltdae 361 mekkirdqdr ntrrmrrlan tapaw SEQ ID NO: 82 Human SMARCB1 cDNA Sequence Variant 2 (NM_001007468.2, CDS: 240-1370) 1 tttgtttgag cggcggcgcg cgcgtcagcg tcaacgccag cgcctgcgca ctgagggcgg 61 cctggtcgtc gtctgcggcg gcggcggcgg ctgaggagcc cggctgaggc gccagtaccc 121 ggcccggtcc gcatttcgcc ttccggcttc ggtttccctc ggcccagcac gccccggccc 181 cgccccagcc ctcctgatcc ctcgcagccc ggctccggcc gcccgcctct gccgccgcaa 241 tgatgatgat ggcgctgagc aagaccttcg ggcagaagcc cgtgaagttc cagctggagg 301 acgacggcga gttctacatg atcggctccg aggtgggaaa ctacctccgt atgttccgag 361 gttctctgta caagagatac ccctcactct ggaggcgact agccactgtg gaagagagga 421 agaaaatagt tgcatcgtca catgatcacg gatacacgac tctagccacc agtgtgaccc 481 tgttaaaagc ctcggaagtg gaagagattc tggatggcaa cgatgagaag tacaaggctg 541 tgtccatcag cacagagccc cccacctacc tcagggaaca gaaggccaag aggaacagcc 601 agtgggtacc caccctgccc aacagctccc accacttaga tgccgtgcca tgctccacaa 661 ccatcaacag gaaccgcatg ggccgagaca agaagagaac cttccccctt tgctttgatg 721 accatgaccc agctgtgatc catgagaacg catctcagcc cgaggtgctg gtccccatcc 781 ggctggacat ggagatcgat gggcagaagc tgcgagacgc cttcacctgg aacatgaatg 841 agaagttgat gacgcctgag atgttttcag aaatcctctg tgacgatctg gatttgaacc 901 cgctgacgtt tgtgccagcc atcgcctctg ccatcagaca gcagatcgag tcctacccca 961 cggacagcat cctggaggac cagtcagacc agcgcgtcat catcaagctg aacatccatg 1021 tgggaaacat ttccctggtg gaccagtttg agtgggacat gtcagagaag gagaactcac 1081 cagagaagtt tgccctgaag ctgtgctcgg agctggggtt gggcggggag tttgtcacca 1141 ccatcgcata cagcatccgg ggacagctga gctggcatca gaagacctac gccttcagcg 1201 agaaccctct gcccacagtg gagattgcca tccggaacac gggcgatgcg gaccagtggt 1261 gcccactgct ggagactctg acagacgctg agatggagaa gaagatccgc gaccaggaca 1321 ggaacacgag gcggatgagg cgtcttgcca acacggcccc ggcctggtaa ccagcccatc 1381 agcacacggc tcccacggag catctcagaa gattgggccg cctctcctcc atcttctggc 1441 aaggacagag gcgaggggac agcccagcgc catcctgagg atcgggtggg ggtggagtgg 1501 gggcttccag gtggcccttc ccggcacaca ttccatttgt tgagccccag tcctgccccc 1561 caccccaccc tccctacccc tccccagtct ctggggtcag gaagaaacct tattttaggt 1621 tgtgttttgt ttttgtatag gagccccagg cagggctagt aacagttttt aaataaaagg 1681 caacaggtca tgttcaattt cttcaacaaa aaaaaaaaaa aa SEQ ID NO: 83 Human SMARCB1 Amino Acid Sequence Isoform B (NP_001007469.1) 1 mmmmalsktf gqkpvkfqle ddgefymigs evgnylrmfr gslykrypsl wrrlatveer 61 kkivasshdh gyttlatsvt llkaseveei ldgndekyka vsisteppty lreqkakrns 121 qwvptlpnss hhldavpcst tinrnrmgrd kkrtfplcfd dhdpavihen asqpevlvpi 181 rldmeidgqk lrdaftwnmn eklmtpemfs eilcddldln pltfvpaias airqqiesyp 241 tdsiledqsd qrviiklnih vgnislvdqf ewdmsekens pekfalklcs elglggefvt 301 tiaysirgql swhqktyafs enplptveia irntgdadqw cplletltda emekkirdqd 361 rntrrmrrla ntapaw SEQ ID NO: 84 Human SMARCB1 cDNA Sequence Variant 3 (NM_001317946.1, CDS: 240-1424) 1 tttgtttgag cggcggcgcg cgcgtcagcg tcaacgccag cgcctgcgca ctgagggcgg 61 cctggtcgtc gtctgcggcg gcggcggcgg ctgaggagcc cggctgaggc gccagtaccc 121 ggcccggtcc gcatttcgcc ttccggcttc ggtttccctc ggcccagcac gccccggccc 181 cgccccagcc ctcctgatcc ctcgcagccc ggctccggcc gcccgcctct gccgccgcaa 241 tgatgatgat ggcgctgagc aagaccttcg ggcagaagcc cgtgaagttc cagctggagg 301 acgacggcga gttctacatg atcggctccg aggtgggaaa ctacctccgt atgttccgag 361 gttctctgta caagagatac ccctcactct ggaggcgact agccactgtg gaagagagga 421 agaaaatagt tgcatcgtca catgatcacg gatacacgac tctagccacc agtgtgaccc 481 tgttaaaagc ctcggaagtg gaagagattc tggatggcaa cgatgagaag tacaaggctg 541 tgtccatcag cacagagccc cccacctacc tcagggaaca gaaggccaag aggaacagcc 601 agtgggtacc caccctgccc aacagctccc accacttaga tgccgtgcca tgctccacaa 661 ccatcaacag gaaccgcatg ggccgagaca agaagagaac cttccccctt tggtgtggat 721 gcatcgctgc actcaccctc cgtgctgatt ccgccttagt tctccacttt gatgaccatg 781 acccagctgt gatccatgag aacgcatctc agcccgaggt gctggtcccc atccggctgg 841 acatggagat cgatgggcag aagctgcgag acgccttcac ctggaacatg aatgagaagt 901 tgatgacgcc tgagatgttt tcagaaatcc tctgtgacga tctggatttg aacccgctga 961 cgtttgtgcc agccatcgcc tctgccatca gacagcagat cgagtcctac cccacggaca 1021 gcatcctgga ggaccagtca gaccagcgcg tcatcatcaa gctgaacatc catgtgggaa 1081 acatttccct ggtggaccag tttgagtggg acatgtcaga gaaggagaac tcaccagaga 1141 agtttgccct gaagctgtgc tcggagctgg ggttgggcgg ggagtttgtc accaccatcg 1201 catacagcat ccggggacag ctgagctggc atcagaagac ctacgccttc agcgagaacc 1261 ctctgcccac agtggagatt gccatccgga acacgggcga tgcggaccag tggtgcccac 1321 tgctggagac tctgacagac gctgagatgg agaagaagat ccgcgaccag gacaggaaca 1381 cgaggcggat gaggcgtctt gccaacacgg ccccggcctg gtaaccagcc catcagcaca 1441 cggctcccac ggagcatctc agaagattgg gccgcctctc ctccatcttc tggcaaggac 1501 agaggcgagg ggacagccca gcgccatcct gaggatcggg tgggggtgga gtgggggctt 1561 ccaggtggcc cttcccggca cacattccat ttgttgagcc ccagtcctgc cccccacccc 1621 accctcccta cccctcccca gtctctgggg tcaggaagaa accttatttt aggttgtgtt 1681 ttgtttttgt ataggagccc caggcagggc tagtaacagt ttttaaataa aaggcaacag 1741 gtcatgttca atttcttcaa caaaaaaaaa aaaaaa SEQ ID NO: 85 Human SMARCB1 Amino Acid Sequence Isoform C (NP_001304875.1) 1 mmmmalsktf gqkpvkfqle ddgefymigs evgnylrmfr gslykrypsl wrrlatveer 61 kkivasshdh gyttlatsvt llkaseveei ldgndekyka vsisteppty lreqkakrns 121 qwvptlpnss hhldavpcst tinrnrmgrd kkrtfplwcg ciaaltlrad salvlhfddh 181 dpavihenas qpevlvpirl dmeidgqklr daftwnmnek lmtpemfsei lcddldlnpl 241 tfvpaiasai rqqiesyptd siledqsdqr viiklnihvg nislvdqfew dmsekenspe 301 kfalklcsel glggefvtti aysirgqlsw hqktyafsen plptveiair ntgdadqwcp 361 lletltdaem ekkirdqdrn trrmrrlant apaw SEQ ID NO: 86 Human SMARCB1 cDNA Sequence Variant 4 (NM_001362877.1, CDS: 240-1451) 1 tttgtttgag cggcggcgcg cgcgtcagcg tcaacgccag cgcctgcgca ctgagggcgg 61 cctggtcgtc gtctgcggcg gcggcggcgg ctgaggagcc cggctgaggc gccagtaccc 121 ggcccggtcc gcatttcgcc ttccggcttc ggtttccctc ggcccagcac gccccggccc 181 cgccccagcc ctcctgatcc ctcgcagccc ggctccggcc gcccgcctct gccgccgcaa 241 tgatgatgat ggcgctgagc aagaccttcg ggcagaagcc cgtgaagttc cagctggagg 301 acgacggcga gttctacatg atcggctccg aggtgggaaa ctacctccgt atgttccgag 361 gttctctgta caagagatac ccctcactct ggaggcgact agccactgtg gaagagagga 421 agaaaatagt tgcatcgtca catggtaaaa aaacaaaacc taacactaag gatcacggat 481 acacgactct agccaccagt gtgaccctgt taaaagcctc ggaagtggaa gagattctgg 541 atggcaacga tgagaagtac aaggctgtgt ccatcagcac agagcccccc acctacctca 601 gggaacagaa ggccaagagg aacagccagt gggtacccac cctgcccaac agctcccacc 661 acttagatgc cgtgccatgc tccacaacca tcaacaggaa ccgcatgggc cgagacaaga 721 agagaacctt ccccctttgg tgtggatgca tcgctgcact caccctccgt gctgattccg 781 ccttagttct ccactttgat gaccatgacc cagctgtgat ccatgagaac gcatctcagc 841 ccgaggtgct ggtccccatc cggctggaca tggagatcga tgggcagaag ctgcgagacg 901 ccttcacctg gaacatgaat gagaagttga tgacgcctga gatgttttca gaaatcctct 961 gtgacgatct ggatttgaac ccgctgacgt ttgtgccagc catcgcctct gccatcagac 1021 agcagatcga gtcctacccc acggacagca tcctggagga ccagtcagac cagcgcgtca 1081 tcatcaagct gaacatccat gtgggaaaca tttccctggt ggaccagttt gagtgggaca 1141 tgtcagagaa ggagaactca ccagagaagt ttgccctgaa gctgtgctcg gagctggggt 1201 tgggcgggga gtttgtcacc accatcgcat acagcatccg gggacagctg agctggcatc 1261 agaagaccta cgccttcagc gagaaccctc tgcccacagt ggagattgcc atccggaaca 1321 cgggcgatgc ggaccagtgg tgcccactgc tggagactct gacagacgct gagatggaga 1381 agaagatccg cgaccaggac aggaacacga ggcggatgag gcgtcttgcc aacacggccc 1441 cggcctggta accagcccat cagcacacgg ctcccacgga gcatctcaga agattgggcc 1501 gcctctcctc catcttctgg caaggacaga ggcgagggga cagcccagcg ccatcctgag 1561 gatcgggtgg gggtggagtg ggggcttcca ggtggccctt cccggcacac attccatttg 1621 ttgagcccca gtcctgcccc ccaccccacc ctccctaccc ctccccagtc tctggggtca 1681 ggaagaaacc ttattttagg ttgtgttttg tttttgtata ggagccccag gcagggctag 1741 taacagtttt taaataaaag gcaacaggtc atgttcaatt tcttcaacaa aaaaaaaaaa 1801 aaa SEQ ID NO: 87 Human SMARCB1 Amino Acid Sequence Isoform D (NP_001349806.1) 1 mmmmalsktf gqkpvkfqle ddgefymigs evgnylrmfr gslykrypsl wrrlatveer 61 kkivasshgk ktkpntkdhg yttlatsvtl lkaseveeil dgndekykav sistepptyl 121 reqkakrnsq wvptlpnssh hldavpcstt inrnrmgrdk krtfplwcgc iaaltlrads 181 alvlhfddhd pavihenasq pevlvpirld meidgqklrd aftwnmnekl mtpemfseil 241 cddldlnplt fvpaiasair qqiesyptds iledqsdqry iiklnihvgn islvdqfewd 301 msekenspek falklcselg lggefvttia ysirgqlswh qktyafsenp lptveiairn 361 tgdadqwcpl letltdaeme kkirdqdrnt rrmrrlanta paw SEQ ID NO: 88 Mouse SMARCB1 cDNA Sequence Variant 1 (NM_011418.2, CDS: 220-1377) 1 gtcagcttct ccacgcatgc gcaccgaggg cggcctgctc gttgcagaga cggccaagga 61 gcccagtagt gacacgagcg ctcgcccggt tcgcccggct tgccctgccc gaccttcacc 121 tccaggcctc cgttcctttc ggtccgacgc gcctcggccc cgccctagcc caccggattc 181 tttccagctc gaccccggct gccggtttcc cccgccgcca tgatgatgat ggcgttgagc 241 aagaccttcg ggcagaagcc cgtcaagttt cagctggagg acgacgggga gttctacatg 301 atcggctccg aggtgggaaa ctacctgcgt atgttccgag gttctctgta caagagatac 361 ccctcactct ggcggcgact agccactgtg gaagaaagga agaaaatagt ggcatcgtca 421 catggtaaaa aaacaaaacc taacactaag gatcatggat ataccaccct ggccaccagc 481 gtgacactcc tgaaagcctc agaggtagaa gagatcctgg atggcaatga cgagaagtac 541 aaggctgtgt ccatcagcac agagcccccg acctacctca gggagcagaa ggccaagagg 601 aacagccagt gggtccccac cctgcccaac agctcccacc acctggatgc tgtgccctgt 661 tccaccacca tcaacaggaa ccgcatgggt cgggacaaga agagaacctt ccccttgtgc 721 tttgatgacc acgacccagc tgtgatccat gagaatgcgt cacagcctga ggtgctggtg 781 cccatccggc tcgacatgga gatcgacggg cagaagctgc gagacgcttt tacctggaac 841 atgaatgaga agctaatgac tcctgagatg ttttcagaaa tactttgtga tgacctggat 901 ttgaatccac tgacttttgt gccagctatt gcctctgcca ttcgacagca gattgagtcc 961 taccccacag acagcatcct agaggatcaa tccgaccagc gtgtcatcat caagctgaac 1021 atccacgtgg ggaacatctc cctggtggac cagtttgagt gggacatgtc agagaaagag 1081 aactccccag agaagtttgc cctgaagctg tgctcagagc tgggcttggg cggggagttt 1141 gtcaccacca ttgcatacag catccgagga cagctgagct ggcaccagaa gacctatgcc 1201 ttcagtgaga acccacttcc cacagtggag attgccatcc gaaataccgg agatgctgac 1261 cagtggtgcc ccctgctgga gacactgact gatgccgaga tggagaaaaa gatccgggat 1321 caagatagga acacaaggcg aatgaggcgt cttgccaaca ctgccccagc ctggtgatga 1381 agacatccat gctcgacctc tacggagcat ctcagactgc ctttccttcc tctgtggaaa 1441 gagaaaggca aagggacagc tggtgccatc ctgaggactg gggtaggagc ctcctaggtg 1501 cctcccttca gcacacattc catttgctaa accccaacac tgtcccccag agtctagagt 1561 cggaagcagc ctcattttgg gttgtgtttt gtttttgtat aggagcccag gcagggctgg 1621 taacactttt taaataaaaa gtaccatgtt caatttcaaa aaaaaaaaaa aaaa SEQ ID NO: 89 Mouse SMARCB1 Amino Acid Sequence Isoform 1 (NP_035548.1) 1 mmmmalsktf gqkpvkfqle ddgefymigs evgnylrmfr gslykrypsl wrrlatveer 61 kkivasshgk ktkpntkdhg yttlatsvtl lkaseveeil dgndekykav sistepptyl 121 reqkakrnsq wvptlpnssh hldavpcstt inrnrmgrdk krtfplcfdd hdpavihena 181 sqpevlvpir ldmeidgqkl rdaftwnmne klmtpemfse ilcddldlnp ltfvpaiasa 241 irqqiesypt dsiledqsdq rviiklnihv gnislvdqfe wdmsekensp ekfalklcse 301 lglggefvtt iaysirgqls whqktyafse nplptveiai rntgdadqwc plletltdae 361 mekkirdqdr ntrrmrrlan tapaw SEQ ID NO: 90 Mouse SMARCB1 cDNA Sequence Variant 2 (NM_001161853.1, CDS: 220-1350) 1 gtcagcttct ccacgcatgc gcaccgaggg cggcctgctc gttgcagaga cggccaagga 61 gcccagtagt gacacgagcg ctcgcccggt tcgcccggct tgccctgccc gaccttcacc 121 tccaggcctc cgttcctttc ggtccgacgc gcctcggccc cgccctagcc caccggattc 181 tttccagctc gaccccggct gccggtttcc cccgccgcca tgatgatgat ggcgttgagc 241 aagaccttcg ggcagaagcc cgtcaagttt cagctggagg acgacgggga gttctacatg 301 atcggctccg aggtgggaaa ctacctgcgt atgttccgag gttctctgta caagagatac 361 ccctcactct ggcggcgact agccactgtg gaagaaagga agaaaatagt ggcatcgtca 421 catgatcatg gatataccac cctggccacc agcgtgacac tcctgaaagc ctcagaggta 481 gaagagatcc tggatggcaa tgacgagaag tacaaggctg tgtccatcag cacagagccc 541 ccgacctacc tcagggagca gaaggccaag aggaacagcc agtgggtccc caccctgccc 601 aacagctccc accacctgga tgctgtgccc tgttccacca ccatcaacag gaaccgcatg 661 ggtcgggaca agaagagaac cttccccttg tgctttgatg accacgaccc agctgtgatc 721 catgagaatg cgtcacagcc tgaggtgctg gtgcccatcc ggctcgacat ggagatcgac 781 gggcagaagc tgcgagacgc ttttacctgg aacatgaatg agaagctaat gactcctgag 841 atgttttcag aaatactttg tgatgacctg gatttgaatc cactgacttt tgtgccagct 901 attgcctctg ccattcgaca gcagattgag tcctacccca cagacagcat cctagaggat 961 caatccgacc agcgtgtcat catcaagctg aacatccacg tggggaacat ctccctggtg 1021 gaccagtttg agtgggacat gtcagagaaa gagaactccc cagagaagtt tgccctgaag 1081 ctgtgctcag agctgggctt gggcggggag tttgtcacca ccattgcata cagcatccga 1141 ggacagctga gctggcacca gaagacctat gccttcagtg agaacccact tcccacagtg 1201 gagattgcca tccgaaatac cggagatgct gaccagtggt gccccctgct ggagacactg 1261 actgatgccg agatggagaa aaagatccgg gatcaagata ggaacacaag gcgaatgagg 1321 cgtcttgcca acactgcccc agcctggtga tgaagacatc catgctcgac ctctacggag 1381 catctcagac tgcctttcct tcctctgtgg aaagagaaag gcaaagggac agctggtgcc 1441 atcctgagga ctggggtagg agcctcctag gtgcctccct tcagcacaca ttccatttgc 1501 taaaccccaa cactgtcccc cagagtctag agtcggaagc agcctcattt tgggttgtgt 1561 tttgtttttg tataggagcc caggcagggc tggtaacact ttttaaataa aaagtaccat 1621 gttcaatttc aaaaaaaaaa aaaaaaa SEQ ID NO: 91 Mouse SMARCB1 Amino Acid Sequence Isoform 2 (NP_001155325.1) 1 mmmmalsktf gqkpvkfqle ddgefymigs evgnylrmfr gslykrypsl wrrlatveer 61 kkivasshdh gyttlatsvt llkaseveei ldgndekyka vsisteppty lreqkakrns 121 qwvptlpnss hhldavpcst tinrnrmgrd kkrtfplcfd dhdpavihen asqpevlvpi 181 rldmeidgqk lrdaftwnmn eklmtpemfs eilcddldln pltfvpaias airqqiesyp 241 tdsiledqsd qrviiklnih vgnislvdqf ewdmsekens pekfalklcs elglggefvt 301 tiaysirgql swhqktyafs enplptveia irntgdadqw cplletltda emekkirdqd 361 rntrrmrrla ntapaw SEQ ID NO: 92 human SMARCE1 cDNA Sequence (NM_003079.4, CDS: 125-1360) 1 gctccggacg cgaggggcgg ggcgagcgcg ggacaaaggg aagcgaagcc ggagctgcgg 61 gcgctttttc tgcccgcggt gtctcagatt cattcttaag gaactgagaa cttaatcttc 121 caaaatgtca aaaagaccat cttatgcccc acctcccacc ccagctcctg caacacaaat 181 gcccagcaca ccagggtttg tgggatacaa tccatacagt catctcgcct acaacaacta 241 caggctggga gggaacccgg gcaccaacag ccgggtcacg gcatcctctg gtatcacgat 301 tccaaaaccc ccaaagccac cagataagcc gctgatgccc tacatgaggt acagcagaaa 361 ggtctgggac caagtaaagg cttccaaccc tgacctaaag ttgtgggaga ttggcaagat 421 tattggtggc atgtggcgag atctcactga tgaagaaaaa caagaatatt taaacgaata 481 cgaagcagaa aagatagagt acaatgaatc tatgaaggcc tatcataatt cccccgcgta 541 ccttgcttac ataaatgcaa aaagtcgtgc agaagctgct ttagaggaag aaagtcgaca 601 gagacaatct cgcatggaga aaggagaacc gtacatgagc attcagcctg ctgaagatcc 661 agatgattat gatgatggct tttcaatgaa gcatacagcc accgcccgtt tccagagaaa 721 ccaccgcctc atcagtgaaa ttcttagtga gagtgtggtg ccagacgttc ggtcagttgt 781 cacaacagct agaatgcagg tcctcaaacg gcaggtccag tccttaatgg ttcatcagcg 841 aaaactagaa gctgaacttc ttcaaataga ggaacgacac caggagaaga agaggaaatt 901 cctggaaagc acagattcat ttaacaatga acttaaaagg ttgtgcggtc tgaaagtaga 961 agtggatatg gagaaaattg cagctgagat tgcacaggca gaggaacagg cccgcaaaag 1021 gcaggaggaa agggagaagg aggccgcaga gcaagctgag cgcagtcaga gcagcatcgt 1081 tcctgaggaa gaacaagcag ctaacaaagg cgaggagaag aaagacgacg agaacattcc 1141 gatggagaca gaggagacac accttgaaga aacaacagag agccaacaga atggtgaaga 1201 aggcacgtct actcctgagg acaaggagag tgggcaggag ggggtcgaca gtatggcaga 1261 ggaaggaacc agtgatagta acactggctc ggagagcaac agtgcaacag tggaggagcc 1321 accaacagat cccataccag aagatgagaa aaaagaataa gtgttgcctt gttttgtgtg 1381 ttctaaatac tttttttaat gaaaaaatgt tttttggttt taatggtgtt acgtggtttg 1441 tgtattaatt ttttttcttg tccatatcac accaccaaag gcttttggac catttagcat 1501 catgagccta atggctcagt cagtcacctt tcttaagtgt tgtgaagatg gctcttttct 1561 ttggatcttg tttctagccc tcaactgctg aaagcctcag aatttagatt aattgagaaa 1621 acacccacct cttttagaga attatccttt gatgctgcag aatctactct tacaatgcct 1681 tcctacagct cactggggtg cttaccaaag ccatagcttt aaaccttccc agtccccatc 1741 agtagcttcc tgaaagtctc ctctcttgtt tacttctgca aagggtagct tcttaaaaac 1801 gtgatcatgt atgagtatgt atttgttcac ttaccctttt ttacttttaa tcaatgtcag 1861 ataccaagag ttgtgttaag ctgagtgtag tgtgtaacta actacacttg gatcttactg 1921 atccagaaat agtccccata gttagagtag ttacttatga agtggttatt aaagtgaaca 1981 cagcacatat acattatcta tactgctttt tgttatgatt aatactgggt atgttctggt 2041 aaatccatcc ttattgtata gaaaaaaaat tactttttta ccaggttttc caaagacaga 2101 atagatcaca aagctcaagg aatttaatat tcttgtaatg gactagataa ttcaaactga 2161 ttagcccatt ccagaagaaa aacagctggg aattaagtta atccacttga aattgtttta 2221 caataatcag aacatccaaa cctcaaggct caggatccca tagaccagag cccacctttt 2281 tgataaactt agtaaagtct tggagactag aagcaagata gtttgtgaca cataagcttc 2341 ccaaaaacta gaatagattt ttactgaata gtggtatatc tgatggtata tgtttcttaa 2401 aggtccaaat gtaataaaaa aaaaa SEQ ID NO: 93 human SMARCE1 Amino Acid Sequence (NP_003070.3) 1 mskrpsyapp ptpapatqmp stpgfvgynp yshlaynnyr lggnpgtnsr vtassgitip 61 kppkppdkpl mpymrysrkv wdqvkasnpd lklweigkii ggmwrdltde ekqeylneye 121 aekieynesm kayhnspayl ayinaksrae aaleeesrqr qsrmekgepy msiqpaedpd 181 dyddgfsmkh tatarfqrnh rliseilses vvpdvrsvvt tarmqvlkrq vqslmvhqrk 241 leaellqiee rhqekkrkfl estdsfnnel krlcglkvev dmekiaaeia qaeegarkrq 301 eerekeaaeq aersqssivp eeeqaankge ekkddenipm eteethleet tesqqngeeg 361 tstpedkesg qegvdsmaee gtsdsntgse snsatveepp tdpipedekk e SEQ ID NO: 94 Mouse SMARCE1 cDNA Sequence (NM_020618.4, CDS: 662-1897) 1 ggcggaggca ggggagcccc gctgggcgcc agcaaggacc taaacgcagc gacccgggtc 61 ctccccgcct acattctcca tcttctccat tcatacgtcc atcagcggag gactgaagac 121 cagagcgaag ggaaaagcca gagtgcatgg tgtgtgggaa ctgcgtccca ccctctcccg 181 ggagaggctc cggcgagcct ttcccctccg gcgcccgcct cacgcggcgg cgcccaccgc 241 ctcagtgaag ccccgggcgc gcagtctgcg cagttcctgc cgccgggccg cgaaccaggg 301 cccgcaacgc ggcccagcct tctccgccct cctcgccgtg acgaatcggc gcccgactgg 361 gacgggatcc aaattggaag acttctgagg aaacccagga gcctgacgaa atttttttta 421 aaaatccttg gcgccctaag cctcgccgcg tgctcactgg aagggctgtt cgtctgccgg 481 gagccggccg cggccggcag acaattcccg ggagcgtgtg gaaagtgcga gcgcggaagc 541 tccggcgcga ggggcggggc gagcgcggga caaagggaag cgaagccgga gctgcgggcg 601 cctgctcggc ccgcggtgtc tcagattcat tcttaaggaa ctgagaactt aatcttccaa 661 aatgtcaaaa agaccatctt atgccccacc tcccacccca gctcctgcaa cacaaatgcc 721 cagcacacca gggtttgtgg gatacaatcc atacagtcat ctcgcctaca acaactacag 781 gctgggaggg aacccgggca ccaacagccg ggtcacggcg tcctctggca ttacgattcc 841 aaagcctcca aagccaccag ataagccgct gatgccctac atgaggtaca gcagaaaggt 901 ctgggaccaa gtaaaggctt ccaaccctga cctaaagttg tgggagattg gcaagattat 961 tggtggcatg tggcgagatc tcactgatga agagaagcaa gaatatttaa acgaatacga 1021 agcagaaaag atagagtaca atgagtctat gaaggcctac cataattccc ctgcgtacct 1081 tgcctatatt aatgcaaaaa gtcgtgcgga agctgcatta gaggaagaaa gtcgacagag 1141 acagtctcgc atggagaaag gagaacctta catgagcatt cagcctgctg aggatccaga 1201 cgactatgat gatggctttt caatgaagca cacagccact gcccgtttcc agagaaacca 1261 ccgtctcatc agtgagatcc tcagtgagag tgtggtacct gatgtgcggt cggttgtcac 1321 aacagctaga atgcaggtcc tcaagcgaca ggtccagtct ttaatggttc atcagcggaa 1381 actagaagcc gagctccttc agatagagga acgacaccag gaaaagaaga ggaaattcct 1441 ggaaagcacg gactccttta acaatgaact taaaaggtta tgtggtctga aggtggaagt 1501 agacatggag aagattgcgg ctgagatcgc acaggcggag gaacaagccc gcaagaggca 1561 agaggagagg gagaaggagg cagcagagca ggctgagcgc agtcagagca gcatggcccc 1621 tgaggaagag caagtggcga acaaagccga ggagaagaaa gatgaggaga gcatcccgat 1681 ggagacagag gagacacacc ttgaagacac agcagagagc cagcagaatg gtgaagaagg 1741 cacgtctact cctgaggaca aggagagtgg gcaggagggg gttgacagca tggaggtgga 1801 agggaccagt gacagtaaca cgggctcaga gagcaacagc gccacagtgg aggagccgcc 1861 cacagaccca gtgccagaag acgagaagaa ggagtaaatg ttgccttgtt ttatgtgacc 1921 taaaactttt ttaaatgaaa aaaaaatgtg gttttttttt tggttttaat ggtgttatgt 1981 ggtctgtgta ttaattattt acttttccgt tgatacaaca tgaaggtctt tgaaccctca 2041 gcatcatagc ctaatgccag ccgctcacct ttcttagctc tcaacgtctg aaacctcaga 2101 gctgagatta atcaagacac ccatcattct ctgagaacta ccttggctgc tgcagaatcg 2161 actcttccaa atacctgcct tcagctcacg tggtgctcac caaagccata gctttaaacc 2221 cttccagccc atccacagct ttcccagtcc ctgtcttgtg tacttacaca gagtgccctc 2281 ttgaaatcat gagggggtct cttcactcac cctttctatg tcccatgtca gacaccagga 2341 gttctcttac agggtagggt gtagccagaa actggtgaga cacagatcac agagatgcct 2401 ctgggggcac tgggggtggg ggagcagggg gagtacagtt gttctttctg tggattcctt 2461 gttggtgaga gctgcgcctg cttatctaga gtgctgttca gtgtagtcga tctgggatgt 2521 gttctgggaa attcatcctt tttgtacagg ggaaagaaac actttttttt accagattgg 2581 ctttccaaag acacgataga tggcagagct taaggaatgg aatgttctta taatggacta 2641 cagacttcaa agtgattggc ccattccaaa aggaaaatgg gaatgctgtt catccatgtg 2701 agcatacttc acagtgatga aaacctcaag actcgagatc ccatagatca gagccgaacc 2761 tacttttttg ataacccctg tagtggtctt agagactaga aacaagatag tttgtagtgt 2821 gtgctcccta aaatctagaa tagattttta ctgaatagtg gtatatatga tggtatatgt 2881 ttcttaaagg tccaaacata ataaagaaat taagacaaaa aaaaaaaaaa aaaaaaaaaa 2941 aaaaaaaaaa aaaaaaaaaa a SEQ ID NO: 95 Mouse SMARCE1 Amino Acid Sequence (NP_065643.1) 1 mskrpsyapp ptpapatqmp stpgfvgynp yshlaynnyr lggnpgtnsr vtassgitip 61 kppkppdkpl mpymrysrkv wdqvkasnpd lklweigkii ggmwrdltde ekqeylneye 121 aekieynesm kayhnspayl ayinaksrae aaleeesrqr gsrmekgepy msiqpaedpd 181 dyddgfsmkh tatarfqrnh rliseilses vvpdvrsvvt tarmqvlkrq vqslmvhqrk 241 leaellqiee rhqekkrkfl estdsfnnel krlcglkvev dmekiaaeia qaeeqarkrq 301 eerekeaaeq aersqssmap eeeqvankae ekkdeesipm eteethledt aesqqngeeg 361 tstpedkesg qegvdsmeve gtsdsntgse snsatveepp tdpvpedekk e SEQ ID NO: 96 Human DPF1 cDNA Sequence Variant 1 (NM_001135155.2, CDS: 28-1272) 1 gtgctcccgc cccccgggaa tgaatggatg ggcggcctca gcgcccgccc gaccgctggg 61 aggaccgacc cggcggggac ctgctggggg caggacccgg ggagcaagat ggccactgtc 121 atccctggcc ccctgagcct aggcgaggac ttctaccgcg aggccatcga gcactgccgc 181 agttacaacg cgcgcctgtg cgccgagcgc agcctgcgac tgcccttcct cgactcgcag 241 accggcgtgg cccagaacaa ctgctacatc tggatggaga agacccaccg cgggccgggt 301 ttggccccgg gacagattta cacgtacccc gcccgctgtt ggaggaagaa acggagactc 361 aacatcctgg aggaccccag actcaggccc tgcgagtaca agatcgactg tgaagcaccc 421 ctgaagaagg agggtggcct cccggaaggg ccggtcctcg aggctctact gtgtgcagag 481 acgggggaga agaagattga gctgaaggag gaggagacca ttatggactg tcagaaacag 541 cagttgctgg agtttccgca tgacctcgag gtggaagact tggaggatga cattcccagg 601 aggaagaaca gggccaaagg aaaggcatat ggcatcgggg gtctccggaa acgccaggac 661 accgcttccc tggaggaccg agacaagccg tatgtctgtg atatctgtgg gaaacggtat 721 aagaaccggc cggggctcag ctaccactac acccacaccc acctggccga ggaggagggg 781 gaggagaacg ccgaacgcca cgccctgccc ttccaccgga aaaacaacca taaacagttt 841 tacaaagaat tggcctgggt ccctgaggca caaaggaaac acacagccaa gaaggcgccc 901 gacggcactg tcatccccaa cggctactgt gacttctgcc tggggggctc caagaagacg 961 gggtgtcccg aggacctcat ctcctgtgcg gactgtgggc gatcaggaca cccctcgtgt 1021 ttacaattca cggtgaacat gacggcagcc gtgcggacct accgctggca gtgcatcgag 1081 tgcaaatcct gcagcctgtg cggaacctcc gagaacgacg accagctgct gttttgtgat 1141 gactgcgatc ggggttacca catgtactgc ctgagtcccc ccatggcgga gcccccggaa 1201 gggagctgga gctgtcacct ctgtctccgg cacctgaagg aaaaggcttc tgcttacatc 1261 accctcacct aggccggctc ggctcgccgc gactctgggg tggtgctcgc ctacctgcct 1321 ctccgagctc ctcaattctc ccccaccctg aacatcccgc agggggaggg ggagaggggg 1381 aagccgagag ggggctgggc caccccctcc cctctgtgca agtggaatgt ctgccctgtg 1441 ggtgggtggg cccggccagg gcctctccct ccctccctcc ctctctgtcc cttggcaaat 1501 ggacaccagg ggcttctccc ctcaaagcca taccccgcct ctgggcgggc atggggggtg 1561 gtgggtgcca gccaggggca tggacagagc ctttttctaa agaaaaagac aaaaagttaa 1621 aaaaaaaaaa aagaagaaaa gaaaagaagt taatatatac aaagagtcct ccaaggcctg 1681 gctgggtgga ggggcgctgc tgagagtgtc caccgggcac ccgcctctgc cggccccccg 1741 ccgggcgccc caaccccaat ttctggagct gcagccgtcc cgcgccccac ccaaggtggg 1801 cgccttcccc tcttgtgccc agggcggtgg gcgtggtgtc cacccgcccc tcctggtgcc 1861 cacggtggat actgcatgat gtgaaccttg gttttgaact ctgttcctgc ccctccccga 1921 ccgccccagc ctgtgcccgc cccgtgcctg ccgtggctgg tgggtggcgg tggtggggcc 1981 gggtgggccc ccgcccagcg cctgctggaa tgagaagcac agactccgcc acggactcct 2041 tttctctccc tcctcccgcc ccgccaggcc tggcggcccc cgcccccctc gctggccatt 2101 ttgggggagt gagggggcgt ggttgtttct tgtggttgtg tgtgtttgtt gttcgggttt 2161 taaaaaaggg aaactgagac tgcaggtggg ggaggtggtg ggttttgggg ggatgtcccc 2221 taatccagga gtgccccctc acttgtcacc gagtctcctc tattgcctgc ctctgctgtg 2281 aattaacttg ttctgtgtat taaactgggc ctgacccctc tgcccacgaa aaaaaaaaaa 2341 aaaaaaaa SEQ ID NO: 97 Human DPF1 Amino Acid Sequence Isoform A (NP_001128627.1) 1 mgglsarpta grtdpagtcw gqdpgskmat vipgplslge dfyreaiehc rsynarlcae 61 rslrlpflds qtgvaqnncy iwmekthrgp glapgqiyty parcwrkkrr lniledprlr 121 pceykidcea plkkegglpe gpvleallca etgekkielk eeetimdcqk qqllefphdl 181 evedleddip rrknrakgka ygigglrkrq dtasledrdk pyvcdicgkr yknrpglsyh 241 yththlaeee geenaerhal pfhrknnhkq fykelawvpe aqrkhtakka pdgtvipngy 301 cdfclggskk tgcpedlisc adcgrsghps clqftvnmta avrtyrwqci eckscslcgt 361 senddqllfc ddcdrgyhmy clsppmaepp egswschlcl rhlkekasay itlt SEQ ID NO: 98 Human DPF1 cDNA Sequence Variant 2 (NM_004647.3, CDS: 28-1170) 1 gtgctcccgc cccccgggaa tgaatggatg ggcggcctca gcgcccgccc gaccgctggg 61 aggaccgacc cggcggggac ctgctggggg caggacccgg ggagcaagat ggccactgtc 121 atccctggcc ccctgagcct aggcgaggac ttctaccgcg aggccatcga gcactgccgc 181 agttacaacg cgcgcctgtg cgccgagcgc agcctgcgac tgcccttcct cgactcgcag 241 accggcgtgg cccagaacaa ctgctacatc tggatggaga agacccaccg cgggccgggt 301 ttggccccgg gacagattta cacgtacccc gcccgctgtt ggaggaagaa acggagactc 361 aacatcctgg aggaccccag actcaggccc tgcgagtaca agatcgactg tgaagcaccc 421 ctgaagaagg agggtggcct cccggaaggg ccggtcctcg aggctctact gtgtgcagag 481 acgggggaga agaagattga gctgaaggag gaggagacca ttatggactg tcagaaacag 541 cagttgctgg agtttccgca tgacctcgag gtggaagact tggaggatga cattcccagg 601 aggaagaaca gggccaaagg aaaggcatat ggcatcgggg gtctccggaa acgccaggac 661 accgcttccc tggaggaccg agacaagccg tatgtctgtg ataagtttta caaagaattg 721 gcctgggtcc ctgaggcaca aaggaaacac acagccaaga aggcgcccga cggcactgtc 781 atccccaacg gctactgtga cttctgcctg gggggctcca agaagacggg gtgtcccgag 841 gacctcatct cctgtgcgga ctgtgggcga tcaggacacc cctcgtgttt acaattcacg 901 gtgaacatga cggcagccgt gcggacctac cgctggcagt gcatcgagtg caaatcctgc 961 agcctgtgcg gaacctccga gaacgacggt gccagctggg cgggtctcac cccccaggac 1021 cagctgctgt tttgtgatga ctgcgatcgg ggttaccaca tgtactgcct gagtcccccc 1081 atggcggagc ccccggaagg gagctggagc tgtcacctct gtctccggca cctgaaggaa 1141 aaggcttctg cttacatcac cctcacctag gccggctcgg ctcgccgcga ctctggggtg 1201 gtgctcgcct acctgcctct ccgagctcct caattctccc ccaccctgaa catcccgcag 1261 ggggaggggg agagggggaa gccgagaggg ggctgggcca ccccctcccc tctgtgcaag 1321 tggaatgtct gccctgtggg tgggtgggcc cggccagggc ctctccctcc ctccctccct 1381 ctctgtccct tggcaaatgg acaccagggg cttctcccct caaagccata ccccgcctct 1441 gggcgggcat ggggggtggt gggtgccagc caggggcatg gacagagcct ttttctaaag 1501 aaaaagacaa aaagttaaaa aaaaaaaaaa gaagaaaaga aaagaagtta atatatacaa 1561 agagtcctcc aaggcctggc tgggtggagg ggcgctgctg agagtgtcca ccgggcaccc 1621 gcctctgccg gccccccgcc gggcgcccca accccaattt ctggagctgc agccgtcccg 1681 cgccccaccc aaggtgggcg ccttcccctc ttgtgcccag ggcggtgggc gtggtgtcca 1741 cccgcccctc ctggtgccca cggtggatac tgcatgatgt gaaccttggt tttgaactct 1801 gttcctgccc ctccccgacc gccccagcct gtgcccgccc cgtgcctgcc gtggctggtg 1861 ggtggcggtg gtggggccgg gtgggccccc gcccagcgcc tgctggaatg agaagcacag 1921 actccgccac ggactccttt tctctccctc ctcccgcccc gccaggcctg gcggcccccg 1981 cccccctcgc tggccatttt gggggagtga gggggcgtgg ttgtttcttg tggttgtgtg 2041 tgtttgttgt tcgggtttta aaaaagggaa actgagactg caggtggggg aggtggtggg 2101 ttttgggggg atgtccccta atccaggagt gccccctcac ttgtcaccga gtctcctcta 2161 ttgcctgcct ctgctgtgaa ttaacttgtt ctgtgtatta aactgggcct gacccctctg 2221 cccacgaaaa aaaaaaaaaa aaaaaa SEQ ID NO: 99 Human DPF1 Amino Acid Sequence Isoform B (NP_004638.2) 1 mgglsarpta grtdpagtcw gqdpgskmat vipgplslge dfyreaiehc rsynarlcae 61 rslrlpflds qtgvaqnncy iwmekthrgp glapgqiyty parcwrkkrr lniledprlr 121 pceykidcea plkkegglpe gpvleallca etgekkielk eeetimdcqk qqllefphdl 181 evedleddip rrknrakgka ygigglrkrq dtasledrdk pyvcdkfyke lawypeagrk 241 htakkapdgt vipngycdfc lggskktgcp edliscadcg rsghpsclqf tvnmtaavrt 301 yrwqciecks cslcgtsend gaswagltpq dqllfcddcd rgyhmyclsp pmaeppegsw 361 schlclrhlk ekasayitlt SEQ ID NO: 100 Human DPF1 cDNA Sequence Variant 3 (NM_001135156.2, CDS: 288-1286) 1 cgcagcccca agaatgaatg aaatcgtagc gcgctgggcg gcagagcggg cggcgcaggc 61 cgggctgggc ccgcgcgcgg cggcagcggc gccccgggcc ggaggcggcc cagccgagcg 121 ggccatggcc accgccattc agaacccgct caagtcgcga ggacttctac cgcgaggcca 181 tcgagcactg ccgcagttac aacgcgcgcc tgtgcgccga gcgcagcctg cgactgccct 241 tcctcgactc gcagaccggc gtggcccaga acaactgcta catctggatg gagaagaccc 301 accgcgggcc gggtttggcc ccgggacaga tttacacgta ccccgcccgc tgttggagga 361 agaaacggag actcaacatc ctggaggacc ccagactcag gccctgcgag tacaagatcg 421 actgtgaagc acccctgaag aaggagggtg gcctcccgga agggccggtc ctcgaggctc 481 tactgtgtgc agagacgggg gagaagaaga ttgagctgaa ggaggaggag accattatgg 541 actgtcagaa acagcagttg ctggagtttc cgcatgacct cgaggtggaa gacttggagg 601 atgacattcc caggaggaag aacagggcca aaggaaaggc atatggcatc gggggtctcc 661 ggaaacgcca ggacaccgct tccctggagg accgagacaa gccgtatgtc tgtgatatct 721 gtgggaaacg gtataagaac cggccggggc tcagctacca ctacacccac acccacctgg 781 ccgaggagga gggggaggag aacgccgaac gccacgccct gcccttccac cggaaaaaca 841 accataaaca gttttacaaa gaattggcct gggtccctga ggcacaaagg aaacacacag 901 ccaagaaggc gcccgacggc actgtcatcc ccaacggcta ctgtgacttc tgcctggggg 961 gctccaagaa gacggggtgt cccgaggacc tcatctcctg tgcggactgt gggcgatcag 1021 gacacccctc gtgtttacaa ttcacggtga acatgacggc agccgtgcgg acctaccgct 1081 ggcagtgcat cgagtgcaaa tcctgcagcc tgtgcggaac ctccgagaac gacgaccagc 1141 tgctgttttg tgatgactgc gatcggggtt accacatgta ctgcctgagt ccccccatgg 1201 cggagccccc ggaagggagc tggagctgtc acctctgtct ccggcacctg aaggaaaagg 1261 cttctgctta catcaccctc acctaggccg gctcggctcg ccgcgactct ggggtggtgc 1321 tcgcctacct gcctctccga gctcctcaat tctcccccac cctgaacatc ccgcaggggg 1381 agggggagag ggggaagccg agagggggct gggccacccc ctcccctctg tgcaagtgga 1441 atgtctgccc tgtgggtggg tgggcccggc cagggcctct ccctccctcc ctccctctct 1501 gtcccttggc aaatggacac caggggcttc tcccctcaaa gccatacccc gcctctgggc 1561 gggcatgggg ggtggtgggt gccagccagg ggcatggaca gagccttttt ctaaagaaaa 1621 agacaaaaag ttaaaaaaaa aaaaaagaag aaaagaaaag aagttaatat atacaaagag 1681 tcctccaagg cctggctggg tggaggggcg ctgctgagag tgtccaccgg gcacccgcct 1741 ctgccggccc cccgccgggc gccccaaccc caatttctgg agctgcagcc gtcccgcgcc 1801 ccacccaagg tgggcgcctt cccctcttgt gcccagggcg gtgggcgtgg tgtccacccg 1861 cccctcctgg tgcccacggt ggatactgca tgatgtgaac cttggttttg aactctgttc 1921 ctgcccctcc ccgaccgccc cagcctgtgc ccgccccgtg cctgccgtgg ctggtgggtg 1981 gcggtggtgg ggccgggtgg gcccccgccc agcgcctgct ggaatgagaa gcacagactc 2041 cgccacggac tccttttctc tccctcctcc cgccccgcca ggcctggcgg cccccgcccc 2101 cctcgctggc cattttgggg gagtgagggg gcgtggttgt ttcttgtggt tgtgtgtgtt 2161 tgttgttcgg gttttaaaaa agggaaactg agactgcagg tgggggaggt ggtgggtttt 2221 ggggggatgt cccctaatcc aggagtgccc cctcacttgt caccgagtct cctctattgc 2281 ctgcctctgc tgtgaattaa cttgttctgt gtattaaact gggcctgacc cctctgccca 2341 cgaaaaaaaa aaaaaaaaaa aa SEQ ID NO: 101 Human DPF1 Amino Acid Sequence Isoform C (NP_001128628.1) 1 mekthrgpgl apgqiytypa rcwrkkrrin iledprlrpc eykidceapl kkegglpegp 61 vleallcaet gekkielkee etimdcqkqq llefphdlev edleddiprr knrakgkayg 121 igglrkrqdt asledrdkpy vcdicgkryk nrpglsyhyt hthlaeeege enaerhalpf 181 hrknnhkqfy kelawvpeaq rkhtakkapd gtvipngycd fclggskktg cpedliscad 241 cgrsghpscl qftvnmtaav rtyrwqciec kscslcgtse nddqllfcdd cdrgyhmycl 301 sppmaeppeg swschlclrh lkekasayit it SEQ ID NO: 102 Human DPF1 cDNA Sequence Variant 4 (NM_001289978.1, CDS: 28-1302) 1 gtgctcccgc cccccgggaa tgaatggatg ggcggcctca gcgcccgccc gaccgctggg 61 aggaccgacc cggcggggac ctgctggggg caggacccgg ggagcaagat ggccactgtc 121 atccctggcc ccctgagcct aggcgaggac ttctaccgcg aggccatcga gcactgccgc 181 agttacaacg cgcgcctgtg cgccgagcgc agcctgcgac tgcccttcct cgactcgcag 241 accggcgtgg cccagaacaa ctgctacatc tggatggaga agacccaccg cgggccgggt 301 ttggccccgg gacagattta cacgtacccc gcccgctgtt ggaggaagaa acggagactc 361 aacatcctgg aggaccccag actcaggccc tgcgagtaca agatcgactg tgaagcaccc 421 ctgaagaagg agggtggcct cccggaaggg ccggtcctcg aggctctact gtgtgcagag 481 acgggggaga agaagattga gctgaaggag gaggagacca ttatggactg tcagaaacag 541 cagttgctgg agtttccgca tgacctcgag gtggaagact tggaggatga cattcccagg 601 aggaagaaca gggccaaagg aaaggcatat ggcatcgggg gtctccggaa acgccaggac 661 accgcttccc tggaggaccg agacaagccg tatgtctgtg atatctgtgg gaaacggtat 721 aagaaccggc cggggctcag ctaccactac acccacaccc acctggccga ggaggagggg 781 gaggagaacg ccgaacgcca cgccctgccc ttccaccgga aaaacaacca taaacagttt 841 tacaaagaat tggcctgggt ccctgaggca caaaggaaac acacagccaa gaaggcgccc 901 gacggcactg tcatccccaa cggctactgt gacttctgcc tggggggctc caagaagacg 961 gggtgtcccg aggacctcat ctcctgtgcg gactgtgggc gatcaggaca cccctcgtgt 1021 ttacaattca cggtgaacat gacggcagcc gtgcggacct accgctggca gtgcatcgag 1081 tgcaaatcct gcagcctgtg cggaacctcc gagaacgacg gtgccagctg ggcgggtctc 1141 accccccagg accagctgct gttttgtgat gactgcgatc ggggttacca catgtactgc 1201 ctgagtcccc ccatggcgga gcccccggaa gggagctgga gctgtcacct ctgtctccgg 1261 cacctgaagg aaaaggcttc tgcttacatc accctcacct aggccggctc ggctcgccgc 1321 gactctgggg tggtgctcgc ctacctgcct ctccgagctc ctcaattctc ccccaccctg 1381 aacatcccgc agggggaggg ggagaggggg aagccgagag ggggctgggc caccccctcc 1441 cctctgtgca agtggaatgt ctgccctgtg ggtgggtggg cccggccagg gcctctccct 1501 ccctccctcc ctctctgtcc cttggcaaat ggacaccagg ggcttctccc ctcaaagcca 1561 taccccgcct ctgggcgggc atggggggtg gtgggtgcca gccaggggca tggacagagc 1621 ctttttctaa agaaaaagac aaaaagttaa aaaaaaaaaa aagaagaaaa gaaaagaagt 1681 taatatatac aaagagtcct ccaaggcctg gctgggtgga ggggcgctgc tgagagtgtc 1741 caccgggcac ccgcctctgc cggccccccg ccgggcgccc caaccccaat ttctggagct 1801 gcagccgtcc cgcgccccac ccaaggtggg cgccttcccc tcttgtgccc agggcggtgg 1861 gcgtggtgtc cacccgcccc tcctggtgcc cacggtggat actgcatgat gtgaaccttg 1921 gttttgaact ctgttcctgc ccctccccga ccgccccagc ctgtgcccgc cccgtgcctg 1981 ccgtggctgg tgggtggcgg tggtggggcc gggtgggccc ccgcccagcg cctgctggaa 2041 tgagaagcac agactccgcc acggactcct tttctctccc tcctcccgcc ccgccaggcc 2101 tggcggcccc cgcccccctc gctggccatt ttgggggagt gagggggcgt ggttgtttct 2161 tgtggttgtg tgtgtttgtt gttcgggttt taaaaaaggg aaactgagac tgcaggtggg 2221 ggaggtggtg ggttttgggg ggatgtcccc taatccagga gtgccccctc acttgtcacc 2281 gagtctcctc tattgcctgc ctctgctgtg aattaacttg ttctgtgtat taaactgggc 2341 ctgacccctc tgcccacgaa aaaaaaaaaa aaaaaaaa SEQ ID NO: 103 Human DPF1 Amino Acid Sequence Isoform D (NP_001276907.1) 1 mgglsarpta grtdpagtcw gqdpgskmat vipgplslge dfyreaiehc rsynarlcae 61 rslrlpflds qtgvaqnncy iwmekthrgp glapgqiyty parcwrkkrr lniledprlr 121 pceykidcea plkkegglpe gpvleallca etgekkielk eeetimdcqk qqllefphdl 181 evedleddip rrknrakgka ygigglrkrq dtasledrdk pyvcdicgkr yknrpglsyh 241 yththlaeee geenaerhal pfhrknnhkq fykelawvpe aqrkhtakka pdgtvipngy 301 cdfclggskk tgcpedlisc adcgrsghps clqftvnmta avrtyrwqci eckscslcgt 361 sendgaswag ltpqdqllfc ddcdrgyhmy clsppmaepp egswschlcl rhlkekasay 421 itlt SEQ ID NO: 104 Human DPF1 cDNA Sequence Variant 5 (NM_001363579.1, CDS: 106-1272) 1 gaaatcgtag cgcgctgggc ggcagagcgg gcggcgcagg ccgggctggg cccgcgcgcg 61 gcggcagcgg cgccccgggc cggaggcggc ccagccgagc gggccatggc caccgccatt 121 cagaacccgc tcaagtccct aggcgaggac ttctaccgcg aggccatcga gcactgccgc 181 agttacaacg cgcgcctgtg cgccgagcgc agcctgcgac tgcccttcct cgactcgcag 241 accggcgtgg cccagaacaa ctgctacatc tggatggaga agacccaccg cgggccgggt 301 ttggccccgg gacagattta cacgtacccc gcccgctgtt ggaggaagaa acggagactc 361 aacatcctgg aggaccccag actcaggccc tgcgagtaca agatcgactg tgaagcaccc 421 ctgaagaagg agggtggcct cccggaaggg ccggtcctcg aggctctact gtgtgcagag 481 acgggggaga agaagattga gctgaaggag gaggagacca ttatggactg tcagaaacag 541 cagttgctgg agtttccgca tgacctcgag gtggaagact tggaggatga cattcccagg 601 aggaagaaca gggccaaagg aaaggcatat ggcatcgggg gtctccggaa acgccaggac 661 accgcttccc tggaggaccg agacaagccg tatgtctgtg atatctgtgg gaaacggtat 721 aagaaccggc cggggctcag ctaccactac acccacaccc acctggccga ggaggagggg 781 gaggagaacg ccgaacgcca cgccctgccc ttccaccgga aaaacaacca taaacagttt 841 tacaaagaat tggcctgggt ccctgaggca caaaggaaac acacagccaa gaaggcgccc 901 gacggcactg tcatccccaa cggctactgt gacttctgcc tggggggctc caagaagacg 961 gggtgtcccg aggacctcat ctcctgtgcg gactgtgggc gatcaggaca cccctcgtgt 1021 ttacaattca cggtgaacat gacggcagcc gtgcggacct accgctggca gtgcatcgag 1081 tgcaaatcct gcagcctgtg cggaacctcc gagaacgacg accagctgct gttttgtgat 1141 gactgcgatc ggggttacca catgtactgc ctgagtcccc ccatggcgga gcccccggaa 1201 gggagctgga gctgtcacct ctgtctccgg cacctgaagg aaaaggcttc tgcttacatc 1261 accctcacct aggccggctc ggctcgccgc gactctgggg tggtgctcgc ctacctgcct 1321 ctccgagctc ctcaattctc ccccaccctg aacatcccgc agggggaggg ggagaggggg 1381 aagccgagag ggggctgggc caccccctcc cctctgtgca agtggaatgt ctgccctgtg 1441 ggtgggtggg cccggccagg gcctctccct ccctccctcc ctctctgtcc cttggcaaat 1501 ggacaccagg ggcttctccc ctcaaagcca taccccgcct ctgggcgggc atggggggtg 1561 gtgggtgcca gccaggggca tggacagagc ctttttctaa agaaaaagac aaaaagttaa 1621 aaaaaaaaaa aagaagaaaa gaaaagaagt taatatatac aaagagtcct ccaaggcctg 1681 gctgggtgga ggggcgctgc tgagagtgtc caccgggcac ccgcctctgc cggccccccg 1741 ccgggcgccc caaccccaat ttctggagct gcagccgtcc cgcgccccac ccaaggtggg 1801 cgccttcccc tcttgtgccc agggcggtgg gcgtggtgtc cacccgcccc tcctggtgcc 1861 cacggtggat actgcatgat gtgaaccttg gttttgaact ctgttcctgc ccctccccga 1921 ccgccccagc ctgtgcccgc cccgtgcctg ccgtggctgg tgggtggcgg tggtggggcc 1981 gggtgggccc ccgcccagcg cctgctggaa tgagaagcac agactccgcc acggactcct 2041 tttctctccc tcctcccgcc ccgccaggcc tggcggcccc cgcccccctc gctggccatt 2101 ttgggggagt gagggggcgt ggttgtttct tgtggttgtg tgtgtttgtt gttcgggttt 2161 taaaaaaggg aaactgagac tgcaggtggg ggaggtggtg ggttttgggg ggatgtcccc 2221 taatccagga gtgccccctc acttgtcacc gagtctcctc tattgcctgc ctctgctgtg 2281 aattaacttg ttctgtgtat taaactgggc ctgacccctc tgcccacga SEQ ID NO: 105 Human DPF1 Amino Acid Sequence Isoform E (NP_001350508.1) 1 mataiqnplk slgedfyrea iehcrsynar lcaerslrlp fldsqtgvaq nncyiwmekt 61 hrgpglapgq iytyparcwr kkrriniled prlrpceyki dceaplkkeg glpegpvlea 121 llcaetgekk ielkeeetim dcqkqqllef phdlevedle ddiprrknra kgkaygiggl 181 rkrqdtasle drdkpyvcdi cgkryknrpg lsyhyththl aeeegeenae rhalpfhrkn 241 nhkqfykela wypeagrkht akkapdgtvi pngycdfclg gskktgcped liscadcgrs 301 ghpsclqftv nmtaavrtyr wqcieckscs lcgtsenddq llfcddcdrg yhmyclsppm 361 aeppegswsc hlclrhlkek asayitlt SEQ ID NO: 106 Mouse DPF1 cDNA Sequence (NM_013874.2, CDS: 77-1243) 1 gcaggccggg ctgggcccgc gctcagcggc agcagcagcg gcgccccggg ccggaggcgg 61 cccagccgag cgggccatgg ccaccgccat tcagaacccg ctcaagtccc ttggcgagga 121 cttctaccgg gaggccatcg agcactgtcg cagctacaac gcgcgcctgt gtgccgagcg 181 cagcctgcgc ctgcctttcc tcgactcgca gaccggagtg gcccagaaca actgctacat 241 ctggatggag aagacccacc gcgggcctgg tttggccccg ggacagatct acacttaccc 301 cgcccgctgt tggaggaaga aacggagact caacatcctg gaggacccca ggctccggcc 361 ctgcgagtac aagatcgatt gtgaggcacc tctgaagaag gagggtggcc tcccggaagg 421 gccagtcctc gaggctctgc tgtgtgctga gactggagag aagaaagtgg agctgaagga 481 ggaggagacc atcatggact gtcagaaaca gcagttgctg gagtttccgc atgatctcga 541 ggtagaagac ttggaggaag acattcccag gaggaagaac agggcaagag gaaaggcata 601 tggcattgga ggtctccgca aacgccagga caccgcatcc ctggaggacc gagacaagcc 661 gtacgtctgt gatatctgtg ggaagagata taagaaccgg ccaggactca gctaccatta 721 cacccacacc cacctggctg aggaggaggg ggaggagcac actgaacgcc acgccctgcc 781 tttccaccgg aaaaacaacc ataaacagtt ttacaaagaa ttggcctggg tccccgaggc 841 acagaggaaa cacacagcca agaaagcacc agatggcact gtcatcccca atggctactg 901 tgacttttgc ctggggggct ccaagaagac tgggtgtccc gaggacctca tctcctgtgc 961 ggactgtggg cgatcaggac atccctcgtg tttacagttc acggtgaaca tgaccgcggc 1021 tgtgcggacc taccgctggc agtgcattga atgcaagtcc tgcagcctgt gtggcacctc 1081 ggagaatgac gaccagctgc tgttctgtga tgactgcgat cgaggttacc acatgtactg 1141 cctgagccct cccatggcgg agcccccgga agggagctgg agctgccacc tctgtctccg 1201 gcacttgaag gaaaaggcct ctgcttacat caccctgacc taggcccggc tctgcttccc 1261 caggatcttt gggtggtgct atctcctgcc tcttggagct cctggcgctc cccacccggt 1321 gtccccagtg gaagggatgg ggtgaagccc agagtggggg ggggcaaggt gttctccctc 1381 tgcaagtgga atgttaccct gtgggtggct gggtccaaca gggtccctcc tgtcccccct 1441 cttcatccct tgacaaatgg gcaccaggct tctgctctcc tcaaagccat acccccgcct 1501 ttgggcgggc atagaggggt agtggatgct agccagcagc acggaaagag cctttttcta 1561 aagaaaaaga caaaacgtgg aaaaaaaagg gaaaaaaatt aatatataca aagagtccta 1621 taaagcctgg ctgggtggag aggcactgtt gagtgtctgc tggggacctg actttaccag 1681 tttcctgaat ggcgcctccc cacctcattt ctggagttgc aatggtctca actcccatct 1741 gaggtgggta ccaccccttc ctcagtaccc accgtggata ctgcatgtga actatggttt 1801 tgaactcttc ctcctcctcc ttgagagccc cgccctgcgc ccgcgtggtg cctgcctgcc 1861 aggcctgggg cgtgcagccg gggaggcggg tggggtgagg caggcaggca gccagccccc 1921 tgcagtgaga agcacagatt gcaatggact cagttttttt tttttttttt tttttttttc 1981 ctttctccct tcccacccct ttccttccct acccagccag gctgggctgc ctcctgcccc 2041 cctcgctagc catttggggg tggcaagggg gtgtggttgt ttctcgtggt tgtgtgtgtt 2101 tgttgttcgg gtttttaaaa ggggaaattg agactgcaag tgggggaggt ggagggtctg 2161 ggggagtctg cccccaatcc aggagtaccc cccttgccac caagtctcct ttattgcctg 2221 cctctgctgt gaattaactt gttctgtgta ttaaactggg cctgacccct ctgcccac SEQ ID NO: 107 Mouse DPF1 Amino Acid Sequence (NP_038902.1) 1 mataiqnplk slgedfyrea iehcrsynar lcaerslrlp fldsqtgvaq nncyiwmekt 61 hrgpglapgq iytyparcwr kkrrlniled prlrpceyki dceaplkkeg glpegpvlea 121 llcaetgekk velkeeetim dcqkqqllef phdlevedle ediprrknra rgkaygiggl 181 rkrqdtasle drdkpyvcdi cgkryknrpg lsyhyththl aeeegeehte rhalpfhrkn 241 nhkqfykela wypeagrkht akkapdgtvi pngycdfclg gskktgcped liscadcgrs 301 ghpsclqftv nmtaavrtyr wqcieckscs lcgtsenddq llfcddcdrg yhmyclsppm 361 aeppegswsc hlclrhlkek asayitlt SEQ ID NO: 108 Human DPF2 cDNA Sequence Variant 1 (NM_006268.4, CDS: 134-1309) 1 agtgctcgct ctagtgcgcg cgcccggacg gcgcctgcgc agagggcaag gaacctggta 61 ccccggtgcg gtcccggcgc ctgcgcgctg cggactgtgg ggcttctcgg cccgaggcag 121 aggaacaggg aagatggcgg ctgtggtgga gaatgtagtg aagctccttg gggagcagta 181 ctacaaagat gccatggagc agtgccacaa ttacaatgct cgcctctgtg ctgagcgcag 241 cgtgcgcctg cctttcttgg actcacagac cggagtagcc cagagcaatt gttacatctg 301 gatggaaaag cgacaccggg gtccaggatt ggcctccgga cagctgtact cctaccctgc 361 ccggcgctgg cggaaaaagc ggcgagccca tccccctgag gatccacgac tttccttccc 421 atctattaag ccagacacag accagaccct gaagaaggag gggctgatct ctcaggatgg 481 cagtagttta gaggctctgt tgcgcactga ccccctggag aagcgaggtg ccccggatcc 541 ccgagttgat gatgacagcc tgggcgagtt tcctgtgacc aacagtcgag cgcgaaagcg 601 gatcctagaa ccagatgact tcctggatga cctcgatgat gaagactatg aagaagatac 661 tcccaagcgt cggggaaagg ggaaatccaa gggtaagggt gtgggcagtg cccgtaagaa 721 gctggatgct tccatcctgg aggaccggga taagccctat gcctgtgaca tttgtggaaa 781 acgttacaag aaccgaccag gcctcagtta ccactatgcc cactcccact tggctgagga 841 ggagggcgag gacaaggaag actctcaacc acccactcct gtttcccaga ggtctgagga 901 gcagaaatcc aaaaagggtc ctgatggatt ggccttgccc aacaactact gtgacttctg 961 cctgggggac tcaaagatta acaagaagac gggacaaccc gaggagctgg tgtcctgttc 1021 tgactgtggc cgctcagggc atccatcttg cctccaattt acccccgtga tgatggcggc 1081 agtgaagaca taccgctggc agtgcatcga gtgcaaatgt tgcaatatct gcggcacctc 1141 cgagaatgac gaccagttgc tcttctgtga tgactgcgat cgtggctacc acatgtactg 1201 tctcaccccg tccatgtctg agccccctga aggaagttgg agctgccacc tgtgtctgga 1261 cctgttgaaa gagaaagctt ccatctacca gaaccagaac tcctcttgat gtggccaccc 1321 acctgctccc cgacatatct aaggctgttt ctctcctcca cttcatattt catacccatc 1381 tttcccttct tcctcctctc cttcacaaat ccagagaacc ttggggtggt tgtgccagcc 1441 tgcctttggc agctgcaagc tgaggtggca gctctgacca cctctggccc caggccctca 1501 gggagaaagg agcaacacac tgcccctagg cgtgcgtgtg gcccagtttc tctctgctct 1561 ccattaagtg cattcactct gcttgccttg ggcccagccc ctggtgatca cagggttcaa 1621 acagtgtcct cctagaaaga gtgggagagc agctcacttc tctgtgttct gcctcccctc 1681 tggtctccag agttttcctg tcctctagag gcaagccagg ccagggagct gggagcgagc 1741 aagctgaggc cacgtccaca aggagctttt catgcccctg tgccgcatag cctcacctct 1801 ttcctccaga gtggctctct gcggccctgt gttcctgcta cagagtgttc ttttctggag 1861 tcaggatgtt ctcggtcacc ctcctggttc tgccctgtcc cattccaccc caccccaggg 1921 ggaacagtag cttcaccttg ttattcccat tgctctcctg gctcactctt acggtcggtc 1981 tccagtgact gaagcattcc ccacccttgg aatttctcat cttctgcctc ccttcctact 2041 ccttttggtt ttgtggggag aggggaagga tcagggggcc aggccagcag ctcgggggcc 2101 acaaggagat ggataatgtg cctgtttttt aacacaacaa aaaagcctac ctccaaaatc 2161 ccctttttgt tcttcctgga cctgggcatt cagcctcctg ctcttaactg aattgggagc 2221 ctctgccacc tgccccgtgt atcctggctc tcagctcatg gggaagccac atagacatcc 2281 ctttcttccc ttgcacgctc gctagcagct ggtaaggtct tcacaccctg attcctcaag 2341 ttttctgctt agtggcactg acattaagta gtggggggac agtccatgcc aggacaccct 2401 ggagtagcct tcccccttgg ccgtgggcag gccctaactc actgtcgctt tggagttgag 2461 gtgtcttttt tttttctttc tttagttcct gtattctaaa cattagtaaa aataaatgtt 2521 tttacacaga aaaaaaaaaa aaaaa SEQ ID NO: 109 Human DPF2 Amino Acid Sequence Isoform 1 (NP_006259.1) 1 maavvenvvk llgeqyykda meqchnynar lcaersvrlp fldsqtgvaq sncyiwmekr 61 hrgpglasgq lysyparrwr kkrrahpped prlsfpsikp dtdqtlkkeg lisqdgssle 121 allrtdplek rgapdprvdd dslgefpvtn srarkrilep ddflddldde dyeedtpkrr 181 gkgkskgkgv gsarkkldas iledrdkpya cdicgkrykn rpglsyhyah shlaeeeged 241 kedsqpptpv sqrseeqksk kgpdglalpn nycdfclgds kinkktgqpe elvscsdcgr 301 sghpsclqft pvmmaavkty rwqcieckcc nicgtsendd qllfcddcdr gyhmycltps 361 mseppegsws chlcldllke kasiyqnqns s SEQ ID NO: 110 Human DPF2 cDNA Sequence Variant 2 (NM_001330308.1, CDS: 134-1351) 1 agtgctcgct ctagtgcgcg cgcccggacg gcgcctgcgc agagggcaag gaacctggta 61 ccccggtgcg gtcccggcgc ctgcgcgctg cggactgtgg ggcttctcgg cccgaggcag 121 aggaacaggg aagatggcgg ctgtggtgga gaatgtagtg aagctccttg gggagcagta 181 ctacaaagat gccatggagc agtgccacaa ttacaatgct cgcctctgtg ctgagcgcag 241 cgtgcgcctg cctttcttgg actcacagac cggagtagcc cagagcaatt gttacatctg 301 gatggaaaag cgacaccggg gtccaggatt ggcctccgga cagctgtact cctaccctgc 361 ccggcgctgg cggaaaaagc ggcgagccca tccccctgag gatccacgac tttccttccc 421 atctattaag ccagacacag accagaccct gaagaaggag gggctgatct ctcaggatgg 481 cagtagttta gaggctctgt tgcgcactga ccccctggag aagcgaggtg ccccggatcc 541 ccgagttgat gatgacagcc tgggcgagtt tcctgtgacc aacagtcgag cgcgaaagcg 601 gatcctagaa ccagatgact tcctggatga cctcgatgat gaagactatg aagaagatac 661 tcccaagcgt cggggaaagg ggaaatccaa gggtaagggt gtgggcagtg cccgtaagaa 721 gctggatgct tccatcctgg aggaccggga taagccctat gcctgtgaca atagtttcaa 781 acaaaagcat acctcgaaag cgccccagag agtttgtgga aaacgttaca agaaccgacc 841 aggcctcagt taccactatg cccactccca cttggctgag gaggagggcg aggacaagga 901 agactctcaa ccacccactc ctgtttccca gaggtctgag gagcagaaat ccaaaaaggg 961 tcctgatgga ttggccttgc ccaacaacta ctgtgacttc tgcctggggg actcaaagat 1021 taacaagaag acgggacaac ccgaggagct ggtgtcctgt tctgactgtg gccgctcagg 1081 gcatccatct tgcctccaat ttacccccgt gatgatggcg gcagtgaaga cataccgctg 1141 gcagtgcatc gagtgcaaat gttgcaatat ctgcggcacc tccgagaatg acgaccagtt 1201 gctcttctgt gatgactgcg atcgtggcta ccacatgtac tgtctcaccc cgtccatgtc 1261 tgagccccct gaaggaagtt ggagctgcca cctgtgtctg gacctgttga aagagaaagc 1321 ttccatctac cagaaccaga actcctcttg atgtggccac ccacctgctc cccgacatat 1381 ctaaggctgt ttctctcctc cacttcatat ttcataccca tctttccctt cttcctcctc 1441 tccttcacaa atccagagaa ccttggggtg gttgtgccag cctgcctttg gcagctgcaa 1501 gctgaggtgg cagctctgac cacctctggc cccaggccct cagggagaaa ggagcaacac 1561 actgccccta ggcgtgcgtg tggcccagtt tctctctgct ctccattaag tgcattcact 1621 ctgcttgcct tgggcccagc ccctggtgat cacagggttc aaacagtgtc ctcctagaaa 1681 gagtgggaga gcagctcact tctctgtgtt ctgcctcccc tctggtctcc agagttttcc 1741 tgtcctctag aggcaagcca ggccagggag ctgggagcga gcaagctgag gccacgtcca 1801 caaggagctt ttcatgcccc tgtgccgcat agcctcacct ctttcctcca gagtggctct 1861 ctgcggccct gtgttcctgc tacagagtgt tcttttctgg agtcaggatg ttctcggtca 1921 ccctcctggt tctgccctgt cccattccac cccaccccag ggggaacagt agcttcacct 1981 tgttattccc attgctctcc tggctcactc ttacggtcgg tctccagtga ctgaagcatt 2041 ccccaccctt ggaatttctc atcttctgcc tcccttccta ctccttttgg ttttgtgggg 2101 agaggggaag gatcaggggg ccaggccagc agctcggggg ccacaaggag atggataatg 2161 tgcctgtttt ttaacacaac aaaaaagcct acctccaaaa tccccttttt gttcttcctg 2221 gacctgggca ttcagcctcc tgctcttaac tgaattggga gcctctgcca cctgccccgt 2281 gtatcctggc tctcagctca tggggaagcc acatagacat ccctttcttc ccttgcacgc 2341 tcgctagcag ctggtaaggt cttcacaccc tgattcctca agttttctgc ttagtggcac 2401 tgacattaag tagtgggggg acagtccatg ccaggacacc ctggagtagc cttccccctt 2461 ggccgtgggc aggccctaac tcactgtcgc tttggagttg aggtgtcttt tttttttctt 2521 tctttagttc ctgtattcta aacattagta aaaataaatg tttttacaca gagccctctg 2581 ctggatggtt tatctcctgc ctttctccat taagaaggcc atttcatcct aagatttcca 2641 tgatggtggt tttttttttt aatgttttga aatacagctt ttttcccccc aaattaaaat 2701 ttttttgtgg aaccccaata tgtaaagcga atataaaatt ggttattttg ttttgttaca 2761 taaattcaag tttataacaa ttctttgtta taaagaacaa tgaagctgtt ttgatcaata 2821 caaaatttgg gttaaaatca actttaacat ctatttttat gtttcagttg atttggagaa 2881 ttctcctagt cttggataca tagatggaag tgatgacagg tttataacag ttgaccttgc 2941 aatctcagac atttaaaaca ggaccagaag tttatataaa tataattaat aagcaaacta 3001 atgacatcac catgggacac acacaaaagt tcttgcagga gcagggtctg tgtggcttca 3061 gttgcctgca gcgctcccag gccagagcaa gtgctctagg atctgaactg cccgcagtgc 3121 agccctgcag cctttcccag ggcacgttga tgtgcacaca gtttccctga aggcaaagtg 3181 aacatgtgga gagcttacgt ggcagcgcgt atgtcttcag tgtgtgtttt agaagtccaa 3241 ctgttgtttt tatgttttta aaggaaagat ttgaatcaag cagttatggg ccccctgaag 3301 tatccttttt tctagaacat tctgaaagtc atccttgcct atgggaagcc taggccggcc 3361 tgcactgtta tgttcaataa ataagcaggg tgctctgggc tggggattgt gtgaggagca 3421 gagcgcagcc cgtcctcatg cttttccact gaagtaggcc aggcagagag ggagtacagc 3481 aatggatgcg ctttggcagc tgagtagtcc gagagccaga aaagaaatgt ggaaaataag 3541 aacgctgtag caggcctagg tgaggaaatt taggaagggt ttgcgggagg taggatttga 3601 gatgggtctt ggagagttgg acagtgtcag ccggtaggac gggggtgcgg acggaagcct 3661 gtgaggaagg cagaggatgc ggagctgtga gcggagggag cagcgaggct ggagagcagc 3721 tgggctgcgg gtcaagacgt ctgcgtttaa ttcgggactg aaggttagca gggaagggaa 3781 cgatgccaga tcttgagttt aagaacttga atcttgtaaa gtaccaaatc taataaaata 3841 ctcgtcctaa ataaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaa SEQ ID NO: 111 Human DPF2 Amino Acid Sequence Isoform 2 (NP_001317237.1) 1 maavvenvvk llgeqyykda meqchnynar lcaersvrlp fldsqtgvaq sncyiwmekr 61 hrgpglasgq lysyparrwr kkrrahpped prlsfpsikp dtdqtlkkeg lisqdgssle 121 allrtdplek rgapdprvdd dslgefpvtn srarkrilep ddflddldde dyeedtpkrr 181 gkgkskgkgv gsarkkldas iledrdkpya cdnsfkqkht skapqrvcgk ryknrpglsy 241 hyahshlaee egedkedsqp ptpvsqrsee qkskkgpdgl alpnnycdfc lgdskinkkt 301 gqpeelvscs dcgrsghpsc lqftpvmmaa vktyrwqcie ckccnicgts enddqllfcd 361 dcdrgyhmyc ltpsmseppe gswschlcld llkekasiyq nqnss SEQ ID NO: 112 Mouse DPF2 cDNA Sequence Variant 1 (NM_001291078.1, CDS: 100-1317) 1 cctgcgcaga gggtcgagga ccctgtgtcc tgagaaggct tagcgcctgc gcgttgtagg 61 tttcggggcc tcccggcctg agggagagga acagggaaga tggcggctgt ggtggagaat 121 gtagtgaagc tccttggcga gcaatactac aaagatgcca tggaacagtg ccacaattat 181 aacgcccgcc tctgtgctga acgtagtgtg cgcctgcctt tcctggactc acagactgga 241 gtagcccaga gcaattgtta tatctggatg gaaaagcgac accggggacc aggattggcc 301 tctggacagt tatactccta tcctgccaga cgctggcgga aaaagcgccg agcccaccca 361 cctgaggatc ccaggctttc tttcccatcg attaaaccag acactgacca gactctgaag 421 aaagaggggc ttatctctca ggatggcagc agtttagagg ctctgttgcg tactgatccc 481 ctggagaaac ggggtgcccc agatccccga gttgacgatg acagcctggg cgagtttcct 541 gttagcaaca gtcgagcacg gaagcggatc attgaacccg atgacttcct tgatgacctt 601 gatgatgagg actatgaaga agatacgcca aagcgtcggg ggaaggggaa gtccaagagt 661 aagggtgtga gcagtgcccg gaagaagctg gatgcttcca tcctggagga ccgggataag 721 ccctatgcct gtgacaatag tttcaaacaa aagcatacct cgaaagcgcc ccagagagtt 781 tgtggaaaac gttacaagaa ccgacctggc ctcagttacc actatgccca ctcccacctg 841 gctgaagagg aaggagagga caaagaagac tcccgacccc ccactcctgt gtcccagagg 901 tctgaggagc agaaatccaa gaaaggacct gatggattgg ccctgcctaa caactactgt 961 gacttctgcc taggagactc aaaaatcaac aagaagacag ggcagcccga ggagctagtg 1021 tcctgttccg actgtggccg ctcagggcat ccgtcctgcc tgcagttcac ccctgtgatg 1081 atggcggccg tgaagaccta ccgctggcag tgcatcgaat gcaagtgctg caacctctgc 1141 ggcacgtcgg agaacgatga ccagctactt ttctgtgatg actgtgaccg tggctaccac 1201 atgtactgtc tcactccttc catgtctgag cctcctgaag gaagttggag ttgccacctg 1261 tgtctggatc tgctgaagga gaaagcatcc atctaccaga accagaactc ctcctgatgt 1321 gccacccagc tcccctgcat ctaaggccgt tgctctcctc tctaccttgg tttccattgc 1381 ccctctctcc tctttcactc tgtagtcctg ccaacctccg ttggcaacag cacagggagg 1441 tggcagctct gactgcctct agccccgagc cctcagggag taaggagcag cgtgctgctc 1501 cagggctgac ctgtgggtcc aacttctctc tgctctccaa gaagtgcatt cactctgcct 1561 gccttgggcc taagaccctg gtgattacag ggctcaaatg gggtcctctg agaaggaata 1621 tgagagcagc tcacttgtct caagccttgc ccacccctct tcccccaaac cccctttggt 1681 ttccagggtt ttgccccaga gatgagccag gctgggcctt tcctggaagc agctggagtg 1741 agctggctga gtggcacttg ccaggacctt ttcataccct agttctgctt ccctttgcct 1801 cctgccaaag cagtcccctg tcctctgtca tgctacatgg ggttctgtgc ttgagctaga 1861 atgttctcgg gcacctcctg gctctgccct gtcccacaaa gggacgagca gcttcaaacc 1921 tgtcctccct gtgcttggtg gcttgctcac aggtgcgctc tggctaccca gacatttcct 1981 atcctcagaa cttcccatct tctgccccca tccttagtcc ctttgctttt gtagggagag 2041 ggatagtgtc aggggctggg ccagcagctt gggggccaca gggagaagtt ggataatgtg 2101 cctgtttttt aactcgataa aaaagcctac ctccaaaatt ccctttttgt tcttcctgaa 2161 cctgggcatt cagcctcctg tccttaacta aattaggagc ctctgcctcc tgcctgtgta 2221 tcctggctcc caggacacag gatggtcccc tttccttgca cgctagctag tagctggtaa 2281 ggtcttcaca ccctgagttt tctgtttcct gcttagtggc actgacatta agtaggaggg 2341 gacagtcctc tgcagtactc tagagagtgg gcttccccct tggctgtggg caggccctaa 2401 ctgttttctg caaagttgag ggccccccct cgcatattta gttcctgtat tcaaaacatt 2461 agtaaaaata aacattttta cagagtcttc tgctggacag tttgtctctt gactccttgt 2521 tgaaaggttg tttcatttca aacttacgac aatagggttt tttgttggtg gtggttggtt 2581 gttttaaatt gaaacaactt tttctcccaa aatcaaagtt tttgttaaac tccaccatgt 2641 aaaattattt tgttagtttt gttatgtaaa ttcagattta taacaattta gtggtataaa 2701 ggatgaagct aattaataca aaaattgggt taaaatcaac tttagcattt tctctgtatc 2761 tgtgcttttg gctggttgga aagactttac tcggtgtgaa tatgtaggcg gaggtgcggc 2821 agatctatgg cactgcagtg tctcctggtt aaagtgaacc cagaagcttg tttgtgcttt 2881 aaactccaag gagttatgag ttaagcctgg agagagagcg cagcagagga gaggatgctc 2941 gttgttcttg cagagggcca agtttggttc ccagcactca aatccggtgg ctcacaacca 3001 cctgtagctc cagctccagg agctggggag gtcaactgtg ctcctgcaaa cacccacctg 3061 cccactcatc ttcatccatc tacaaaccta ccagtgtcat cgtagaacaa aagaagccga 3121 gaggagagta acctcagatc ctgtcatctg atgaaccttt tcattgcctg tcggattgct 3181 aagccaaagc agagttgcaa agccagaatt gtccacagtg cagggtgtca tgtgcagacc 3241 gtgagtgagt ttatatccag ccagattagt acttggatgt tatatagtgg atcttgtata 3301 gctcacttgg tatgtattaa cattttaact tttttctttt aaagatttat ttattt SEQ ID NO: 113 Mouse DPF2 Amino Acid Sequence Isoform 1 (NP_001278007.1) 1 maavvenvvk llgeqyykda meqchnynar lcaersvrlp fldsqtgvaq sncyiwmekr 61 hrgpglasgq lysyparrwr kkrrahpped prlsfpsikp dtdqtlkkeg lisqdgssle 121 allrtdplek rgapdprvdd dslgefpvsn srarkriiep ddflddldde dyeedtpkrr 181 gkgkskskgv ssarkkldas iledrdkpya cdnsfkqkht skapqrvcgk ryknrpglsy 241 hyahshlaee egedkedsrp ptpvsqrsee qkskkgpdgl alpnnycdfc lgdskinkkt 301 gqpeelvscs dcgrsghpsc lqftpvmmaa vktyrwqcie ckccnlcgts enddqllfcd 361 dcdrgyhmyc ltpsmseppe gswschlcld llkekasiyq nqnss SEQ ID NO: 114 Mouse DPF2 cDNA Sequence Variant 2 (NM_011262.5, CDS: 100-1275) 1 cctgcgcaga gggtcgagga ccctgtgtcc tgagaaggct tagcgcctgc gcgttgtagg 61 tttcggggcc tcccggcctg agggagagga acagggaaga tggcggctgt ggtggagaat 121 gtagtgaagc tccttggcga gcaatactac aaagatgcca tggaacagtg ccacaattat 181 aacgcccgcc tctgtgctga acgtagtgtg cgcctgcctt tcctggactc acagactgga 241 gtagcccaga gcaattgtta tatctggatg gaaaagcgac accggggacc aggattggcc 301 tctggacagt tatactccta tcctgccaga cgctggcgga aaaagcgccg agcccaccca 361 cctgaggatc ccaggctttc tttcccatcg attaaaccag acactgacca gactctgaag 421 aaagaggggc ttatctctca ggatggcagc agtttagagg ctctgttgcg tactgatccc 481 ctggagaaac ggggtgcccc agatccccga gttgacgatg acagcctggg cgagtttcct 541 gttagcaaca gtcgagcacg gaagcggatc attgaacccg atgacttcct tgatgacctt 601 gatgatgagg actatgaaga agatacgcca aagcgtcggg ggaaggggaa gtccaagagt 661 aagggtgtga gcagtgcccg gaagaagctg gatgcttcca tcctggagga ccgggataag 721 ccctatgcct gtgacatttg tggaaaacgt tacaagaacc gacctggcct cagttaccac 781 tatgcccact cccacctggc tgaagaggaa ggagaggaca aagaagactc ccgacccccc 841 actcctgtgt cccagaggtc tgaggagcag aaatccaaga aaggacctga tggattggcc 901 ctgcctaaca actactgtga cttctgccta ggagactcaa aaatcaacaa gaagacaggg 961 cagcccgagg agctagtgtc ctgttccgac tgtggccgct cagggcatcc gtcctgcctg 1021 cagttcaccc ctgtgatgat ggcggccgtg aagacctacc gctggcagtg catcgaatgc 1081 aagtgctgca acctctgcgg cacgtcggag aacgatgacc agctactttt ctgtgatgac 1141 tgtgaccgtg gctaccacat gtactgtctc actccttcca tgtctgagcc tcctgaagga 1201 agttggagtt gccacctgtg tctggatctg ctgaaggaga aagcatccat ctaccagaac 1261 cagaactcct cctgatgtgc cacccagctc ccctgcatct aaggccgttg ctctcctctc 1321 taccttggtt tccattgccc ctctctcctc tttcactctg tagtcctgcc aacctccgtt 1381 ggcaacagca cagggaggtg gcagctctga ctgcctctag ccccgagccc tcagggagta 1441 aggagcagcg tgctgctcca gggctgacct gtgggtccaa cttctctctg ctctccaaga 1501 agtgcattca ctctgcctgc cttgggccta agaccctggt gattacaggg ctcaaatggg 1561 gtcctctgag aaggaatatg agagcagctc acttgtctca agccttgccc acccctcttc 1621 ccccaaaccc cctttggttt ccagggtttt gccccagaga tgagccaggc tgggcctttc 1681 ctggaagcag ctggagtgag ctggctgagt ggcacttgcc aggacctttt cataccctag 1741 ttctgcttcc ctttgcctcc tgccaaagca gtcccctgtc ctctgtcatg ctacatgggg 1801 ttctgtgctt gagctagaat gttctcgggc acctcctggc tctgccctgt cccacaaagg 1861 gacgagcagc ttcaaacctg tcctccctgt gcttggtggc ttgctcacag gtgcgctctg 1921 gctacccaga catttcctat cctcagaact tcccatcttc tgcccccatc cttagtccct 1981 ttgcttttgt agggagaggg atagtgtcag gggctgggcc agcagcttgg gggccacagg 2041 gagaagttgg ataatgtgcc tgttttttaa ctcgataaaa aagcctacct ccaaaattcc 2101 ctttttgttc ttcctgaacc tgggcattca gcctcctgtc cttaactaaa ttaggagcct 2161 ctgcctcctg cctgtgtatc ctggctccca ggacacagga tggtcccctt tccttgcacg 2221 ctagctagta gctggtaagg tcttcacacc ctgagttttc tgtttcctgc ttagtggcac 2281 tgacattaag taggagggga cagtcctctg cagtactcta gagagtgggc ttcccccttg 2341 gctgtgggca ggccctaact gttttctgca aagttgaggg ccccccctcg catatttagt 2401 tcctgtattc aaaacattag taaaaataaa catttttaca gagtcttctg ctggacagtt 2461 tgtctcttga ctccttgttg aaaggttgtt tcatttcaaa cttacgacaa tagggttttt 2521 tgttggtggt ggttggttgt tttaaattga aacaactttt tctcccaaaa tcaaagtttt 2581 tgttaaactc caccatgtaa aattattttg ttagttttgt tatgtaaatt cagatttata 2641 acaatttagt ggtataaagg atgaagctaa ttaatacaaa aattgggtta aaatcaactt 2701 tagcattttc tctgtatctg tgcttttggc tggttggaaa gactttactc ggtgtgaata 2761 tgtaggcgga ggtgcggcag atctatggca ctgcagtgtc tcctggttaa agtgaaccca 2821 gaagcttgtt tgtgctttaa actccaagga gttatgagtt aagcctggag agagagcgca 2881 gcagaggaga ggatgctcgt tgttcttgca gagggccaag tttggttccc agcactcaaa 2941 tccggtggct cacaaccacc tgtagctcca gctccaggag ctggggaggt caactgtgct 3001 cctgcaaaca cccacctgcc cactcatctt catccatcta caaacctacc agtgtcatcg 3061 tagaacaaaa gaagccgaga ggagagtaac ctcagatcct gtcatctgat gaaccttttc 3121 attgcctgtc ggattgctaa gccaaagcag agttgcaaag ccagaattgt ccacagtgca 3181 gggtgtcatg tgcagaccgt gagtgagttt atatccagcc agattagtac ttggatgtta 3241 tatagtggat cttgtatagc tcacttggta tgtattaaca ttttaacttt tttcttttaa 3301 agatttattt attt SEQ ID NO: 115 Mouse DPF2 Amino Acid Sequence Isoform 2 (NP_035392.1) 1 maavvenvvk llgeqyykda meqchnynar lcaersvrlp fldsqtgvaq sncyiwmekr 61 hrgpglasgq lysyparrwr kkrrahpped prlsfpsikp dtdqtlkkeg lisqdgssle 121 allrtdplek rgapdprvdd dslgefpvsn srarkriiep ddflddldde dyeedtpkrr 181 gkgkskskgv ssarkkldas iledrdkpya cdicgkrykn rpglsyhyah shlaeeeged 241 kedsrpptpv sqrseeqksk kgpdglalpn nycdfclgds kinkktgqpe elvscsdcgr 301 sghpsclqft pvmmaavkty rwqcieckcc nlcgtsendd qllfcddcdr gyhmycltps 361 mseppegsws chlcldllke kasiyqnqns s SEQ ID NO: 116 Human DPF3 cDNA Sequence Variant 1 (NM_012074.4, CDS: 29-1102) 1 agacaatatt ctgttacatt gtagcaaaat ggcgactgtc attcacaacc ccctgaaagc 61 gctcggggac cagttctaca aggaagccat tgagcactgc cggagttaca actcacggct 121 gtgtgcagag cgcagcgtgc gtcttccctt cctggactca cagactgggg tggcccagaa 181 caactgctac atctggatgg agaagaggca ccgaggccca ggccttgccc cgggccagct 241 gtatacatac cctgcccgct gctggcgcaa gaagagacga ttgcacccac ctgaagatcc 301 aaaactgcgg ctgctggaga taaaacctga agtggagctt cccctgaaga aggatgggtt 361 cacctcagag agcaccacgc tggaagcctt gctccgtggc gagggggttg agaagaaggt 421 ggatgccagg gaggaggaaa gcatccagga aatacagagg gttttggaaa atgatgaaaa 481 tgtagaagaa gggaatgaag aagaggattt ggaagaggat attcccaagc gaaagaacag 541 gactagagga cgggctcgcg gctctgcagg gggcaggagg aggcacgacg ccgcctctca 601 ggaagaccac gacaaacctt acgtctgtga catctgtggc aagcgctaca agaaccgacc 661 ggggctcagc taccactatg ctcacactca cctggccagc gaggaggggg atgaagctca 721 agaccaggag actcggtccc cacccaacca cagaaatgag aaccacaggc cccagaaagg 781 accggatgga acagtcattc ccaataacta ctgtgacttc tgcttggggg gctccaacat 841 gaacaagaag agtgggcggc ctgaagagct ggtgtcctgc gcagactgtg gacgctctgc 901 tcatttggga ggagaaggca ggaaggagaa ggaggcagcg gccgcagcac gtaccacgga 961 ggacttattc ggttccacgt cagaaagtga cacgtcaact ttccacggct ttgatgagga 1021 cgatttggaa gagcctcgct cctgtcgagg acgccgcagt ggccggggtt cgcccacagc 1081 agataaaaag ggcagttgct aaacccacgg aacagactct ctgggcaatt agccatcccc 1141 ctctgacttt ggtcattgtg ctggttctga tatatatttt ttttaatgaa aggcaacttt 1201 agattttccc tctatccttg ctttttttcc cttcacctcc cacgtgtccc tccatccctc 1261 cccccacccc tctgttttgg gtatgtacaa cagaagcaca aactactgaa acaaaacaaa 1321 acagcagaat gagcgttctt ccgagagatg gcatcgtgat gcgctattta ttttccatag 1381 aaataggaag ttagacggat tgtctctttt ctgaggggag ggggtctttt tgacaggagc 1441 agagttgatg tcctcaattt tcatatttat tggcaaaagg aagagaagag gaactttggg 1501 ttggaaacaa agaaccaata acattaaaac attattattt atatattcta gctgttatta 1561 gaatcagact ttttttgcga gagagagaga gagagagaga gaagggaaat caaagaaatc 1621 gaagcaatat cctgtttaga ggcaagccgc ccggtgggga gaatttcctc aatgggagac 1681 ggttgcacta ttctgtgccc cacggagttt gcggctcccc gcggcagacc cctccctcat 1741 tctcctccct gacctttcca tcttcctctc tgcttgcgag aaaatgtcag tagttccaga 1801 gaagtcgggg tgcctatgcc tggcctccct ccacacctgg gccctgacca gccgcctcct 1861 gggctcctcc tcctccgtca gtagagctgc tgttttgtta ttgctggttt ttcctcactt 1921 tcctcctggc aaagaacgac ttccaaatgc agggatggaa tataagcaga acgtcatggg 1981 ctcagcagtg actccaccac ccgaggccga ggccgtgctt ctggaagata gaaggagaca 2041 tcatcgtgtg tttcccctcc ccttgcccct gttaagaaac gtatcaatac ccattggatg 2101 atcaaggcta ccgtatttct tctatttttt tttatagtgc ctgccaggca ctttgtttta 2161 tgtttccaat agcacttcct gaaataaacc aaagcaacac tgctcaaggc ccctggggcg 2221 atggagaagg ccacccacct cactgacagt cccaagaatg accggctgcg aggtcctagt 2281 caaaagtcaa cattatgacc tggggactcc agcatccttc aagcaagcca tttccgaaga 2341 aggtgaaaag aagccaggat gattggcacc tcctcctcct cctcctcttc ttcctcttcc 2401 cttgcccagc cccctcctgt gcgtgtgttt cagacaacac aggagccagc acaggagtgg 2461 aaaatcctgc agcgcaactc agctcagccc acagaagcct tgggaatggc ctcagtttgt 2521 gcaataagaa gatttttttt ttctttttaa atcttcatta tattttcttt gattgtctgt 2581 gagaaagtac ccaggtccgc ctggaattac tctacagtag aaataactga acacaaacaa 2641 actgatggaa aaaaagagtt aactatttta tttatttcaa tatttaaaag gaaaaaagtg 2701 ctgacatggc acagtatttt tgtttaaagt acctcctact tcaaaagtta agcgcaattt 2761 tgtgaagaca tgaaatcata agagtactta atgtaaaata aaagactgca tattaactct 2821 aaagaaaaat gccccacatt ttaaataaga aaataaagat caactctgct ctctcaggct 2881 ttttaaaaag ccattcatgt atgtgcttta ggtattttta tttctgcgag ttggatgtgg 2941 taagtgagga gtgctcagtt tttttttcct ccttcaaaag tctattgaaa gtgttggtga 3001 tgttaaatga ttgtgtgtta agatttgact gaaataactt agccacaaat cagcagtttc 3061 ccccaccctc attgccccct caccccaggc aagccccttt tatctgaatg tcagaagcag 3121 cctgcctcct agttatcatg tctgatgagg tctagctcag gaaggaattc catctattga 3181 tggaatatat cccctcaagt tcaatagatt cgaacacaga gagctttgtt taaaataatg 3241 cagcaaaaaa aaaaaaaaaa aaaaagcaaa aataaaagca tcagctgagg tgatattagt 3301 tcagtcacct aacaactcct agaagagatg aggaaaggga accttctgct gagctggctt 3361 ctggggcctg agcttccaga gctgtcccca agggctagga aggccgacct gaaggatgag 3421 aacctcaaat tcagttgctg gtgggagcca aggaagacgg cgggtgttct aacatggccc 3481 tttctggctg agctggcgga agtgggcgtt ttggccgatg ggatgtatct cggcgctgtg 3541 tctgtggccc agcaaaggtg cagggctgac tggctgagcc actgggttct acccgcaggc 3601 tccccactgc actgggcttt cacacagcca tgctcttggg tttccctccc ttgtaagcag 3661 agtcataata acacacgaat agtctaaggc tgggtattct ggtcagcaga ggtccttgag 3721 tcacagtgtt actgaaatgg ttctgagcct gagaatctct ttggcctctg aaagggcagg 3781 gcaggtgggc accgacttcc tgccagtcct ttcaggtttc ctgttcaaag ccagtcctgt 3841 tggtggaggg gatcaccgag agtgtctgta tcattttgta gcccttttct ctgacgtttt 3901 ctggtagaaa atgtcccttg tcaaaatgct aataattatc ataataatct gctttccaac 3961 caactcccac aagtgacaac ctgtgtagaa ctgtgataaa ggtttgcata atgtagggtt 4021 tgtaccaagt gtgtgtaagt ttctgttaaa taaaaagtct gtttccaatg ctcctat SEQ ID NO: 117 Human DPF3 Amino Acid Sequence Isoform 1 (NP_036206.3.) 1 matvihnplk algdqfykea iehcrsynsr lcaersvrlp fldsqtgvaq nncyiwmekr 61 hrgpglapgq lytyparcwr kkrrlhpped pklrlleikp evelplkkdg ftsesttlea 121 llrgegvekk vdareeesiq eiqrvlende nveegneeed leedipkrkn rtrgrargsa 181 ggrrrhdaas qedhdkpyvc dicgkryknr pglsyhyaht hlaseegdea qdgetrsppn 241 hrnenhrpqk gpdgtvipnn ycdfclggsn mnkksgrpee lvscadcgrs ahlggegrke 301 keaaaaartt edlfgstses dtstfhgfde ddleeprscr grrsgrgspt adkkgsc SEQ ID NO: 118 Human DPF3 cDNA Sequence Variant 2 (NM_001280542.1, CDS: 29-1165) 1 agacaatatt ctgttacatt gtagcaaaat ggcgactgtc attcacaacc ccctgaaagc 61 gctcggggac cagttctaca aggaagccat tgagcactgc cggagttaca actcacggct 121 gtgtgcagag cgcagcgtgc gtcttccctt cctggactca cagactgggg tggcccagaa 181 caactgctac atctggatgg agaagaggca ccgaggccca ggccttgccc cgggccagct 241 gtatacatac cctgcccgct gctggcgcaa gaagagacga ttgcacccac ctgaagatcc 301 aaaactgcgg ctgctggaga taaaacctga agtggagctt cccctgaaga aggatgggtt 361 cacctcagag agcaccacgc tggaagcctt gctccgtggc gagggggttg agaagaaggt 421 ggatgccagg gaggaggaaa gcatccagga aatacagagg gttttggaaa atgatgaaaa 481 tgtagaagaa gggaatgaag aagaggattt ggaagaggat attcccaagc gaaagaacag 541 gactagagga cgggctcgcg gctctgcagg gggcaggagg aggcacgacg ccgcctctca 601 ggaagaccac gacaaacctt acgtctgtga catctgtggc aagcgctaca agaaccgacc 661 ggggctcagc taccactatg ctcacactca cctggccagc gaggaggggg atgaagctca 721 agaccaggag actcggtccc cacccaacca cagaaatgag aaccacaggc cccagaaagg 781 accggatgga acagtcattc ccaataacta ctgtgacttc tgcttggggg gctccaacat 841 gaacaagaag agtgggcggc ctgaagagct ggtgtcctgc gcagactgtg gacgctctgg 901 tcacccaacc tgcctgcagt ttaccctgaa catgaccgag gctgtcaaga cctacaagtg 961 gcagtgcata gagtgcaaat cctgtatcct ctgtgggacc tcagagaatg atgaccagct 1021 actcttctgc gatgactgtg accgaggcta tcacatgtac tgtttaaatc ccccggtggc 1081 tgagccccca gaaggaagct ggagctgcca cttatgctgg gaactgctca aagagaaagc 1141 ctcagccttt ggctgccagg cctagg SEQ ID NO: 119 Human DPF3 Amino Acid Sequence Isoform 2 (NP_001267471.1) 1 matvihnplk algdqfykea iehcrsynsr lcaersvrlp fldsqtgvaq nncyiwmekr 61 hrgpglapgq lytyparcwr kkrrlhpped pklrlleikp evelplkkdg ftsesttlea 121 llrgegvekk vdareeesiq eiqrvlende nveegneeed leedipkrkn rtrgrargsa 181 ggrrrhdaas qedhdkpyvc dicgkryknr pglsyhyaht hlaseegdea qdgetrsppn 241 hrnenhrpqk gpdgtvipnn ycdfclggsn mnkksgrpee lvscadcgrs ghptclqftl 301 nmteavktyk wqciecksci lcgtsenddq llfcddcdrg yhmyclnppv aeppegswsc 361 hlcwellkek asafgcqa SEQ ID NO: 120 Human DPF3 cDNA Sequence Variant 3 (NM_001280543.1, CDS: 143-1246) 1 agacaatatt ctgttacatt gtagcaaaat ggcgactgtc attcacaacc ccctgaaagc 61 gccctttcaa gaatcctatg aaagttgtgg atcatctccc cggaaaacac gcatatagat 121 gtgaacatct gcctatggtt ttatggggtt cacagacctg gaagagccca tctctggatg 181 ccctggaggc ccatgggctc tagggctcgg ggaccagttc tacaaggaag ccattgagca 241 ctgccggagt tacaactcac ggctgtgtgc agagcgcagc gtgcgtcttc ccttcctgga 301 ctcacagact ggggtggccc agaacaactg ctacatctgg atggagaaga ggcaccgagg 361 cccaggcctt gccccgggcc agctgtatac ataccctgcc cgctgctggc gcaagaagag 421 acgattgcac ccacctgaag atccaaaact gcggctgctg gagataaaac ctgaagtgga 481 gcttcccctg aagaaggatg ggttcacctc agagagcacc acgctggaag ccttgctccg 541 tggcgagggg gttgagaaga aggtggatgc cagggaggag gaaagcatcc aggaaataca 601 gagggttttg gaaaatgatg aaaatgtaga agaagggaat gaagaagagg atttggaaga 661 ggatattccc aagcgaaaga acaggactag aggacgggct cgcggctctg cagggggcag 721 gaggaggcac gacgccgcct ctcaggaaga ccacgacaaa ccttacgtct gtgacatctg 781 tggcaagcgc tacaagaacc gaccggggct cagctaccac tatgctcaca ctcacctggc 841 cagcgaggag ggggatgaag ctcaagacca ggagactcgg tccccaccca accacagaaa 901 tgagaaccac aggccccaga aaggaccgga tggaacagtc attcccaata actactgtga 961 cttctgcttg gggggctcca acatgaacaa gaagagtggg cggcctgaag agctggtgtc 1021 ctgcgcagac tgtggacgct ctgctcattt gggaggagaa ggcaggaagg agaaggaggc 1081 agcggccgca gcacgtacca cggaggactt attcggttcc acgtcagaaa gtgacacgtc 1141 aactttccac ggctttgatg aggacgattt ggaagagcct cgctcctgtc gaggacgccg 1201 cagtggccgg ggttcgccca cagcagataa aaagggcagt tgctaaaccc acggaacaga 1261 ctctctgggc aattagccat ccccctctga ctttggtcat tgtgctggtt ctgatatata 1321 ttttttttaa tgaaaggcaa ctttagattt tccctctatc cttgcttttt ttcccttcac 1381 ctcccacgtg tccctccatc cctcccccca cccctctgtt ttgggtatgt acaacagaag 1441 cacaaactac tgaaacaaaa caaaacagca gaatgagcgt tcttccgaga gatggcatcg 1501 tgatgcgcta tttattttcc atagaaatag gaagttagac ggattgtctc ttttctgagg 1561 ggagggggtc tttttgacag gagcagagtt gatgtcctca attttcatat ttattggcaa 1621 aaggaagaga agaggaactt tgggttggaa acaaagaacc aataacatta aaacattatt 1681 atttatatat tctagctgtt attagaatca gacttttttt gcgagagaga gagagagaga 1741 gagagaaggg aaatcaaaga aatcgaagca atatcctgtt tagaggcaag ccgcccggtg 1801 gggagaattt cctcaatggg agacggttgc actattctgt gccccacgga gtttgcggct 1861 ccccgcggca gacccctccc tcattctcct ccctgacctt tccatcttcc tctctgcttg 1921 cgagaaaatg tcagtagttc cagagaagtc ggggtgccta tgcctggcct ccctccacac 1981 ctgggccctg accagccgcc tcctgggctc ctcctcctcc gtcagtagag ctgctgtttt 2041 gttattgctg gtttttcctc actttcctcc tggcaaagaa cgacttccaa atgcagggat 2101 ggaatataag cagaacgtca tgggctcagc agtgactcca ccacccgagg ccgaggccgt 2161 gcttctggaa gatagaagga gacatcatcg tgtgtttccc ctccccttgc ccctgttaag 2221 aaacgtatca atacccattg gatgatcaag gctaccgtat ttcttctatt tttttttata 2281 gtgcctgcca ggcactttgt tttatgtttc caatagcact tcctgaaata aaccaaagca 2341 acactgctca aggcccctgg ggcgatggag aaggccaccc acctcactga cagtcccaag 2401 aatgaccggc tgcgaggtcc tagtcaaaag tcaacattat gacctgggga ctccagcatc 2461 cttcaagcaa gccatttccg aagaaggtga aaagaagcca ggatgattgg cacctcctcc 2521 tcctcctcct cttcttcctc ttcccttgcc cagccccctc ctgtgcgtgt gtttcagaca 2581 acacaggagc cagcacagga gtggaaaatc ctgcagcgca actcagctca gcccacagaa 2641 gccttgggaa tggcctcagt ttgtgcaata agaagatttt ttttttcttt ttaaatcttc 2701 attatatttt ctttgattgt ctgtgagaaa gtacccaggt ccgcctggaa ttactctaca 2761 gtagaaataa ctgaacacaa acaaactgat ggaaaaaaag agttaactat tttatttatt 2821 tcaatattta aaaggaaaaa agtgctgaca tggcacagta tttttgttta aagtacctcc 2881 tacttcaaaa gttaagcgca attttgtgaa gacatgaaat cataagagta cttaatgtaa 2941 aataaaagac tgcatattaa ctctaaagaa aaatgcccca cattttaaat aagaaaataa 3001 agatcaactc tgctctctca ggctttttaa aaagccattc atgtatgtgc tttaggtatt 3061 tttatttctg cgagttggat gtggtaagtg aggagtgctc agtttttttt tcctccttca 3121 aaagtctatt gaaagtgttg gtgatgttaa atgattgtgt gttaagattt gactgaaata 3181 acttagccac aaatcagcag tttcccccac cctcattgcc ccctcacccc aggcaagccc 3241 cttttatctg aatgtcagaa gcagcctgcc tcctagttat catgtctgat gaggtctagc 3301 tcaggaagga attccatcta ttgatggaat atatcccctc aagttcaata gattcgaaca 3361 cagagagctt tgtttaaaat aatgcagcaa aaaaaaaaaa aaaaaaaaag caaaaataaa 3421 agcatcagct gaggtgatat tagttcagtc acctaacaac tcctagaaga gatgaggaaa 3481 gggaaccttc tgctgagctg gcttctgggg cctgagcttc cagagctgtc cccaagggct 3541 aggaaggccg acctgaagga tgagaacctc aaattcagtt gctggtggga gccaaggaag 3601 acggcgggtg ttctaacatg gccctttctg gctgagctgg cggaagtggg cgttttggcc 3661 gatgggatgt atctcggcgc tgtgtctgtg gcccagcaaa ggtgcagggc tgactggctg 3721 agccactggg ttctacccgc aggctcccca ctgcactggg ctttcacaca gccatgctct 3781 tgggtttccc tcccttgtaa gcagagtcat aataacacac gaatagtcta aggctgggta 3841 ttctggtcag cagaggtcct tgagtcacag tgttactgaa atggttctga gcctgagaat 3901 ctctttggcc tctgaaaggg cagggcaggt gggcaccgac ttcctgccag tcctttcagg 3961 tttcctgttc aaagccagtc ctgttggtgg aggggatcac cgagagtgtc tgtatcattt 4021 tgtagccctt ttctctgacg ttttctggta gaaaatgtcc cttgtcaaaa tgctaataat 4081 tatcataata atctgctttc caaccaactc ccacaagtga caacctgtgt agaactgtga 4141 taaaggtttg cataatgtag ggtttgtacc aagtgtgtgt aagtttctgt taaataaaaa 4201 gtctgtttcc aatgctccta t SEQ ID NO: 121 Human DPF3 Amino Acid Sequence Isoform 3 (NP_001267472.1) 1 mgftdleepi sgcpggpwal glgdqfykea iehcrsynsr lcaersvrlp fldsqtgvaq 61 nncyiwmekr hrgpglapgq lytyparcwr kkrrlhpped pklrlleikp evelplkkdg 121 ftsesttlea llrgegvekk vdareeesiq eiqrvlende nveegneeed leedipkrkn 181 rtrgrargsa ggrrrhdaas qedhdkpyvc dicgkryknr pglsyhyaht hlaseegdea 241 qdqetrsppn hrnenhrpqk gpdgtvipnn ycdfclggsn mnkksgrpee lvscadcgrs 301 ahlggegrke keaaaaartt edlfgstses dtstfhgfde ddleeprscr grrsgrgspt 361 adkkgsc SEQ ID NO: 123 Human DPF3 cDNA Sequence Variant 4 (NM_001280544.1, CDS: 307-1545) 1 attctcgtct tcacccctgg ccactcctgg agttgaaaac caggttcgct cccggggacg 61 gtagggggtt cctaacgcaa aggaatgcac agggagaatc ggacgtgttt gcgccagctc 121 gtcgcccatc agaaataggg aaaggggtag gaaggcccca ggtttcaaat atatttatat 181 gaaagctgcc gttaagagga cgttggaagc tgaggctgat cagataggag ctcctggctt 241 cagttctggc tcggaagctc ggatacactg cgcttgaacg ccacagcgtt tcacccaaga 301 aagaaaatgt tttatggcag aataaatggg cgtaacttcg ccgcatcctc gctgccggtt 361 gctttcgctg caacaccgct gatgctgttt ctaccgaacc cacaactgat tttcagtttc 421 cccatttcca gccgaaatca cataaccggg ctgatgccac ctggtaaact caagttagag 481 aacctatttc acatgtgcac caggctcggg gaccagttct acaaggaagc cattgagcac 541 tgccggagtt acaactcacg gctgtgtgca gagcgcagcg tgcgtcttcc cttcctggac 601 tcacagactg gggtggccca gaacaactgc tacatctgga tggagaagag gcaccgaggc 661 ccaggccttg ccccgggcca gctgtataca taccctgccc gctgctggcg caagaagaga 721 cgattgcacc cacctgaaga tccaaaactg cggctgctgg agataaaacc tgaagtggag 781 cttcccctga agaaggatgg gttcacctca gagagcacca cgctggaagc cttgctccgt 841 ggcgaggggg ttgagaagaa ggtggatgcc agggaggagg aaagcatcca ggaaatacag 901 agggttttgg aaaatgatga aaatgtagaa gaagggaatg aagaagagga tttggaagag 961 gatattccca agcgaaagaa caggactaga ggacgggctc gcggctctgc agggggcagg 1021 aggaggcacg acgccgcctc tcaggaagac cacgacaaac cttacgtctg tgacatctgt 1081 ggcaagcgct acaagaaccg accggggctc agctaccact atgctcacac tcacctggcc 1141 agcgaggagg gggatgaagc tcaagaccag gagactcggt ccccacccaa ccacagaaat 1201 gagaaccaca ggccccagaa aggaccggat ggaacagtca ttcccaataa ctactgtgac 1261 ttctgcttgg ggggctccaa catgaacaag aagagtgggc ggcctgaaga gctggtgtcc 1321 tgcgcagact gtggacgctc tgctcatttg ggaggagaag gcaggaagga gaaggaggca 1381 gcggccgcag cacgtaccac ggaggactta ttcggttcca cgtcagaaag tgacacgtca 1441 actttccacg gctttgatga ggacgatttg gaagagcctc gctcctgtcg aggacgccgc 1501 agtggccggg gttcgcccac agcagataaa aagggcagtt gctaaaccca cggaacagac 1561 tctctgggca attagccatc cccctctgac tttggtcatt gtgctggttc tgatatatat 1621 tttttttaat gaaaggcaac tttagatttt ccctctatcc ttgctttttt tcccttcacc 1681 tcccacgtgt ccctccatcc ctccccccac ccctctgttt tgggtatgta caacagaagc 1741 acaaactact gaaacaaaac aaaacagcag aatgagcgtt cttccgagag atggcatcgt 1801 gatgcgctat ttattttcca tagaaatagg aagttagacg gattgtctct tttctgaggg 1861 gagggggtct ttttgacagg agcagagttg atgtcctcaa ttttcatatt tattggcaaa 1921 aggaagagaa gaggaacttt gggttggaaa caaagaacca ataacattaa aacattatta 1981 tttatatatt ctagctgtta ttagaatcag actttttttg cgagagagag agagagagag 2041 agagaaggga aatcaaagaa atcgaagcaa tatcctgttt agaggcaagc cgcccggtgg 2101 ggagaatttc ctcaatggga gacggttgca ctattctgtg ccccacggag tttgcggctc 2161 cccgcggcag acccctccct cattctcctc cctgaccttt ccatcttcct ctctgcttgc 2221 gagaaaatgt cagtagttcc agagaagtcg gggtgcctat gcctggcctc cctccacacc 2281 tgggccctga ccagccgcct cctgggctcc tcctcctccg tcagtagagc tgctgttttg 2341 ttattgctgg tttttcctca ctttcctcct ggcaaagaac gacttccaaa tgcagggatg 2401 gaatataagc agaacgtcat gggctcagca gtgactccac cacccgaggc cgaggccgtg 2461 cttctggaag atagaaggag acatcatcgt gtgtttcccc tccccttgcc cctgttaaga 2521 aacgtatcaa tacccattgg atgatcaagg ctaccgtatt tcttctattt ttttttatag 2581 tgcctgccag gcactttgtt ttatgtttcc aatagcactt cctgaaataa accaaagcaa 2641 cactgctcaa ggcccctggg gcgatggaga aggccaccca cctcactgac agtcccaaga 2701 atgaccggct gcgaggtcct agtcaaaagt caacattatg acctggggac tccagcatcc 2761 ttcaagcaag ccatttccga agaaggtgaa aagaagccag gatgattggc acctcctcct 2821 cctcctcctc ttcttcctct tcccttgccc agccccctcc tgtgcgtgtg tttcagacaa 2881 cacaggagcc agcacaggag tggaaaatcc tgcagcgcaa ctcagctcag cccacagaag 2941 ccttgggaat ggcctcagtt tgtgcaataa gaagattttt tttttctttt taaatcttca 3001 ttatattttc tttgattgtc tgtgagaaag tacccaggtc cgcctggaat tactctacag 3061 tagaaataac tgaacacaaa caaactgatg gaaaaaaaga gttaactatt ttatttattt 3121 caatatttaa aaggaaaaaa gtgctgacat ggcacagtat ttttgtttaa agtacctcct 3181 acttcaaaag ttaagcgcaa ttttgtgaag acatgaaatc ataagagtac ttaatgtaaa 3241 ataaaagact gcatattaac tctaaagaaa aatgccccac attttaaata agaaaataaa 3301 gatcaactct gctctctcag gctttttaaa aagccattca tgtatgtgct ttaggtattt 3361 ttatttctgc gagttggatg tggtaagtga ggagtgctca gttttttttt cctccttcaa 3421 aagtctattg aaagtgttgg tgatgttaaa tgattgtgtg ttaagatttg actgaaataa 3481 cttagccaca aatcagcagt ttcccccacc ctcattgccc cctcacccca ggcaagcccc 3541 ttttatctga atgtcagaag cagcctgcct cctagttatc atgtctgatg aggtctagct 3601 caggaaggaa ttccatctat tgatggaata tatcccctca agttcaatag attcgaacac 3661 agagagcttt gtttaaaata atgcagcaaa aaaaaaaaaa aaaaaaaagc aaaaataaaa 3721 gcatcagctg aggtgatatt agttcagtca cctaacaact cctagaagag atgaggaaag 3781 ggaaccttct gctgagctgg cttctggggc ctgagcttcc agagctgtcc ccaagggcta 3841 ggaaggccga cctgaaggat gagaacctca aattcagttg ctggtgggag ccaaggaaga 3901 cggcgggtgt tctaacatgg ccctttctgg ctgagctggc ggaagtgggc gttttggccg 3961 atgggatgta tctcggcgct gtgtctgtgg cccagcaaag gtgcagggct gactggctga 4021 gccactgggt tctacccgca ggctccccac tgcactgggc tttcacacag ccatgctctt 4081 gggtttccct cccttgtaag cagagtcata ataacacacg aatagtctaa ggctgggtat 4141 tctggtcagc agaggtcctt gagtcacagt gttactgaaa tggttctgag cctgagaatc 4201 tctttggcct ctgaaagggc agggcaggtg ggcaccgact tcctgccagt cctttcaggt 4261 ttcctgttca aagccagtcc tgttggtgga ggggatcacc gagagtgtct gtatcatttt 4321 gtagcccttt tctctgacgt tttctggtag aaaatgtccc ttgtcaaaat gctaataatt 4381 atcataataa tctgctttcc aaccaactcc cacaagtgac aacctgtgta gaactgtgat 4441 aaaggtttgc ataatgtagg gtttgtacca agtgtgtgta agtttctgtt aaataaaaag 4501 tctgtttcca atgctcctat SEQ ID NO: 124 Human DPF3 Amino Acid Sequence Isoform 4 (NP_001267473.1) 1 mfygringrn faasslpvaf aatplmlflp npqlifsfpi ssrnhitglm ppgklklenl 61 fhmctrlgdg fykeaiehcr synsrlcaer svrlpfldsq tgvagnncyi wmekrhrgpg 121 lapgqlytyp arcwrkkrrl hppedpklrl leikpevelp lkkdgftses ttleallrge 181 gvekkvdare eesigeigry lendenveeg neeedleedi pkrknrtrgr argsaggrrr 241 hdaasqedhd kpyvcdicgk ryknrpglsy hyahthlase egdeagdget rsppnhrnen 301 hrpqkgpdgt vipnnycdfc lggsnmnkks grpeelvsca dcgrsahlgg egrkekeaaa 361 aarttedlfg stsesdtstf hgfdeddlee prscrgrrsg rgsptadkkg sc SEQ ID NO: 125 Mouse DPF3 cDNA Sequence Variant 1 (NM_001267625.1, CDS: 29-1165) 1 agacaatatt ctgttacatt gtagcaaaat ggcgactgtc attcacaacc ccctgaaagc 61 gcttggggac cagttctaca aggaagccat tgagcactgc cggagctaca actcgaggct 121 gtgcgcagag cggagcgtgc gtctcccctt cctggactcg cagactgggg tggctcagaa 181 caactgctac atctggatgg agaagaggca ccgcggccca ggcctcgctc cgggccagtt 241 gtacacatac cctgcccgct gctggcgcaa gaagcgacga ttgcacccac cagaggaccc 301 aaaactacga ctcctggaaa tcaaacccga agtagaactg cccctgaaga aagatggatt 361 tacctctgag agtaccacac tggaagcctt gcttcgcggc gagggagtag agaagaaggt 421 ggatgccaga gaagaggaaa gcatccagga gatacagagg gttttggaaa atgatgaaaa 481 cgtagaagaa gggaatgaag aggaggattt ggaagaagat gttcccaagc gcaagaacag 541 gaccagagga cgggctcgcg gctctgcagg cggaaggagg aggcatgatg ccgcctctca 601 ggaagaccac gacaaaccct acgtctgcga catctgtggc aagcgctaca agaaccggcc 661 aggactcagc taccactacg ctcatactca cctggccagc gaggagggag acgaagccca 721 agaccaggag acccgatccc cacccaacca cagaaatgag aaccacagac cccagaaagg 781 accagacggg acagtcattc ctaataacta ctgtgacttc tgcttggggg gctccaacat 841 gaacaagaag agtgggaggc ctgaagagct ggtgtcctgt gcagactgtg gacgctctgg 901 tcatccaact tgcctgcagt tcactctgaa catgactgag gcagttaaga cctacaagtg 961 gcagtgcata gagtgtaaat cctgtatcct gtgtgggacc tcggagaacg acgaccagct 1021 actcttctgt gatgactgcg atcgtggcta tcacatgtac tgtttaaatc ccccagtggc 1081 tgagccccca gaaggaagct ggagctgcca tttatgctgg gagctgctca aagagaaagc 1141 atcagccttt ggctgccagg cctagggctc cacccaggtc acagagtgca gcccaccact 1201 agagaggctg aactgaagcc ctgttcaacc cagatggagg tctcctcctg tatatgcaca 1261 cagaccaact acaaggaaaa cgaatagtta cagaagggaa cggagggagc aaggtctcca 1321 ctcacttctc gccctaccca tgacctccca ccccacacat ccttcagcca gctcttcctc 1381 atttctacca gcgggaactt ggcacttttg aagaataatc cagccccggc tctgtggaaa 1441 cttcctcatg ttcactgtca caggcatctc tctttgttgc ttcttgtttt ggaggaagcc 1501 attttgtgac tgctcatcaa ccactcgtgt gttgcttggt ggggttcttg ttttgttgtc 1561 tattgtgttt caagaacttg tcacagagtg tcctcaccct tagcttaggc tcttcatcct 1621 gaaactcaca gaggaacaaa atgccgtggt ggggaagctc ctgcctatta cgagtctcac 1681 tggaagcatc catgtttgga ggccatcttg aagacagaac ttggaaaatg tcttggtttt 1741 cttagtctct gctgagaaga gaagttgtag catttgagcc ttggcagtag catccccagc 1801 tgcgatgacc ttgatccact gcactgccat ttgatcaggg gttcagaggg cctgggagat 1861 gggaggaaca cttggggccc tgctatagcc agccagtatt tgctgttcct caggagggac 1921 taggtggttc cttgaccttc agaactgtgg tgtccttgag gtgagacaac acagtctcta 1981 aacacagaaa agtgctgaag atcctgcccc caaccgaatt gaccgtgaag gtctggctca 2041 gtctctgggg ggtgggactc aagctctgga gaggtgggca aaggatgccc attcaacagt 2101 ccagggttgg ttagaagaga ctgtatgtag ctttgagaaa ctctcccagt attgatgcta 2161 cactatggat ttcttttctg ggcaatttct tccttccatg tagtatatgt ttgccaatga 2221 ccactgagat gtgactggaa attttagaat ggtgaagaga tgaacattac ttaaccagat 2281 cattgggcac agtgattact tgtgactggg tggcaatgat tcagagccct tgtccgttct 2341 tgcaccctaa gctcccccat atggaatggg ctctcgtttg aagcaaggtt tctagaagat 2401 gtaggaaggt ctagattctg agaactcttg tgtgtcagaa gagaagcctt gagggctgga 2461 gtgggctggg ctgcctttga cgcacggcac cagcatgata actgacacat ttctggaaaa 2521 atcgtttgcc caaagggcag gtctccgtga gcaggaccct cgcgcatgct cggcttccct 2581 ggattcagct ccatcgctgt ggtccagcag cttgcaacaa aggcctgggt tatttttagt 2641 cgtcagctcc tgaagaagcc cctggagacc tgggctggct gggcccctct gcccagcggc 2701 agcatggcct ctgccactcc acaggagtca tcctccccct ggctaattgc tcttggcacg 2761 tggacccagg gcagcctggc atggaaccaa gcagtgtgac cccccctgca acttctttgc 2821 agagtgacct gtggcaagag agtgggggtc actttcctgc aggccctgtg gcctcagagc 2881 tagttccatg catacgaaat gatctcattt aaagggcccc tgtccagaga gcatctgtct 2941 cctcctctca agctctcttc ttcctcctgc tggttgctgt gcctgtgtgg attcaaaaga 3001 cccaagggag ggctggagga atggcccgtc tccacggagg ggtacattcc ctctccagac 3061 tctgcgggct ctctcgttcc acaaaaccca aagcagagta tcttcagaga ctaactactt 3121 gtttggggga tcatattaaa ttaatttcag aaggg SEQ ID NO: 126 Mouse DPF3 Amino Acid Sequence Isoform 1 (NP_001254554.1) 1 matvihnplk algdqfykea iehcrsynsr lcaersvrlp fldsqtgvaq nncyiwmekr 61 hrgpglapgq lytyparcwr kkrrlhpped pklrlleikp evelplkkdg ftsesttlea 121 llrgegvekk vdareeesiq eiqrvlende nveegneeed leedvpkrkn rtrgrargsa 181 ggrrrhdaas qedhdkpyvc dicgkryknr pglsyhyaht hlaseegdea qdgetrsppn 241 hrnenhrpqk gpdgtvipnn ycdfclggsn mnkksgrpee lvscadcgrs ghptclqftl 301 nmteavktyk wqciecksci lcgtsenddq llfcddcdrg yhmyclnppv aeppegswsc 361 hlcwellkek asafgcqa SEQ ID NO: 127 Mouse DPF3 cDNA Sequence Variant 2 (NM_001267626.1, CDS: 29-1102) 1 agacaatatt ctgttacatt gtagcaaaat ggcgactgtc attcacaacc ccctgaaagc 61 gcttggggac cagttctaca aggaagccat tgagcactgc cggagctaca actcgaggct 121 gtgcgcagag cggagcgtgc gtctcccctt cctggactcg cagactgggg tggctcagaa 181 caactgctac atctggatgg agaagaggca ccgcggccca ggcctcgctc cgggccagtt 241 gtacacatac cctgcccgct gctggcgcaa gaagcgacga ttgcacccac cagaggaccc 301 aaaactacga ctcctggaaa tcaaacccga agtagaactg cccctgaaga aagatggatt 361 tacctctgag agtaccacac tggaagcctt gcttcgcggc gagggagtag agaagaaggt 421 ggatgccaga gaagaggaaa gcatccagga gatacagagg gttttggaaa atgatgaaaa 481 cgtagaagaa gggaatgaag aggaggattt ggaagaagat gttcccaagc gcaagaacag 541 gaccagagga cgggctcgcg gctctgcagg cggaaggagg aggcatgatg ccgcctctca 601 ggaagaccac gacaaaccct acgtctgcga catctgtggc aagcgctaca agaaccggcc 661 aggactcagc taccactacg ctcatactca cctggccagc gaggagggag acgaagccca 721 agaccaggag acccgatccc cacccaacca cagaaatgag aaccacagac cccagaaagg 781 accagacggg acagtcattc ctaataacta ctgtgacttc tgcttggggg gctccaacat 841 gaacaagaag agtgggaggc ctgaagagct ggtgtcctgt gcagactgtg gacgctctgc 901 tcatttggga ggagaaggca ggaaggagaa ggaggcagcg gccgcagcac gtaccacgga 961 ggacttattc ggttccacgt cagaaagtga cacctcaact ttctacggct ttgatgagga 1021 cgatttggaa gagcctcgct cctgtcgagg acgccgcagt ggccggggtt cacccacagc 1081 agataaaaag ggcagctgct gagcacatgg gacagactgt gtggccaatt agccacccct 1141 ccccctgact ctggtcattg ttctagttct gatatatatt tttaaatgaa agacaacttg 1201 ggcatttccc ttaatccttg ccttttcctt ctgcctccca cgtgtccctc cctctcctag 1261 cttccttcta ttttgggtac aacagaagca cacactactg agaaccaggg aagagcagga 1321 tgagagtcct ctggggagcc atggcatcat ggcgggctct tatggactct tatccctaga 1381 agtaggagaa attaagagga ttttctgtca ctgggggagg gcatcttttt gatgtgagca 1441 gagttgattt cctgttttca agagaagagg aacatgaggt ttgaaaacaa ataacattaa 1501 caatatttat ttataaaaaa aaaaaaaaaa aa SEQ ID NO: 128 Mouse DPF3 Amino Acid Sequence Isoform 2 (NP_001254555.1) 1 matvihnplk algdqfykea iehcrsynsr lcaersvrlp fldsqtgvaq nncyiwmekr 61 hrgpglapgq lytyparcwr kkrrlhpped pklrlleikp evelplkkdg ftsesttlea 121 llrgegvekk vdareeesiq eiqrvlende nveegneeed leedvpkrkn rtrgrargsa 181 ggrrrhdaas qedhdkpyvc dicgkryknr pglsyhyaht hlaseegdea qdgetrsppn 241 hrnenhrpqk gpdgtvipnn ycdfclggsn mnkksgrpee lvscadcgrs ahlggegrke 301 keaaaaartt edlfgstses dtstfygfde ddleeprscr grrsgrgspt adkkgsc SEQ ID NO: 129 Mouse DPF3 cDNA Sequence Variant 3 (NM_058212.2, CDS: 29-1099) 1 agacaatatt ctgttacatt gtagcaaaat ggcgactgtc attcacaacc ccctgaaagc 61 gcttggggac cagttctaca aggaagccat tgagcactgc cggagctaca actcgaggct 121 gtgcgcagag cggagcgtgc gtctcccctt cctggactcg cagactgggg tggctcagaa 181 caactgctac atctggatgg agaagaggca ccgcggccca ggcctcgctc cgggccagtt 241 gtacacatac cctgcccgct gctggcgcaa gaagcgacga ttgcacccac cagaggaccc 301 aaaactacga ctcctggaaa tcaaacccgt agaactgccc ctgaagaaag atggatttac 361 ctctgagagt accacactgg aagccttgct tcgcggcgag ggagtagaga agaaggtgga 421 tgccagagaa gaggaaagca tccaggagat acagagggtt ttggaaaatg atgaaaacgt 481 agaagaaggg aatgaagagg aggatttgga agaagatgtt cccaagcgca agaacaggac 541 cagaggacgg gctcgcggct ctgcaggcgg aaggaggagg catgatgccg cctctcagga 601 agaccacgac aaaccctacg tctgcgacat ctgtggcaag cgctacaaga accggccagg 661 actcagctac cactacgctc atactcacct ggccagcgag gagggagacg aagcccaaga 721 ccaggagacc cgatccccac ccaaccacag aaatgagaac cacagacccc agaaaggacc 781 agacgggaca gtcattccta ataactactg tgacttctgc ttggggggct ccaacatgaa 841 caagaagagt gggaggcctg aagagctggt gtcctgtgca gactgtggac gctctgctca 901 tttgggagga gaaggcagga aggagaagga ggcagcggcc gcagcacgta ccacggagga 961 cttattcggt tccacgtcag aaagtgacac ctcaactttc tacggctttg atgaggacga 1021 tttggaagag cctcgctcct gtcgaggacg ccgcagtggc cggggttcac ccacagcaga 1081 taaaaagggc agctgctgag cacatgggac agactgtgtg gccaattagc cacccctccc 1141 cctgactctg gtcattgttc tagttctgat atatattttt aaatgaaaga caacttgggc 1201 atttccctta atccttgcct tttccttctg cctcccacgt gtccctccct ctcctagctt 1261 ccttctattt tgggtacaac agaagcacac actactgaga accagggaag agcaggatga 1321 gagtcctctg gggagccatg gcatcatggc gggctcttat ggactcttat ccctagaagt 1381 aggagaaatt aagaggattt tctgtcactg ggggagggca tctttttgat gtgagcagag 1441 ttgatttcct gttttcaaga gaagaggaac atgaggtttg aaaacaaata acattaacaa 1501 tatttattta taaaaaaaaa aaaaaaaaa SEQ ID NO: 130 Mouse DPF3 Amino Acid Sequence Isoform 3 (NP_478119.1) 1 matvihnplk algdqfykea iehcrsynsr lcaersvrlp fldsqtgvaq nncyiwmekr 61 hrgpglapgq lytyparcwr kkrrlhpped pklrlleikp velplkkdgf tsesttleal 121 lrgegvekkv dareeesiqe iqrvlenden veegneeedl eedvpkrknr trgrargsag 181 grrrhdaasq edhdkpyvcd icgkryknrp glsyhyahth laseegdeaq dgetrsppnh 241 rnenhrpqkg pdgtvipnny cdfclggsnm nkksgrpeel vscadcgrsa hlggegrkek 301 eaaaaartte dlfgstsesd tstfygfded dleeprscrg rrsgrgspta dkkgsc SEQ ID NO: 131 Human ACTL6A cDNA Sequence variant 1 (NM_004301.4, CDS: 214-1503) 1 agacttaggc ctggacccta gtgattggct gataggagga gccagcaagt gtggctgagc 61 tccggggtgt gtggacgccg ctttgttgcc tgaggtgggt ggcggtggaa gttaagggag 121 tcaggggcta tcgctcctcg agactcgcag tcgcggccac tgcagtcact tcgccagtta 181 gcccttaggg taggagtcgc gccggcagca gccatgagcg gcggcgtgta cgggggagat 241 gaagttggag cccttgtttt tgacattgga tcctatactg tgagagctgg ttatgctggt 301 gaggactgcc ccaaggtgga ttttcctaca gctattggta tggtggtaga aagagatgac 361 ggaagcacat taatggaaat agatggcgat aaaggcaaac aaggcggtcc cacctactac 421 atagatacta atgctctgcg tgttccgagg gagaatatgg aggccatttc acctctaaaa 481 aatgggatgg ttgaagactg ggatagtttc caagctattt tggatcatac ctacaaaatg 541 catgtcaaat cagaagccag tctccatcct gttctcatgt cagaggcacc gtggaatact 601 agagcaaaga gagagaaact gacagagtta atgtttgaac actacaacat ccctgccttc 661 ttcctttgca aaactgcagt tttgacagca tttgctaatg gtcgttctac tgggctgatt 721 ttggacagtg gagccactca taccactgca attccagtcc acgatggcta tgtccttcaa 781 caaggcattg tgaaatcccc tcttgctgga gactttatta ctatgcagtg cagagaactc 841 ttccaagaaa tgaatattga attggttcct ccatatatga ttgcatcaaa agaagctgtt 901 cgtgaaggat ctccagcaaa ctggaaaaga aaagagaagt tgcctcaggt tacgaggtct 961 tggcacaatt atatgtgtaa ttgtgttatc caggattttc aagcttcggt acttcaagtg 1021 tcagattcaa cttatgatga acaagtggct gcacagatgc caactgttca ttatgaattc 1081 cccaatggct acaattgtga ttttggtgca gagcggctaa agattccaga aggattattt 1141 gacccttcca atgtaaaggg gttatcagga aacacaatgt taggagtcag tcatgttgtc 1201 accacaagtg ttgggatgtg tgatattgac atcagaccag gtctctatgg cagtgtaata 1261 gtggcaggag gaaacacact aatacagagt tttactgaca ggttgaatag agagctgtct 1321 cagaaaactc ctccaagtat gcggttgaaa ttgattgcaa ataatacaac agtggaacgg 1381 aggtttagct catggattgg cggctccatt ctagcctctt tgggtacctt tcaacagatg 1441 tggatttcca agcaagaata tgaagaagga gggaagcagt gtgtagaaag aaaatgccct 1501 tgagaaagag ttcccaagct tctaccttcc ttttgtcacc ttacgtttca tagctttagt 1561 atactcagga aaagaatgac catcttttgt agaatgttta tacatttttg catatttcaa 1621 tttccactta aattttttaa agctttaact ggctctataa attaagtttg tgctttcctt 1681 gaaatgcact tattcttatt acaagcattt tataattttg tataaatgtc tattttctct 1741 aaatattttg ctttcagtaa aatgctttcc aactctgttt agtgtattaa ttaccagtgg 1801 attggtagaa ctgcttttta ttgactagta aaagttactg cctatgcttt ttaccttagg 1861 cttacagaat taaataaaaa ttagccattc cagaaataaa aaaaaaaaaa aaaaaaaaaa 1921 aaaaaaaaaa aa SEQ ID NO: 132 Human ACTL6A Amino Acid Sequence isoform 1 (NP_004292.1) 1 msggvyggde vgalvfdigs ytvragyage dcpkvdfpta igmvverddg stlmeidgdk 61 gkqggptyyi dtnalrvpre nmeaisplkn gmvedwdsfq aildhtykmh vkseaslhpv 121 lmseapwntr akrekltelm fehynipaff lcktavltaf angrstglil dsgathttai 181 pvhdgyvlqq givksplagd fitmqcrelf qemnielvpp ymiaskeavr egspanwkrk 241 eklpqvtrsw hnymcncviq dfgasvlqvs dstydeqvaa qmptvhyefp ngyncdfgae 301 rlkipeglfd psnvkglsgn tmlgvshvvt tsvgmcdidi rpglygsviv aggntliqsf 361 tdrinrelsq ktppsmrlkl iannttverr fsswiggsil aslgtfqqmw iskqeyeegg 421 kqcverkcp SEQ ID NO: 133 Human ACTL6A cDNA Sequence variant 2 (NM_177989.3; CDS: 196-1359) 1 agacttaggc ctggacccta gtgattggct gataggagga gccagcaagt gtggctgagc 61 tccggggtgt gtggacgccg ctttgttgcc tgagatgaag ttggagccct tgtttttgac 121 attggatcct atactgtgag agctggttat gctggtgagg actgccccaa ggtggatttt 181 cctacagcta ttggtatggt ggtagaaaga gatgacggaa gcacattaat ggaaatagat 241 ggcgataaag gcaaacaagg cggtcccacc tactacatag atactaatgc tctgcgtgtt 301 ccgagggaga atatggaggc catttcacct ctaaaaaatg ggatggttga agactgggat 361 agtttccaag ctattttgga tcatacctac aaaatgcatg tcaaatcaga agccagtctc 421 catcctgttc tcatgtcaga ggcaccgtgg aatactagag caaagagaga gaaactgaca 481 gagttaatgt ttgaacacta caacatccct gccttcttcc tttgcaaaac tgcagttttg 541 acagcatttg ctaatggtcg ttctactggg ctgattttgg acagtggagc cactcatacc 601 actgcaattc cagtccacga tggctatgtc cttcaacaag gcattgtgaa atcccctctt 661 gctggagact ttattactat gcagtgcaga gaactcttcc aagaaatgaa tattgaattg 721 gttcctccat atatgattgc atcaaaagaa gctgttcgtg aaggatctcc agcaaactgg 781 aaaagaaaag agaagttgcc tcaggttacg aggtcttggc acaattatat gtgtaattgt 841 gttatccagg attttcaagc ttcggtactt caagtgtcag attcaactta tgatgaacaa 901 gtggctgcac agatgccaac tgttcattat gaattcccca atggctacaa ttgtgatttt 961 ggtgcagagc ggctaaagat tccagaagga ttatttgacc cttccaatgt aaaggggtta 1021 tcaggaaaca caatgttagg agtcagtcat gttgtcacca caagtgttgg gatgtgtgat 1081 attgacatca gaccaggtct ctatggcagt gtaatagtgg caggaggaaa cacactaata 1141 cagagtttta ctgacaggtt gaatagagag ctgtctcaga aaactcctcc aagtatgcgg 1201 ttgaaattga ttgcaaataa tacaacagtg gaacggaggt ttagctcatg gattggcggc 1261 tccattctag cctctttggg tacctttcaa cagatgtgga tttccaagca agaatatgaa 1321 gaaggaggga agcagtgtgt agaaagaaaa tgcccttgag aaagagttcc caagcttcta 1381 ccttcctttt gtcaccttac gtttcatagc tttagtatac tcaggaaaag aatgaccatc 1441 ttttgtagaa tgtttataca tttttgcata tttcaatttc cacttaaatt ttttaaagct 1501 ttaactggct ctataaatta agtttgtgct ttccttgaaa tgcacttatt cttattacaa 1561 gcattttata attttgtata aatgtctatt ttctctaaat attttgcttt cagtaaaatg 1621 ctttccaact ctgtttagtg tattaattac cagtggattg gtagaactgc tttttattga 1681 ctagtaaaag ttactgccta tgctttttac cttaggctta cagaattaaa taaaaattag 1741 ccattccaga aataaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaa SEQ ID NO: 134 Human ACTL6A cDNA Sequence variant 3 (NM_178042.3; CDS: 388-1551) 1 agacttaggc ctggacccta gtgattggct gataggagga gccagcaagt gtggctgagc 61 tccggggtgt gtggacgccg ctttgttgcc tgaggtgggt ggcggtggaa gttaagggag 121 tcaggggcta tcgctcctcg agactcgcag tcgcggccac tgcagtcact tcgccagtta 181 gcccttaggg taggagtcgc gccggcagca gccatgagcg gcggcgtgta cgggggaggt 241 gagtgagtgc ggccggacga gagagcgcgc cttttcggcg tgtgggatga agttggagcc 301 cttgtttttg acattggatc ctatactgtg agagctggtt atgctggtga ggactgcccc 361 aaggtggatt ttcctacagc tattggtatg gtggtagaaa gagatgacgg aagcacatta 421 atggaaatag atggcgataa aggcaaacaa ggcggtccca cctactacat agatactaat 481 gctctgcgtg ttccgaggga gaatatggag gccatttcac ctctaaaaaa tgggatggtt 541 gaagactggg atagtttcca agctattttg gatcatacct acaaaatgca tgtcaaatca 601 gaagccagtc tccatcctgt tctcatgtca gaggcaccgt ggaatactag agcaaagaga 661 gagaaactga cagagttaat gtttgaacac tacaacatcc ctgccttctt cctttgcaaa 721 actgcagttt tgacagcatt tgctaatggt cgttctactg ggctgatttt ggacagtgga 781 gccactcata ccactgcaat tccagtccac gatggctatg tccttcaaca aggcattgtg 841 aaatcccctc ttgctggaga ctttattact atgcagtgca gagaactctt ccaagaaatg 901 aatattgaat tggttcctcc atatatgatt gcatcaaaag aagctgttcg tgaaggatct 961 ccagcaaact ggaaaagaaa agagaagttg cctcaggtta cgaggtcttg gcacaattat 1021 atgtgtaatt gtgttatcca ggattttcaa gcttcggtac ttcaagtgtc agattcaact 1081 tatgatgaac aagtggctgc acagatgcca actgttcatt atgaattccc caatggctac 1141 aattgtgatt ttggtgcaga gcggctaaag attccagaag gattatttga cccttccaat 1201 gtaaaggggt tatcaggaaa cacaatgtta ggagtcagtc atgttgtcac cacaagtgtt 1261 gggatgtgtg atattgacat cagaccaggt ctctatggca gtgtaatagt ggcaggagga 1321 aacacactaa tacagagttt tactgacagg ttgaatagag agctgtctca gaaaactcct 1381 ccaagtatgc ggttgaaatt gattgcaaat aatacaacag tggaacggag gtttagctca 1441 tggattggcg gctccattct agcctctttg ggtacctttc aacagatgtg gatttccaag 1501 caagaatatg aagaaggagg gaagcagtgt gtagaaagaa aatgcccttg agaaagagtt 1561 cccaagcttc taccttcctt ttgtcacctt acgtttcata gctttagtat actcaggaaa 1621 agaatgacca tcttttgtag aatgtttata catttttgca tatttcaatt tccacttaaa 1681 ttttttaaag ctttaactgg ctctataaat taagtttgtg ctttccttga aatgcactta 1741 ttcttattac aagcatttta taattttgta taaatgtcta ttttctctaa atattttgct 1801 ttcagtaaaa tgctttccaa ctctgtttag tgtattaatt accagtggat tggtagaact 1861 gctttttatt gactagtaaa agttactgcc tatgcttttt accttaggct tacagaatta 1921 aataaaaatt agccattcca gaaataaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa SEQ ID NO: 135 Human ACTL6A Amino Acid Sequence isoform 2 (NP_817126.1 and NP_829888.1) 1 mvverddgst lmeidgdkgk qggptyyidt nalrvprenm eaisplkngm vedwdsfqai 61 ldhtykmhvk seaslhpvlm seapwntrak rekltelmfe hynipafflc ktavltafan 121 grstglilds gathttaipv hdgyvlqqgi vksplagdfi tmqcrelfqe mnielvppym 181 iaskeavreg spanwkrkek lpqvtrswhn ymcncvigdf qasvlqvsds tydeqvaaqm 241 ptvhyefpng yncdfgaerl kipeglfdps nvkglsgntm lgvshvvtts vgmcdidirp 301 glygsvivag gntliqsftd rlnrelsqkt ppsmrlklia nnttverrfs swiggsilas 361 lgtfqqmwis kqeyeeggkq cverkcp SEQ ID NO: 136 Mouse ACTL6A cDNA Sequence (NM_019673.2; CDS: 311-1600) 1 cttcttctgt cgcttctccc tctccctgcc cctacggatg ccttccattg gctaagacgg 61 ctaaaccgcg cggggatgca gcagcgccac actctgattg gctaatgact aagccggacc 121 ctttgtcatt ggttgatacg agaaaccagc aagagtggct gtgcagcggg cgtgcggccg 181 ctgctttgtt gccggagggg gcggcgttgg aagttgcagg cttgcggggc cggcgttctc 241 agggagagga gtcacgccgc tgttatcttt cgtccggtag tcttcggcca gtccccgcca 301 gacagtagcc atgagcggcg gcgtgtacgg cggagatgaa gttggcgctc ttgtttttga 361 cattggatcg tacacagtga gggctggcta tgctggcgag gactgcccta aggttgattt 421 ccccacggct atcggtgtgg tgctggagag agatgacgga agtacaatga tggagattga 481 tggtgacaaa ggcaagcagg gcgggcccac ctactacata gacaccaatg ccctccgcgt 541 gcccagggag aacatggagg ccatctcacc actcaagaat ggcatggttg aagactggga 601 tagtttccag gccattttgg atcatacata caagatgcat gtcaaatccg aagccagcct 661 gcatcctgtt ctcatgtcgg aagcaccgtg gaacaccagg gcgaagagag agaaactgac 721 agagttgatg tttgagcact acagcatccc tgcattcttc ctttgcaaaa ctgcagtttt 781 gacggcattt gctaatggtc gttctactgg gctgattttg gacagtggag ctacccacac 841 cactgcgatt ccagtccacg atggctatgt tcttcaacaa ggcattgtga aatcccctct 901 ggctggagac ttcattacca tgcagtgcag agaactcttc caggaaatga acatagaact 961 cattcctcct tacatgattg catcaaaaga ggctgttcga gaaggttctc cagccaactg 1021 gaaaagaaaa gagaaactgc cccaggttac aaggtcttgg cacaattaca tgtgcaactg 1081 cgtcatccag gattttcaag cttccgttct tcaggtgtca gactccacct acgacgaaca 1141 agtggctgca cagatgccaa ccgtccacta cgaattcccc aatggctaca actgtgattt 1201 tggggcagag cggctgaaaa ttcctgaagg gttatttgac ccttccaacg taaagggact 1261 gtctgggaac acgatgctgg gagtcagtca cgttgtcaca accagcgtcg gaatgtgtga 1321 catcgacatc agaccaggtc tctacggcag tgtgatcgta gcaggaggaa acacgctaat 1381 acagagtttc actgacaggt taaatagaga gctttctcag aaaactccac caagtatgcg 1441 gttgaaactg attgcaaaca acacgacggt ggagcggagg ttcagctcat ggattggtgg 1501 ctctatccta gcatctttgg gtacctttca acagatgtgg atttctaaac aggaatatga 1561 agaaggaggg aagcagtgtg tagaaagaaa atgcccttga gggctccacc ctgcctgccc 1621 gtcacctcaa cgtctgtagc tttagtacac tcaggaaaag atgaccatct tttgtagaat 1681 gtttatacat gtttgcatat ttcaatttcc acttaaattt tttaaggctt taactggctc 1741 tataaattaa atgagtttgt gctttccttg aaatgcactt attcttatta caggcatttt 1801 ataattttgt atgaatgtct attttctcta aatattttgc tttcagtaag tactctccag 1861 ctctcctggg ggttggttgg tggaattact ctgtattgac aagtacaagt tactgcctat 1921 gctttgtacc ttaggctaca aaactaaata aaaatcacta ctgtcctag SEQ ID NO: 137 Mouse ACTL6A Amino Acid Sequence (NP_062647.2) 1 msggvyggde vgalvfdigs ytvragyage dcpkvdfpta igvvlerddg stmmeidgdk 61 gkqggptyyi dtnalrvpre nmeaisplkn gmvedwdsfq aildhtykmh vkseaslhpv 121 lmseapwntr akrekltelm fehysipaff lcktavltaf angrstglil dsgathttai 181 pvhdgyvlqq givksplagd fitmqcrelf qemnielipp ymiaskeavr egspanwkrk 241 eklpqvtrsw hnymcncviq dfgasvlqvs dstydeqvaa qmptvhyefp ngyncdfgae 301 rlkipeglfd psnvkglsgn tmlgvshvvt tsvgmcdidi rpglygsviv aggntliqsf 361 tdrinrelsq ktppsmilkl iannttverr fsswiggsil aslgtfqqmw iskqeyeegg 421 kqcverkcp SEQ ID NO: 138 Human β-Actin cDNA Sequence (NM_001101.4; CDS: 193-1320) 1 gagtgagcgg cgcggggcca atcagcgtgc gccgttccga aagttgcctt ttatggctcg 61 agcggccgcg gcggcgccct ataaaaccca gcggcgcgac gcgccaccac cgccgagacc 121 gcgtccgccc cgcgagcaca gagcctcgcc tttgccgatc cgccgcccgt ccacacccgc 181 cgccagctca ccatggatga tgatatcgcc gcgctcgtcg tcgacaacgg ctccggcatg 241 tgcaaggccg gcttcgcggg cgacgatgcc ccccgggccg tcttcccctc catcgtgggg 301 cgccccaggc accagggcgt gatggtgggc atgggtcaga aggattccta tgtgggcgac 361 gaggcccaga gcaagagagg catcctcacc ctgaagtacc ccatcgagca cggcatcgtc 421 accaactggg acgacatgga gaaaatctgg caccacacct tctacaatga gctgcgtgtg 481 gctcccgagg agcaccccgt gctgctgacc gaggcccccc tgaaccccaa ggccaaccgc 541 gagaagatga cccagatcat gtttgagacc ttcaacaccc cagccatgta cgttgctatc 601 caggctgtgc tatccctgta cgcctctggc cgtaccactg gcatcgtgat ggactccggt 661 gacggggtca cccacactgt gcccatctac gaggggtatg ccctccccca tgccatcctg 721 cgtctggacc tggctggccg ggacctgact gactacctca tgaagatcct caccgagcgc 781 ggctacagct tcaccaccac ggccgagcgg gaaatcgtgc gtgacattaa ggagaagctg 841 tgctacgtcg ccctggactt cgagcaagag atggccacgg ctgcttccag ctcctccctg 901 gagaagagct acgagctgcc tgacggccag gtcatcacca ttggcaatga gcggttccgc 961 tgccctgagg cactcttcca gccttccttc ctgggcatgg agtcctgtgg catccacgaa 1021 actaccttca actccatcat gaagtgtgac gtggacatcc gcaaagacct gtacgccaac 1081 acagtgctgt ctggcggcac caccatgtac cctggcattg ccgacaggat gcagaaggag 1141 atcactgccc tggcacccag cacaatgaag atcaagatca ttgctcctcc tgagcgcaag 1201 tactccgtgt ggatcggcgg ctccatcctg gcctcgctgt ccaccttcca gcagatgtgg 1261 atcagcaagc aggagtatga cgagtccggc ccctccatcg tccaccgcaa atgcttctag 1321 gcggactatg acttagttgc gttacaccct ttcttgacaa aacctaactt gcgcagaaaa 1381 caagatgaga ttggcatggc tttatttgtt ttttttgttt tgttttggtt tttttttttt 1441 ttttggcttg actcaggatt taaaaactgg aacggtgaag gtgacagcag tcggttggag 1501 cgagcatccc ccaaagttca caatgtggcc gaggactttg attgcacatt gttgtttttt 1561 taatagtcat tccaaatatg agatgcgttg ttacaggaag tcccttgcca tcctaaaagc 1621 caccccactt ctctctaagg agaatggccc agtcctctcc caagtccaca caggggaggt 1681 gatagcattg ctttcgtgta aattatgtaa tgcaaaattt ttttaatctt cgccttaata 1741 cttttttatt ttgttttatt ttgaatgatg agccttcgtg cccccccttc cccctttttt 1801 gtcccccaac ttgagatgta tgaaggcttt tggtctccct gggagtgggt ggaggcagcc 1861 agggcttacc tgtacactga cttgagacca gttgaataaa agtgcacacc ttaaaaatga 1921 ggaaaaaaaa aaaaaaaaaa SEQ ID NO: 139 Human β-Actin Amino Acid Sequence (NP_001092.1) 1 mdddiaalvv dngsgmckag fagddaprav fpsivgrprh qgvmvgmgqk dsyvgdeaqs 61 krgiltlkyp iehgivtnwd dmekiwhhtf ynelrvapee hpvllteapl npkanrekmt 121 qimfetfntp amyvaiqavl slyasgrttg ivmdsgdgvt htvpiyegya lphailrldl 181 agrdltdylm kiltergysf tttaereivr dikeklcyva ldfeqemata assssleksy 241 elpdgqviti gnerfrcpea lfqpsflgme scgihettfn simkcdvdir kdlyantvls 301 ggttmypgia drmqkeital apstmkikii apperkysvw iggsilasls tfqqmwiskq 361 eydesgpsiv hrkcf SEQ ID NO: 140 Mouse β-Actin cDNA Sequence (NM_007393.5; CDS: 110-1237) 1 tataaaaccc ggcggcgcaa cgcgcagcca ctgtcgagtc gcgtccaccc gcgagcacag 61 cttctttgca gctccttcgt tgccggtcca cacccgccac cagttcgcca tggatgacga 121 tatcgctgcg ctggtcgtcg acaacggctc cggcatgtgc aaagccggct tcgcgggcga 181 cgatgctccc cgggctgtat tcccctccat cgtgggccgc cctaggcacc agggtgtgat 241 ggtgggaatg ggtcagaagg actcctatgt gggtgacgag gcccagagca agagaggtat 301 cctgaccctg aagtacccca ttgaacatgg cattgttacc aactgggacg acatggagaa 361 gatctggcac cacaccttct acaatgagct gcgtgtggcc cctgaggagc accctgtgct 421 gctcaccgag gcccccctga accctaaggc caaccgtgaa aagatgaccc agatcatgtt 481 tgagaccttc aacaccccag ccatgtacgt agccatccag gctgtgctgt ccctgtatgc 541 ctctggtcgt accacaggca ttgtgatgga ctccggagac ggggtcaccc acactgtgcc 601 catctacgag ggctatgctc tccctcacgc catcctgcgt ctggacctgg ctggccggga 661 cctgacagac tacctcatga agatcctgac cgagcgtggc tacagcttca ccaccacagc 721 tgagagggaa atcgtgcgtg acatcaaaga gaagctgtgc tatgttgctc tagacttcga 781 gcaggagatg gccactgccg catcctcttc ctccctggag aagagctatg agctgcctga 841 cggccaggtc atcactattg gcaacgagcg gttccgatgc cctgaggctc ttttccagcc 901 ttccttcttg ggtatggaat cctgtggcat ccatgaaact acattcaatt ccatcatgaa 961 gtgtgacgtt gacatccgta aagacctcta tgccaacaca gtgctgtctg gtggtaccac 1021 catgtaccca ggcattgctg acaggatgca gaaggagatt actgctctgg ctcctagcac 1081 catgaagatc aagatcattg ctcctcctga gcgcaagtac tctgtgtgga tcggtggctc 1141 catcctggcc tcactgtcca ccttccagca gatgtggatc agcaagcagg agtacgatga 1201 gtccggcccc tccatcgtgc accgcaagtg cttctaggcg gactgttact gagctgcgtt 1261 ttacaccctt tctttgacaa aacctaactt gcgcagaaaa aaaaaaaata agagacaaca 1321 ttggcatggc tttgtttttt taaatttttt ttaaagtttt tttttttttt tttttttttt 1381 tttttaagtt tttttgtttt gttttggcgc ttttgactca ggatttaaaa actggaacgg 1441 tgaaggcgac agcagttggt tggagcaaac atcccccaaa gttctacaaa tgtggctgag 1501 gactttgtac attgttttgt tttttttttt ttttggtttt gtcttttttt aatagtcatt 1561 ccaagtatcc atgaaataag tggttacagg aagtccctca ccctcccaaa agccaccccc 1621 actcctaaga ggaggatggt cgcgtccatg ccctgagtcc accccgggga aggtgacagc 1681 attgcttctg tgtaaattat gtactgcaaa aattttttta aatcttccgc cttaatactt 1741 catttttgtt tttaatttct gaatggccca ggtctgaggc ctcccttttt tttgtccccc 1801 caacttgatg tatgaaggct ttggtctccc tgggaggggg ttgaggtgtt gaggcagcca 1861 gggctggcct gtacactgac ttgagaccaa taaaagtgca caccttacct tacacaaaca 1921 aaaaaaaaaa aaaaa SEQ ID NO: 141 Mouse β-Actin Amino Acid Sequence (NP_031419.1) 1 mdddiaalvv dngsgmckag fagddaprav fpsivgrprh qgvmvgmgqk dsyvgdeaqs 61 krgiltlkyp iehgivtnwd dmekiwhhtf ynelrvapee hpvllteapl npkanrekmt 121 qimfetfntp amyvaigavl slyasgrttg ivmdsgdgvt htvpiyegya lphailrldl 181 agrdltdylm kiltergysf tttaereivr dikeklcyva ldfeqemata assssleksy 241 elpdgqviti gnerfrcpea lfqpsflgme scgihettfn simkcdvdir kdlyantvls 301 ggttmypgia drmqkeital apstmkikii apperkysvw iggsilasls tfqqmwiskq 361 eydesgpsiv hrkcf SEQ ID NO: 142 Human BCL7A cDNA Sequence variant 1 (NM_020993.4; CDS: 207-902) 1 actgggccag gcgcgcggcg gccccgggct ttgtgtgtgt gtgtatgtgt gtgtgtgtgt 61 gtgtgtgtgt gtgagtgtgt gcgtgtgaga gtgcgagtgt ctgtgcgcga gtgagtgagc 121 ggcgggcggg cgcgagtgtg gccgccgcgg agcgcgagca ggacccggcg ggcgcgctcc 181 ccagcctccg tctccccgcc ggaaccatgt cgggcaggtc ggttcgagcc gagacgagga 241 gccgggccaa agatgatatc aagagggtca tggcggcgat cgagaaagtg cgcaaatggg 301 agaagaaatg ggtgaccgtt ggtgacacat ccctacgaat ctacaaatgg gtccctgtga 361 cggagcccaa ggttgatgac aaaaacaaga ataagaaaaa aggcaaggac gagaagtgtg 421 gctcagaggt gaccactccg gagaacagtt cctccccagg gatgatggac atgcatgacg 481 ataacagcaa ccagagctcc atcgcagatg cctcccccat caaacaggag aacagcagca 541 actccagccc cgctccagag cccaactcgg ctgtgcccag cgacggcacc gaggccaagg 601 tggatgaggc ccaggctgat gggaaggagc acccaggagc tgaagatgct tctgatgagc 661 agaattcaca gtcctcgatg gaacattcga tgaacagctc agagaaagta gatcggcagc 721 cgtctggaga ctcgggtctg gccgcagaga cgtctgcaat ctctcaggta cctcgctcga 781 ggtctcagag gggcagccag atcggccggg agcccattgg gttgtcgggg gatttggaag 841 gagtgccacc ctctaaaaag atgaaactgg aggcctctca acaaaactcc gaagagatgt 901 agacgatgct ttaaagcctc cgatccatgt tccatggaag gtacatcagc aattaattct 961 agagcaactt tgccccagcg attcctcttg ggtgcgaaca gaactactaa cgtttcaagt 1021 ttaccaagtg caaatccaag aagacccaga acggcgtcac ttctcagaca ctgaagaact 1081 ctgctgtgaa gcaaaacact caaaccttta agggactgtc cttggggagg caggcggggc 1141 tgacagctca ggagtgtctg cacactgtct cggaagccag gattccattt gtgttgctgc 1201 tgtattttcc ccccacttct ctatgtaacg atataagcta tcggagggtg gtaccgatca 1261 ggaacgcttt ttggcggggc tttccactgt tcaaccgatt ccttccgctt tctttttttg 1321 tgccttgtgc ccttgaggtg acctctggca tgtatcctgg tggttcttac atccccctct 1381 gcaaagtgcc ctcttggttt ggttcgggcg gcggctgcca ccctactcac cgctctcctc 1441 cctgccccag gacttcatcg gagcaggcag ggtggagcga aggagctcct tagcccacct 1501 ggtttgcagg tgcaggggga ccttaggcac gccccaagca ccaggcacca gggcccaagg 1561 acgcgcaggt gttggggcac agtccccaag ggctcggccc cttggatcag gctgggcact 1621 cgctgtgctc tcccctcctt ggggcgttta ggactgggcg tctccaagcc caccatggcc 1681 cagatggacg tgcaaagccc ttggaatttt ctggcacttc ctctctattg cccccaccac 1741 caccaccccc atcactgctt tctcccagac ctccgaatac gaaatggctt ctctggctga 1801 ctgcaaggct gtctccttaa ggcactgagt gggccgggga ggctgggagc cggcggcagg 1861 attagctggt gctgaacttt ctctcatagg acgtcgcttg gatttcaaat ccacggtcac 1921 ctgctgccct ttgcctcccc cgacgcccca gcctgtgccc cggagaggca ggatcgcagt 1981 ggtcagaatc cacgtgcttt cctattctca ggctgttctg actctgagcc aacagctgga 2041 ccgtgtctca tccccagaac atgccgtctg tccccaccgg ggagtgggcc ttgatggccg 2101 ggcctcgaag gccacaaaca aggcgtcgag gaattggaaa gatttgcaca ccctccagaa 2161 aggagagacg caatctcccc tccctcccat cccccacctt cgctggaaca gcttcctctc 2221 actgaacgga gacgccccct tggacgaact gcctaatcgt ttggttctga ggcctggttt 2281 gctcttaatt aatatatgaa ctcctcagac cttaaacctt ttcctaagct ttctttactg 2341 cactggagtt ctgactccct ttgagttgtg tgttactggg ggtggggtgg ggtcatgggt 2401 tttgttgttt ttgggggcta attggtgcat attcaggtac cacctttgac gtgtggctct 2461 ttctcctgac catcatggga agtgtctgct ggattccatt ttctaagagt ttctgagggt 2521 gaggctctta tttttttttt taagggatcc tgtctatttc ctgcacttcg agaagaatca 2581 aaatgttcct gaatttcaaa tacctcatgc aaaatgtctc ctgaaataag ggaaaaaaaa 2641 aaaaccacaa ctttgaaaat cttaatgttg aagttagcaa tgccgaaagg tttctgtctt 2701 aaaaaaaaaa atccttgtac ttatcaattt tgccccttag gcagtcagtt ttgttgagaa 2761 ctgtgtcctg catcctggcg cagaacctac ctgatgcggt tcctctccac gcatctcgag 2821 gcggcgttac ctccagattc cgtagagtta gagtcacatt tttctttgca gcgaaactcc 2881 atcttggtga gagatgaatt tggatattta tttccttctc tgtttttggg aaacgagagg 2941 ctacaaccaa gacagctgaa ggagaatgaa acacacacat ccacagaaac agagaggcgt 3001 aggtggccct gccgttgacc gcagcctctc tggacaggca aggggagttg gcgcaggtga 3061 ggactcagac gacgtccacc gtcccaaggc tgtcactagt atttctctga agtgcctgaa 3121 ggtaggaatg ggccggcgat tgggaccagc tgggccccac cacggccacg ccaggcaaag 3181 cgccagcagc cctgcactcc acgctggcca agaaggcctt ccacgcagaa tgacaagact 3241 gcaaaaatcc gatgtgcttc cttccctggc gcagtcgctc ctcgagccgc tgccccccac 3301 ccaccctgca cccctcgccc tccccccacc acagaatcta agacctttca gcttcgagcc 3361 agggggcggg ggatcccgag caaaagcctt ccgtggacat caggccccgt ggcctcaagg 3421 gctcccaggg caaacctaat tccccccaaa acgtgaagtc ggggaagctg cggctacaca 3481 ttccacaaag tgctggcact tacacccaca acccggaagg ctgtggaccg attcctctag 3541 ggtggtgacc tcccattagc aaacggtgtc atggtttgga atgttcatta tcgccaagaa 3601 cctggttaga ggcataaaga ccttttttca ccgttaccta attttttccc ctttcaagaa 3661 tttttttttt ttttggtgtg ttgtacagca gtataatttt tcacttattt attccatcag 3721 tagatatggt ttgtacaatg tacaattgtt tcatttcaga aaataaaaat ttcaaatcat 3781 gaa SEQ ID NO: 143 Human BCL7A Amino Acid Sequence isoform A (NP_066273.1) 1 msgrsvraet rsrakddikr vmaaiekvrk wekkwvtvgd tslriykwvp vtepkvddkn 61 knkkkgkdek cgsevttpen ssspgmmdmh ddnsnqssia daspikqens snsspapepn 121 savpsdgtea kvdeaqadgk ehpgaedasd eqnsgssmeh smnssekvdr qpsgdsglaa 181 etsaisqvpr srsqrgsqig repiglsgdl egvppskkmk leasqqnsee m SEQ ID NO: 144 Human BCL7A cDNA Sequence variant 2 (NM_001024808.2; CDS: 207-839) 1 actgggccag gcgcgcggcg gccccgggct ttgtgtgtgt gtgtatgtgt gtgtgtgtgt 61 gtgtgtgtgt gtgagtgtgt gcgtgtgaga gtgcgagtgt ctgtgcgcga gtgagtgagc 121 ggcgggcggg cgcgagtgtg gccgccgcgg agcgcgagca ggacccggcg ggcgcgctcc 181 ccagcctccg tctccccgcc ggaaccatgt cgggcaggtc ggttcgagcc gagacgagga 241 gccgggccaa agatgatatc aagagggtca tggcggcgat cgagaaagtg cgcaaatggg 301 agaagaaatg ggtgaccgtt ggtgacacat ccctacgaat ctacaaatgg gtccctgtga 361 cggagcccaa ggttgatgac aaaaacaaga ataagaaaaa aggcaaggac gagaagtgtg 421 gctcagaggt gaccactccg gagaacagtt cctccccagg gatgatggac atgcatgacg 481 ataacagcaa ccagagctcc atcgcagatg cctcccccat caaacaggag aacagcagca 541 actccagccc cgctccagag cccaactcgg ctgtgcccag cgacggcacc gaggccaagg 601 tggatgaggc ccaggctgat gggaaggagc acccaggagc tgaagatgct tctgatgagc 661 agaattcaca gtcctcgatg gaacattcga tgaacagctc agagaaagta gatcggcagc 721 cgtctggaga ctcgggtctg gccgcagaga cgtctgcaat ctctcaggat ttggaaggag 781 tgccaccctc taaaaagatg aaactggagg cctctcaaca aaactccgaa gagatgtaga 841 cgatgcttta aagcctccga tccatgttcc atggaaggta catcagcaat taattctaga 901 gcaactttgc cccagcgatt cctcttgggt gcgaacagaa ctactaacgt ttcaagttta 961 ccaagtgcaa atccaagaag acccagaacg gcgtcacttc tcagacactg aagaactctg 1021 ctgtgaagca aaacactcaa acctttaagg gactgtcctt ggggaggcag gcggggctga 1081 cagctcagga gtgtctgcac actgtctcgg aagccaggat tccatttgtg ttgctgctgt 1141 attttccccc cacttctcta tgtaacgata taagctatcg gagggtggta ccgatcagga 1201 acgctttttg gcggggcttt ccactgttca accgattcct tccgctttct ttttttgtgc 1261 cttgtgccct tgaggtgacc tctggcatgt atcctggtgg ttcttacatc cccctctgca 1321 aagtgccctc ttggtttggt tcgggcggcg gctgccaccc tactcaccgc tctcctccct 1381 gccccaggac ttcatcggag caggcagggt ggagcgaagg agctccttag cccacctggt 1441 ttgcaggtgc agggggacct taggcacgcc ccaagcacca ggcaccaggg cccaaggacg 1501 cgcaggtgtt ggggcacagt ccccaagggc tcggcccctt ggatcaggct gggcactcgc 1561 tgtgctctcc cctccttggg gcgtttagga ctgggcgtct ccaagcccac catggcccag 1621 atggacgtgc aaagcccttg gaattttctg gcacttcctc tctattgccc ccaccaccac 1681 cacccccatc actgctttct cccagacctc cgaatacgaa atggcttctc tggctgactg 1741 caaggctgtc tccttaaggc actgagtggg ccggggaggc tgggagccgg cggcaggatt 1801 agctggtgct gaactttctc tcataggacg tcgcttggat ttcaaatcca cggtcacctg 1861 ctgccctttg cctcccccga cgccccagcc tgtgccccgg agaggcagga tcgcagtggt 1921 cagaatccac gtgctttcct attctcaggc tgttctgact ctgagccaac agctggaccg 1981 tgtctcatcc ccagaacatg ccgtctgtcc ccaccgggga gtgggccttg atggccgggc 2041 ctcgaaggcc acaaacaagg cgtcgaggaa ttggaaagat ttgcacaccc tccagaaagg 2101 agagacgcaa tctcccctcc ctcccatccc ccaccttcgc tggaacagct tcctctcact 2161 gaacggagac gcccccttgg acgaactgcc taatcgtttg gttctgaggc ctggtttgct 2221 cttaattaat atatgaactc ctcagacctt aaaccttttc ctaagctttc tttactgcac 2281 tggagttctg actccctttg agttgtgtgt tactgggggt ggggtggggt catgggtttt 2341 gttgtttttg ggggctaatt ggtgcatatt caggtaccac ctttgacgtg tggctctttc 2401 tcctgaccat catgggaagt gtctgctgga ttccattttc taagagtttc tgagggtgag 2461 gctcttattt ttttttttaa gggatcctgt ctatttcctg cacttcgaga agaatcaaaa 2521 tgttcctgaa tttcaaatac ctcatgcaaa atgtctcctg aaataaggga aaaaaaaaaa 2581 accacaactt tgaaaatctt aatgttgaag ttagcaatgc cgaaaggttt ctgtcttaaa 2641 aaaaaaaatc cttgtactta tcaattttgc cccttaggca gtcagttttg ttgagaactg 2701 tgtcctgcat cctggcgcag aacctacctg atgcggttcc tctccacgca tctcgaggcg 2761 gcgttacctc cagattccgt agagttagag tcacattttt ctttgcagcg aaactccatc 2821 ttggtgagag atgaatttgg atatttattt ccttctctgt ttttgggaaa cgagaggcta 2881 caaccaagac agctgaagga gaatgaaaca cacacatcca cagaaacaga gaggcgtagg 2941 tggccctgcc gttgaccgca gcctctctgg acaggcaagg ggagttggcg caggtgagga 3001 ctcagacgac gtccaccgtc ccaaggctgt cactagtatt tctctgaagt gcctgaaggt 3061 aggaatgggc cggcgattgg gaccagctgg gccccaccac ggccacgcca ggcaaagcgc 3121 cagcagccct gcactccacg ctggccaaga aggccttcca cgcagaatga caagactgca 3181 aaaatccgat gtgcttcctt ccctggcgca gtcgctcctc gagccgctgc cccccaccca 3241 ccctgcaccc ctcgccctcc ccccaccaca gaatctaaga cctttcagct tcgagccagg 3301 gggcggggga tcccgagcaa aagccttccg tggacatcag gccccgtggc ctcaagggct 3361 cccagggcaa acctaattcc ccccaaaacg tgaagtcggg gaagctgcgg ctacacattc 3421 cacaaagtgc tggcacttac acccacaacc cggaaggctg tggaccgatt cctctagggt 3481 ggtgacctcc cattagcaaa cggtgtcatg gtttggaatg ttcattatcg ccaagaacct 3541 ggttagaggc ataaagacct tttttcaccg ttacctaatt ttttcccctt tcaagaattt 3601 tttttttttt tggtgtgttg tacagcagta taatttttca cttatttatt ccatcagtag 3661 atatggtttg tacaatgtac aattgtttca tttcagaaaa taaaaatttc aaatcatgaa SEQ ID NO: 145 Human BCL7A Amino Acid Sequence isoform B (NP_001019979.1) 1 msgrsvraet rsrakddikr vmaaiekvrk wekkwvtvgd tslriykwvp vtepkvddkn 61 knkkkgkdek cgsevttpen ssspgmmdmh ddnsnqssia daspikqens snsspapepn 121 savpsdgtea kvdeaqadgk ehpgaedasd eqnsgssmeh smnssekvdr qpsgdsglaa 181 etsaisqdle gvppskkmkl easqqnseem SEQ ID NO: 146 Mouse BCL7A cDNA Sequence (NM_029850.3; CDS: 183-815) 1 ttgcgcactg ggccccgggc gcgcggcggc accaggcttt gtgtgtgcgc gtatgtgtgt 61 gagtgtgtgt ctgtgcgcga gtgagagagc gggcgagtgt ggcgagcagg acccggcggg 121 cgcgctcccc cagcctccct ctctctctct ctttcctctc tctctccctc cccgccagaa 181 ccatgtcggg caggtcggtt cgagccgaga ccaggagccg ggccaaagat gatatcaaga 241 gggtcatggc ggctatcgag aaagtgcgca aatgggagaa gaaatgggtg accgttggcg 301 atacatccct acgaatctac aagtgggtcc ctgtgacgga gccaaaggtt gatgataaaa 361 acaagaacaa gaagaaaggc aaggacgaga agtgtggctc ggaggtgacc actccagaga 421 acagctcgtc tcctgggatg atggacatgc acgatgataa cagcaaccag agctccatag 481 cagacgcctc ccccatcaag caagagaaca gcagcaactc cagccctgcc ccagagacca 541 acccacccgt gcccagcgat ggcaccgaag ccaaggctga tgaggcgcag gccgatggaa 601 aagagcaccc tggagctgaa gatgcatccg aggagcaaaa ttcacagtct tcgatggaaa 661 actcggtgaa cagctccgag aaggcagaac ggcagccatc tgcagaatca gggttagcgg 721 cagaaacgtc ggcagtctct caggatttgg aaggagtgcc gccgtctaaa aagatgaagc 781 tggaagcctc tcaacagaac tcagaagaga tgtagacggc ccggcggaac cttctggtcc 841 atgtttcatg gcaggtacat cggcaggctt aattctagaa acacggccca agcgactcct 901 cttgggcgcg agcagaacta acgtttcaag tttactaaag tgcaaatcca agaagaacct 961 agagcggcgg cggcagcgga acttcgcaga cacttgacgg actctgccgt gaaaccgaaa 1021 cactcgaacc ttcaagtgac tgccctctgg gaggtgggtc gacagctcag gagtgtgtgc 1081 gcactgtctc ggaagccaag attacatttg tgttgctgct gtatccccct cccctcactt 1141 ctctatttaa cgatataagc tattcgaggg tggtaccaat caggaatttg ctttccatag 1201 gggcttttgg ctcttcaacc aattccttct gctttctttt tttgtgcctt gtaccctaga 1261 ggtgacctcc ggcatgcttc ctggtttttg catctctcct ggcaaagtgc ccacttgttt 1321 tggttggctg ctgcccccac ccccacccct tattgcctct ctcctccctg ccccaagact 1381 gcttcaaagc aagcagggta gagcggcggg agaccaggca cctttcagtg acccccttgg 1441 ttcaggtgag cagtgtttgg gcacaccctg agccccaact tccagggccc ctggggctac 1501 aagtttgcgg gggccggttt cccgagggct ggcctccttg gtcaggacac gccctcacct 1561 tttggagcca tggaggctag gcgtttgcaa ggcaaggtag cccagattga catgcaaaag 1621 cctttagatt tttctggcac ttccacccta tctcccctcc gccccctaac ctcacacccc 1681 gactctggcc acaactggca ctgcgctctc caggtcctcc gaagacgaaa tgaccaactg 1741 agcttgtctc cttaggatag taaagggctg ggaggttggg agccggcggc cggcaggaat 1801 agctggtgct gaactaactc tcccatagga cattgcttgg atttcaaatc catggtaacc 1861 tgctgccctt tgtccctgtc tcctatccac cgcaccccaa gccccccaaa accccaggca 1921 ggatgcgcct ggtatggcct gactctgaga ggctacaggt ggatggagac ccattcccag 1981 taccgcgctg ttggtctcct ctggggaccg gaccttaacc attgggcctc aggccagaag 2041 caaggcacag aggaaccggg aagatttgca cacagatttg cccccccaga aaggagcctc 2101 cgaggcactt ccttcccctg ctcttccttg cacggagaca gctctctctc actcagtgga 2161 gacgccactt ggacagacgg actgctcagc tgttgatttc tgaggcctgg tttgctctta 2221 atccctttgc tggacccctc agatctgaaa accttcccct atgctttctt actgcactgg 2281 agttcgaact ccctatgagt tgtgtgttgg ggggaggggc gggcggggtg ggttttgttt 2341 ttttgttgtt cttgtttcgt tttgtttcgt ttgctaattg gtgcatattc aggtaccacc 2401 ttttgacgtg tggatctttc tccaaaccac cacaagaagt gtctgccggg ctccgttttc 2461 taagagtttc tgaggggaca gctcccattt ctttttttgg tttcaaggga gctgtctatt 2521 tcctatactt caagaagaat caaaatgttc ctgaatttta aatacctcat gcaaaaatat 2581 ctcctgaaat aagggaaaaa aaaaaaactt tgaaaaatcg taatgttgaa gttagcgatg 2641 ctaaaatgtt tctgtcttaa aaaacaaaaa aattgttgta atacttagcg attttgcccc 2701 tcaggcggtc agttctgtcc agaactgtgt tctgcgtctt ggcccggaag caaccggatg 2761 catgacctct gaacggatct caaggccaag gcatctttac ctccagattc tagagttagg 2821 gcaacaacag ttttcttttg cagcaaaact ccgttctggt gaaagatgaa tttggatatt 2881 tatttctttt tctgggaaac aagaggttaa acaacgtaag cagctgaggg agaacccaac 2941 acgggcatcc acggaaccag cgggcgcggc cagggccgcc tatacctctt ctaccctccg 3001 cagcctctct ggacagtcag gaggagtcga tacagttgag aaagaagaca acgatgaggt 3061 tcgaggtacc gaggctgtca ttagtttttc tctgaagtgc ctgaacgtag gaatgggccg 3121 tcgacggagg ggaccattcg gatgttcccc cacctcgcga cggccgcgcc aggcaaagag 3181 ccagcagccc tgcactccac actggccagg aaaagccttc cacgaggagc ggtcagactg 3241 caaaatccaa tgtgcttcct tccccgccac ggtcctctct ctctctcggg gagccgatgg 3301 tccccgtccc tgaaccccct agcccgcatc cccaccacag aatctaagac ctttcatctg 3361 gccgagccag gggcaaaggg gatcctaagc aaatgccttc cgtggacaac aggccccacg 3421 gcctaaaggg ctcccagggc aaactttccc ccaacacttg aaggggggtg ggggggatgg 3481 cggctacaca ttccactaag tgcagcactc gcacccacaa cccggaagga aggctcttaa 3541 gcgattctca gagggtggtg actgcccatc atcgtcagac ggtgtcgtgg tttggaatgt 3601 taattatcgc agaggacctg gtagaggtat aaagaccttt tttcactgtt acctaatttt 3661 ttttttcctc ttacaatttt ttttttggtg tgttgtacag cagtataatt tttcacttat 3721 ttattccatc ggtagatatt gtttgtacaa tgtacaatgg tttcatttca gaaaataata 3781 ataataaaaa aaaaagttct gatcatgag SEQ ID NO: 147 Mouse BCL7A Amino Acid Sequence (NP_084126.1) 1 msgrsvraet rsrakddikr vmaaiekvrk wekkwvtvgd tslriykwvp vtepkvddkn 61 knkkkgkdek cgsevttpen ssspgmmdmh ddnsnqssia daspikqens snsspapetn 121 ppvpsdgtea kadeaqadgk ehpgaedase eqnsgssmen svnssekaer qpsaesglaa 181 etsaysqdle gvppskkmkl easqqnseem SEQ ID NO: 148 Human BCL7B cDNA Sequence variant 1 (NM_001707.3; CDS: 158-766) 1 gcgggcgggt gcgcgcgctt tctcgcgcac gcgcgcacgg agggggcgac ggccgctgtg 61 acgctgcggc ggcggcgggc gggcggcggc gcgtgaggcg cgcgatcccc ggtgtcttgg 121 gagcagtgcc ccggcccccg ccgctcccgc cgccgccatg tcgggccggt cggtccgggc 181 ggagacccgc agccgggcca aggacgacat caagaaggtg atggcggcca tcgagaaagt 241 gcggaaatgg gagaagaagt gggtgactgt gggtgacacg tccctgagga tatttaagtg 301 ggttcctgtg acagacagca aggagaaaga aaagtcaaaa tcgaacagtt cagcagcccg 361 agaacctaat ggctttcctt ctgatgcctc agccaattcc tctctccttc ttgaattcca 421 ggacgaaaac agcaaccaga gttccgtgtc tgacgtctat cagcttaagg tggacagcag 481 caccaactca agccccagcc cccagcagag tgagtccctg agcccagcac acacctccga 541 cttccgcacg gatgactccc agcccccaac gctgggccag gagatcctgg aggagccctc 601 cctgccctcc tcggaagttg ctgatgaacc tcctaccctc accaaggaag aaccagttcc 661 actagagaca caggtcgttg aggaagagga agactcaggt gccccgcccc tgaagcgctt 721 ctgtgtggac caacccacag tgccgcagac ggcgtcagaa agctagcacc atcccggccc 781 tccgcctcct ggccctgcct ctatttattg cattctggtt ctggccgcgc cgcgttgctg 841 gggtaagggc aagcactggg gtcaagagcc tgcacacatg agccttccgg gctggaaggc 901 tggcgtagga cttggggctg tagcatcatc ttcctgaccc tggcacctgt gtctacttgc 961 tcccgagaag aggagcgctc atgtcttttt tgcaccccaa gttggctgga gcatcggcca 1021 ccccaagatt catctgtgac ctccaggcag cagtctctgc tccagaatct ctggacggag 1081 ctgctggcag cttctgcgag aagagagaga tgtggaaggc accttctaga agagagcgtg 1141 cctcaggtta cttgaacttg aacggagact gtagactccc ggactttccc ctaggactgg 1201 gggccctgta ggctgctgtt ggaggactgg gtagagacat tggagggaag ggaagggctt 1261 ttctccacac aagggcagag agtccgtcta gatttcttgc tgtcctgcca gctctgccca 1321 tgcctgaggt ggtcctacct ctcacgggca ccctagctgc tgacagccct ttgtggccgc 1381 cgtccccatc ccctgccctc agcacacaca tctgcacaca cgcagctttg ttctcacctc 1441 tacctgtcat tccagcatcc ctgcctcttg tcacaaactg ccccagcaag aatttgaggt 1501 tctgacaaca gtacccatcc cccacagtac cccttcagct cagtttctag aaagctccct 1561 tttctttgaa atctgcatgt tgaattgaac tttgtgattt tattttttgt ttcaaaaaag 1621 tttaagaaaa tggaaatggg caacagtgag tgaagacata ttttagcact gaatagaata 1681 tttttaaaat taaactattt gaaatatgtc caaaaaaaaa aaaaaaaaa SEQ ID NO: 149 Human BCL7B Amino Acid Sequence isoform 1 (NP_001698.2) 1 msgrsvraet rsrakddikk vmaaiekvrk wekkwvtvgd tslrifkwvp vtdskekeks 61 ksnssaarep ngfpsdasan sslllefqde nsnqssysdv yqlkvdsstn sspspqqses 121 lspahtsdfr tddsqpptlg qeileepslp ssevadeppt ltkeepvple tqvveeeeds 181 gapplkrfcv dqptvpqtas es SEQ ID NO: 150 Human BCL7B cDNA Sequence variant 2 (NM_001197244.1; CDS: 158-595) 1 gcgggcgggt gcgcgcgctt tctcgcgcac gcgcgcacgg agggggcgac ggccgctgtg 61 acgctgcggc ggcggcgggc gggcggcggc gcgtgaggcg cgcgatcccc ggtgtcttgg 121 gagcagtgcc ccggcccccg ccgctcccgc cgccgccatg tcgggccggt cggtccgggc 181 ggagacccgc agccgggcca aggacgacat caagaaggtg atggcggcca tcgagaaagt 241 gcggaaatgg gagaagaagt gggtgactgt gggtgacacg tccctgagga tatttaagtg 301 ggttcctgtg acagacagca aggagaaaga aaagtcaaaa tcgaacagtt cagcagcccg 361 agaacctaat ggctttcctt ctgatgcctc agccaattcc tctctccttc ttgaattcca 421 ggagccctcc ctgccctcct cggaagttgc tgatgaacct cctaccctca ccaaggaaga 481 accagttcca ctagagacac aggtcgttga ggaagaggaa gactcaggtg ccccgcccct 541 gaagcgcttc tgtgtggacc aacccacagt gccgcagacg gcgtcagaaa gctagcacca 601 tcccggccct ccgcctcctg gccctgcctc tatttattgc attctggttc tggccgcgcc 661 gcgttgctgg ggtaagggca agcactgggg tcaagagcct gcacacatga gccttccggg 721 ctggaaggct ggcgtaggac ttggggctgt agcatcatct tcctgaccct ggcacctgtg 781 tctacttgct cccgagaaga ggagcgctca tgtctttttt gcaccccaag ttggctggag 841 catcggccac cccaagattc atctgtgacc tccaggcagc agtctctgct ccagaatctc 901 tggacggagc tgctggcagc ttctgcgaga agagagagat gtggaaggca ccttctagaa 961 gagagcgtgc ctcaggttac ttgaacttga acggagactg tagactcccg gactttcccc 1021 taggactggg ggccctgtag gctgctgttg gaggactggg tagagacatt ggagggaagg 1081 gaagggcttt tctccacaca agggcagaga gtccgtctag atttcttgct gtcctgccag 1141 ctctgcccat gcctgaggtg gtcctacctc tcacgggcac cctagctgct gacagccctt 1201 tgtggccgcc gtccccatcc cctgccctca gcacacacat ctgcacacac gcagctttgt 1261 tctcacctct acctgtcatt ccagcatccc tgcctcttgt cacaaactgc cccagcaaga 1321 atttgaggtt ctgacaacag tacccatccc ccacagtacc ccttcagctc agtttctaga 1381 aagctccctt ttctttgaaa tctgcatgtt gaattgaact ttgtgatttt attttttgtt 1441 tcaaaaaagt ttaagaaaat ggaaatgggc aacagtgagt gaagacatat tttagcactg 1501 aatagaatat ttttaaaatt aaactatttg aaatatgtcc aaaaaaaaaa aaaaaaaa SEQ ID NO: 151 Human BCL7B Amino Acid Sequence isoform 2 (NP_001184173.1) 1 msgrsvraet rsrakddikk vmaaiekvrk wekkwvtvgd tslrifkwvp vtdskekeks 61 ksnssaarep ngfpsdasan sslllefgep slpssevade pptltkeepv pletqvveee 121 edsgapplkr fcvdqptvpq tases SEQ ID NO: 152 Human BCL7B cDNA Sequence variant 3 (NM_001301061.1; CDS: 247-888) 1 gcgggcgggt gcgcgcgctt tctcgcgcac gcgcgcacgg agggggcgac ggccgctgtg 61 acgctgcggc ggcggcgggc gggcggcggc gcgtgaggcg cgcgatcccc ggtgtcttgg 121 gagcagtgcc ccggcccccg ccgctcccgc cgccgccatg tcgggccggt cggtccgggc 181 ggagacccgc agccgggcca aggacgacat caagaaggtg atggcggcca tcgagaaagt 241 gcggaaatga cggaatctcg ctctgtcacc caggctggag tgcattggcg caatctcggc 301 tcactgcaac ctctgcctct caggttcaag caattctcct gcctcagcct cctgagtagc 361 tgggactaca gggagaagaa gtgggtgact gtgggtgaca cgtccctgag gatatttaag 421 tgggttcctg tgacagacag caaggagaaa gaaaagtcaa aatcgaacag ttcagcagcc 481 cgagaaccta atggctttcc ttctgatgcc tcagccaatt cctctctcct tcttgaattc 541 caggacgaaa acagcaacca gagttccgtg tctgacgtct atcagcttaa ggtggacagc 601 agcaccaact caagccccag cccccagcag agtgagtccc tgagcccagc acacacctcc 661 gacttccgca cggatgactc ccagccccca acgctgggcc aggagatcct ggaggagccc 721 tccctgccct cctcggaagt tgctgatgaa cctcctaccc tcaccaagga agaaccagtt 781 ccactagaga cacaggtcgt tgaggaagag gaagactcag gtgccccgcc cctgaagcgc 841 ttctgtgtgg accaacccac agtgccgcag acggcgtcag aaagctagca ccatcccggc 901 cctccgcctc ctggccctgc ctctatttat tgcattctgg ttctggccgc gccgcgttgc 961 tggggtaagg gcaagcactg gggtcaagag cctgcacaca tgagccttcc gggctggaag 1021 gctggcgtag gacttggggc tgtagcatca tcttcctgac cctggcacct gtgtctactt 1081 gctcccgaga agaggagcgc tcatgtcttt tttgcacccc aagttggctg gagcatcggc 1141 caccccaaga ttcatctgtg acctccaggc agcagtctct gctccagaat ctctggacgg 1201 agctgctggc agcttctgcg agaagagaga gatgtggaag gcaccttcta gaagagagcg 1261 tgcctcaggt tacttgaact tgaacggaga ctgtagactc ccggactttc ccctaggact 1321 gggggccctg taggctgctg ttggaggact gggtagagac attggaggga agggaagggc 1381 ttttctccac acaagggcag agagtccgtc tagatttctt gctgtcctgc cagctctgcc 1441 catgcctgag gtggtcctac ctctcacggg caccctagct gctgacagcc ctttgtggcc 1501 gccgtcccca tcccctgccc tcagcacaca catctgcaca cacgcagctt tgttctcacc 1561 tctacctgtc attccagcat ccctgcctct tgtcacaaac tgccccagca agaatttgag 1621 gttctgacaa cagtacccat cccccacagt accccttcag ctcagtttct agaaagctcc 1681 cttttctttg aaatctgcat gttgaattga actttgtgat tttatttttt gtttcaaaaa 1741 agtttaagaa aatggaaatg ggcaacagtg agtgaagaca tattttagca ctgaatagaa 1801 tatttttaaa attaaactat ttgaaatatg tccaaaaaaa aaaaaaaaaa a SEQ ID NO: 153 Human BCL7B Amino Acid Sequence isoform 3 (NP_001287990.1) 1 mtesrsvtqa gvhwrnlgsl gplplrfkqf sclsllsswd yrekkwvtvg dtslrifkwv 61 pvtdskekek sksnssaare pngfpsdasa nsslllefqd ensnqssysd vyqlkvdsst 121 nsspspqqse slspahtsdf rtddsqpptl ggeileepsl pssevadepp tltkeepvpl 181 etqvveeeed sgapplkrfc vdqptvpqta ses SEQ ID NO: 154 Mouse BCL7B cDNA Sequence (NM_009745.2; CDS: 136-744) 1 acgcgcgcac ggaggggggg cgacggccgc ggtgacgtgc tgcggtggca gcgggtggac 61 ggcgacgcgt gaggcgcgtg atatcccgcg tcttgggagc actgtcccgg cccccagcca 121 ctccccgccg ccgccatgtc cggccgttcg gtccgggccg agacccgtag ccgggctaaa 181 gatgacatca agaaggtgat ggcggccatc gagaaagtgc ggaaatggga gaagaaatgg 241 gtgactgtgg gtgatacctc cctgaggata ttcaaatggg tgcctgtgac agatagcaag 301 gagaaagaaa agtcaaaatc gaataataca gcagcccggg aacctaatgg ctttccctct 361 gacgcctcag ccaattcctc cctcctcctt gaattccagg atgagaacag caaccagagc 421 tctgtgtcgg atgtctatca actcaaggtg gacagcagca ccaactcaag tcccagcccc 481 cagcagagcg agtccctgag cccagcacac acctcagact tccgcactga tgactcccag 541 ccccccacat tgggccagga gatcctggag gaaccttcgc tgcctgcatc tgaagttgca 601 gatgaacctc ccacactcac aaaggaagag ccagtgccgg tggagacaca gaccactgag 661 gaagaggagg actctggtgc tccgcccttg aagagattct gtgtggacca acctgtagta 721 ccgcagacca cgtcggaaag ctagcaccgt cctggcccct cgcctcctgg cccctgcctc 781 tatttattgc attctggtct ggccgagctc tgatgctggg gtccgggcaa gcactagggt 841 ccagagcctg tgcgtgggag ccctctgggc tagaaggctg atggagggcg tggggtcgtc 901 gcaccatctt cttgttcctg acacttgtgt ctgcttgctc ttgagcaaag gagcgctcac 961 atcttttctg tagcccaagt aggccagagc atcagggttc atttctcacc tccagaacca 1021 ctgcacggag ctgctggcgc cgccacgggg agaaaggtgt ggaaggcgcc cacctgagag 1081 aagagtgcct aggattactt gaattgaatg gagactgtgg agtatggact ttgccacagg 1141 gccaggccct gcaggctgct gctgggagag ggactgaccg gtagagatgt ggagaacacc 1201 ggagagaggc tcttccggga cggaggggct ttcgccacct ttgggcagaa gacccatggg 1261 agatgcatcc tgtgcctgag gcagacctgc ctctgttgga tgccccagct gctcccagcc 1321 ctgtgcctgc cagaaccttc tgctgcatcc tcacactcac taagcacacc tgaagctttc 1381 tattcacccg tcctttcatt ccaacgtccc cacctcctcc tgcagaaaac cccagccatg 1441 attggaggtt ctgaccacag tacctgcccc agtactcctt cagctcagac tttctagaaa 1501 gttccttttt ctttaaaatc tgcatgttta attaaacttt atgattttat tttttgtctg 1561 aaaaaagaaa agtttaagaa aatggaaatg ggtaacagca agtgaagacc tattttagca 1621 ctgaatagag tatttttaaa attaaacttt gaaatatgtc ttgttaaaaa aaaaaaaa SEQ ID NO: 155 Mouse BCL7B Amino Acid Sequence (NP_033875.2) 1 msgrsvraet rsrakddikk vmaaiekvrk wekkwvtvgd tslrifkwvp vtdskekeks 61 ksnntaarep ngfpsdasan sslllefqde nsnqssysdv yqlkvdsstn sspspqqses 121 lspahtsdfr tddsqpptlg qeileepslp asevadeppt ltkeepvpve tqtteeeeds 181 gapplkrfcv dqpvvpqtts es SEQ ID NO: 156 Human BCL7C cDNA Sequence variant 1 (NM_001286526.1; CDS: 359-1087) 1 tccgtcccca actcgcgcgt ccgtccccaa ctcccgctct cggcggcggg cagggggcgc 61 tgagcgtcca ggcgctccaa gggggcgggc ccgggtcggg gcggggccgg ccgggcttcc 121 aggcctgggc tctggccgcc cgcgccaccg ggccgctccg gggacaggcc ggggcggggc 181 gcggcggcag gaaacggggc ggggacttgc ggaggcgttg gggacgagag agggcgcggc 241 caactccagg ggggacggca ggccgagagc gcggcgcccg ggcctggcgc ggagcctgag 301 cccgccggac gggaggcggc cccgccgcgg gctcggcccc ggccccagcc ccgccagcat 361 ggccggccgg actgtacggg ccgagacccg gagccgggcc aaggatgaca tcaagaaggt 421 gatggcgacc atcgagaagg tccggagatg ggagaagcga tgggtgactg tgggcgacac 481 ttcccttcgt atcttcaagt gggtgccagt ggtggatccc caggaggagg agcgaaggcg 541 ggcaggtggc ggggcagaga gatcccgtgg ccgggaacgt cggggcaggg gcgccagtcc 601 ccgagggggt ggccctctca tcctgctgga tcttaatgat gagaacagca accagagttt 661 ccattcggaa ggttccctgc aaaagggcac agagcccagt cctgggggca ccccccagcc 721 cagccgccct gtgtcacctg ccggaccccc agaaggggtc cctgaggagg ctcagccccc 781 acggctgggc caagagagag atcccggggg cataactgct ggcagcaccg acgaaccccc 841 aatgctgacc aaggaggagc ctgttccaga actgctggaa gctgaggatt cgggagtgag 901 aatgacgagg agagcccttc acgagaaggg gctgaagaca gagcccctca ggaggctcct 961 gcccaggagg ggcctccgga caaatgtccg gcccagttcc atggcggtgc cggacaccag 1021 agctcccggg ggaggcagca aggccccgag ggcacccaga acaatccccc agggtaaggg 1081 gaggtgagtg ggctccccaa gcaagccaag acccctaaag cctcccttgg ctgccccaag 1141 atccagccac tacctgtgcc ccgagggcgg aaagagcttc ccagctcacc caccgcggta 1201 acatcggagg gcgagcggcc ccacacctgc ccgaacctaa ggccacagca cccatctggc 1261 tcgccactgg cgcccgaatg catgggaagg gcttagggca gaactcggac cacatccagt 1321 gcctgaggcc gccttgctag aggcctaggg gaggggtgca ctgggctgcc tcgcccacct 1381 cctcacgcac ccatgcggcc accctcccag cggtctgagt gtgccatgcg aggcgcctgc 1441 caccccggga gaggcgccga gtcccgagtc ctgccggcac tgagcctccg ggtccacagc 1501 gggcaagggc cgtggcgggg acaagcgcag gggacccgcc ggcctcccgc cttctgcagc 1561 accacgagat gcccacgtgg cacctggacg tccatgcata tgttgaggcc cgtgcacgcg 1621 cagagacccc agcgcagaag ccgccccgca cgccagggct tatgtatgcc agcgctggga 1681 gacctccagc gcccgaggac atacggcaag tggttccacc agggtgtcag cctagcaggc 1741 caacctggga acccatgtgg acaagcggcc tttcagccca ggcgcccgcc tcgggtggag 1801 gcgtggagac ttctggcgca gccctgagct ggtggcctaa cctacctgga aaatcctagc 1861 ccgagaagca gcgcgagtga gccttttggg tggttccaag gcccttcacc aagctctcac 1921 ttcctgactt caccgttggg tctgttgtac taggaaataa taacgcctcc catttatcaa 1981 gggtttactc tgtaaaaa SEQ ID NO: 157 Human BCL7C Amino Acid Sequence isoform 1 (NP_001273455.1) 1 magrtvraet rsrakddikk vmatiekvrr wekrwvtvgd tslrifkwvp vvdpqeeerr 61 ragggaersr grerrgrgas prgggplill dlndensnqs fhsegslqkg tepspggtpq 121 psrpvspagp pegvpeeaqp prlggerdpg gitagstdep pmltkeepvp elleaedsgv 181 rmtrralhek glkteplrrl lprrglrtnv rpssmavpdt rapgggskap raprtipqgk 241 gr SEQ ID NO: 158 Human BCL7C cDNA Sequence variant 2 (NM_004765.3; CDS: 359-1012) 1 tccgtcccca actcgcgcgt ccgtccccaa ctcccgctct cggcggcggg cagggggcgc 61 tgagcgtcca ggcgctccaa gggggcgggc ccgggtcggg gcggggccgg ccgggcttcc 121 aggcctgggc tctggccgcc cgcgccaccg ggccgctccg gggacaggcc ggggcggggc 181 gcggcggcag gaaacggggc ggggacttgc ggaggcgttg gggacgagag agggcgcggc 241 caactccagg ggggacggca ggccgagagc gcggcgcccg ggcctggcgc ggagcctgag 301 cccgccggac gggaggcggc cccgccgcgg gctcggcccc ggccccagcc ccgccagcat 361 ggccggccgg actgtacggg ccgagacccg gagccgggcc aaggatgaca tcaagaaggt 421 gatggcgacc atcgagaagg tccggagatg ggagaagcga tgggtgactg tgggcgacac 481 ttcccttcgt atcttcaagt gggtgccagt ggtggatccc caggaggagg agcgaaggcg 541 ggcaggtggc ggggcagaga gatcccgtgg ccgggaacgt cggggcaggg gcgccagtcc 601 ccgagggggt ggccctctca tcctgctgga tcttaatgat gagaacagca accagagttt 661 ccattcggaa ggttccctgc aaaagggcac agagcccagt cctgggggca ccccccagcc 721 cagccgccct gtgtcacctg ccggaccccc agaaggggtc cctgaggagg ctcagccccc 781 acggctgggc caagagagag atcccggggg cataactgct ggcagcaccg acgaaccccc 841 aatgctgacc aaggaggagc ctgttccaga actgctggaa gctgaggccc ccgaagctta 901 ccctgtcttt gagccagtgc cacctgtccc tgaggcagcc cagggtgaca cagaggactc 961 ggagggtgcc cccccactca agcgcatctg cccaaatgcc cctgacccct gagaagccgg 1021 cctgcctgtc ctgttgcccc aggggcccct ttggcttttt acaaataaag acccttttgt 1081 aaaaaaaaaa aaaaaaaaaa a SEQ ID NO: 159 Human BCL7C Amino Acid Sequence isoform 2 (NP_004756.2) 1 magrtvraet rsrakddikk vmatiekvrr wekrwvtvgd tslrifkwvp vvdpqeeerr 61 ragggaersr grerrgrgas prgggplill dlndensnqs fhsegslqkg tepspggtpq 121 psrpvspagp pegvpeeaqp prlggerdpg gitagstdep pmltkeepvp elleaeapea 181 ypvfepvppv peaaqgdted segapplkri cpnapdp SEQ ID NO: 160 Mouse BCL7C cDNA Sequence variant 1 (NM_001347652.1; CDS: 240-965) 1 ggccggggct ctagcagccc gcgccgcccg ggccgctccg gggacgggcc ggggcggggc 61 gcggtcttag gaagccaggc ggggacgcgc ggaggcgttg gggagcgagg gagggcgcgg 121 ccaactcccg gagggacggc aggccgaaag agcggcgctg gggcctggcg ctcagcctga 181 gatcgccgga ccacaggccg ccccgccacg ggctctgtcc cggccccagc cccgccagca 241 tggccggccg gaccgtgcgg gccgagaccc ggagccgggc caaagatgac atcaagaagg 301 tgatggcgac catcgagaag gtccggagat gggagaagcg ctgggtgact gtgggagaca 361 cttcccttcg aatcttcaag tgggtgcctg tggtggatcc ccaggaggag gagaggcggc 421 gggcaggagg cggggcagag agatcccgtg gccgggagag acgtggtagg ggcaccagtc 481 ccagaggggg aggccccctc atcctactgg atctcaatga tgagaacagc aaccagagtt 541 tccattctga aggttcattg caaaagggtg ctgagcccag ccctgggggg acgccccagc 601 ccagccgccc tggatcacca actggacccc cagaagtgat tactgaagat actcagcccc 661 cacaattggg tcaggagaga gatccagggg ggacacctgc aggcggtact gatgaacccc 721 caaagctgac caaggaggag cctgttccag aattgctaga agctgaggat tccggcgtga 781 gactcaccag gagagccctt caagagaaag gcctgaaaac cgagcccctc aggaggcttc 841 tccccaggag aggcctccgg acaaattctc ggccaacttc cacggttccg gaacccagag 901 ctcccggaag tgggagcaag gcccagaggg cacccaggac gataccacaa gggaagggga 961 ggtgagcggg ttccaccaca caaggggagg cccttaggtc ttccttagct gcctcaagat 1021 ccagtcattt acccacaccg tttaagggtg gagagggctt tggagctggg cacccgcagc 1081 cagcaatgga ggtcggcagc cagctctctg cttgtccctg tccctaaatt atggatccat 1141 cctgcttgct gtgggtccaa aactactggg ccagagcagg tcccagacag ggaatgtctg 1201 gggacatctc taggtgatgc ctagaagcaa cttgaataca caaaatggtg gatcctatgc 1261 caacttggtc acctcctcac acacttaggg cagccatcca ccaaagggcc aggcatggcc 1321 cctggaggtg accttcgacc tttggaacta cagtatctac actggtgagg ggccctacca 1381 gcaagacttg agcagcgagc aacccctgaa gcactgggca aaaggtaatg ccacagcttg 1441 tgaatggtgt gaagattcaa ttgcccgtgt gtagagacac cactccagca agcacctggc 1501 agcctcaccc gcttccacga gcctatggac tctgggcctg ctaattaacc cttggctcca 1561 gaagacatgt gccaaccagg gtgccaacct tgcctcaggt caatcgaggg gtgcacatgg 1621 cccagtgacc tttcagacca ggccacagcc tcctgcccca ggaatggatg gagacatgtg 1681 gtccagcact gccaaatcta cctggaaact acccactttg agaaactcat ggcagatgag 1741 ccatctgagt gattccaagg gctttcatca acctcttgcc tccgacttga caactcactt 1801 ggccaggagg tagtgtctcc tgtaccacag agagctaact gtactacata ttgcaacttg 1861 tgggacttat ttaatgcagc actcctgtca tagatcctgt tactttcaca ttttacagat 1921 atagaaaaca agcaaccagg aggttaaaga gcttgcccca agtcacacag cctgtctgtg 1981 gcagagccag cattcacatc cagtctaccc acctgactcc acagtccctg ctagtgtacc 2041 actttttgtg ctgggcatgc aggtgggctg cagctgtgag ctttgttgag gcgttcattg 2101 aaggaacatc catttttctc agtggcaaat tacaaaggac ttttaatttt aactttcttc 2161 tgcctgacct accttccttc cttccttcct tccttccttc cttccttcct tccttccttc 2221 cttccttcct tcctttcttc ctctgctggc catgaaccca ctagaccagg ccagtcttga 2281 actcacagag gtctgtctat ctctgcctct ccagtgctgg gattaaaggt gagcgacacc 2341 atacccagct taggccttct ttgtttgttt gtttgttgtt ttttgagtaa taaggtaagc 2401 agatgttctg tgtccataac tgagatgaca tggacattga gtggtaaggg acttgagctc 2461 agcccctggg tccctcagat tcctctctgg agtgccattg atacaggaag catcatctag 2521 gcccagctcc tgattggcga cttcccagaa gccatgggct gtcatgccaa gtgactgggg 2581 aacttcaagt aacaaacatt tattaattag acttctgaac taccaatggg gcagaagttt 2641 tcacgtttca aacacagata ctagttttca agattcagaa atgaaacata ggaattctgg 2701 ggaggtccag aaagtcctac tttgtatttt tcataactct ctgtatctta aaagctaaga 2761 aactcacagt tcatcgtagt ttaaaagagc tgcaagcctt aaatattcaa aaggtagaaa 2821 ctgccagtgt gtgtcactgg gtagtagttg aataacaaaa tgtttacgga tccaattaga 2881 ttcatggtac tccagagtca tgagttgaaa tcgcggatat aaagacttat ttccaatgca 2941 tcatttctca gaacaccctg ggatttgtat aaaacacacg atgcatgtga acgcattcat 3001 gtttatctta tttctgagaa tcattctaca ggcgggggag cacgcataca tttttaatgt 3061 cagggctaca gaagactggc ctggcacggc tcccctcagt tcttggttcc caaattctaa 3121 ggatgtctgc cttcgtttca tgtgtcagcc tttcctgctc tcggacctga cacagtggct 3181 ccgtacagcg aggactcctc tgtgctgatg aacttcggct gttagaggac tgttagtatg 3241 tttcctgttt cgccaattta tttgctgatt ggttttgtga ttcaaaaaac aaacaagcaa 3301 gcaaacaaac aaaaacaaaa gcagggacca ggcgtggtgg cgcacgcctt taatcttgga 3361 ggcagaggca ggcggatttc tgagttcgag gccaacctga tctacaaagt gagttccagg 3421 acagccaggg ctatacagag aaaccctgtc tcaaaaacaa acaaacaaaa acaaacaaaa 3481 aaacaaaagc agacaaaatc accaccagca gcagcaacaa tcccaggttt cccaataatg 3541 tcagcaagga attctgaaca gacaaagtcc gtggggctga gcagggacgg tgaataagtg 3601 agctcgtgtt tatgaagccc agtgatctgc tccttgcagc cagaacgctc cagctcagcc 3661 aggccctggc acgagccctc ggctgaagca ctcacctctg agcttcagtt tagtgagtag 3721 catcctccct agaaagtaat attcttgctt catacggtga tatggtggaa gggttaccag 3781 catggctttg gagtcagaca gactgtggtt caaatcttag ctacacgact ttctacctct 3841 ttgatttggg gcaagttcta accgctggct ttttctcttc tgtaaaatga ggacatggaa 3901 tctatttcac agggctgtgg cttcagtgag atcacatatg acccgcttaa gtcaaagcgg 3961 gtccacggta tgtgtttgat cccacgtagg cattacccgc tgtatctacc tcacagggca 4021 gttgtgagga tgaagggtag agggaaatgc tttccaaact gtgaagtgat ctgtgtttac 4081 ctctctcctc tggagatgga gagataggaa gttgctgtca gacactagtg ggatgcccat 4141 ggagagggcc tagtatgctt ctgtgcacac agtgtggctg ggctgaaggg gaggtgctgt 4201 gttgtgcagt ggtgcacagc gggggcgtgc cctccggtga gggttgctgc actgaagtgg 4261 ggaagttcag tgcctatggc tacactgttg ggagcaggga gagcgcaggt cctatcttaa 4321 gaaggatgct agatgggggc taaagtagat gagtgtttgc ctagcatgag caagggccat 4381 ggatttcgta tctagcacct caggaaaaac acaacaaaca aacaaacaaa caaacccctc 4441 ttcttgttta aagattctgg ataaagaaca gtgttgtgaa cgtgtgtatc cactgtttgt 4501 ctttttaaat acaactcaaa tagcaggaag gcctgtgtgc acaagaggtg acaagtgact 4561 gcaagtgttt ccatcgctgg cagccatgca ccctcctacc acgagtacag atttcattct 4621 ggagtgtgca gaccaaatgc aggtcagagg gccctcccgg ggcaactcgc caagatcctg 4681 accaaagcct agcctcacaa agtaatccct agcccagtta gcagatcagg ggttggggct 4741 tgggaacgtc atgtccaatg tccaaggctg cacaggtcct gtggggacag aatccaagcc 4801 cttcacctgg attggggttc ctccgcctgc cagtctcaga tctctgatct tgaacaagga 4861 tagcatgcag aagagtaagg ttccatgcct aagtgacctc ctctggacct cagacgcagt 4921 tcttgctcct gacctcatgc ctcgtctcca gacatcactc cccagcttag cccttaggtc 4981 aggctcctct gggcaccatc cttagattca acccaaagga gggtcctctc attctaacca 5041 gactgtctct ccaaatacca ccctagtcag ctccttggct tctcagtgtc cccttggaga 5101 acatggggta taggttccca gctagttcag tggcattcca cagcccatct cttgtgaggt 5161 cccactcctt aacaatggtc tttcagtttc aaacgcatgc ggccagcggg cagtctaggg 5221 acccttcaaa gtcaatgctt cttgattaaa ttatcgagac taatgtttaa ctttgagata 5281 cgttttctga gagttgctaa ccggttggag atgaacttag agaatagggt tcaccttttt 5341 cgtctgtcag cgggttatcg agtgcccagt ggtgtgccag attcagcagc tggtgcagga 5401 gatacattcg tgagcaaaac agatctgagc cctgacttcg ggaggcctcc tcctaacaac 5461 tagggcagat ataaccagtg ttccctgaat acaaacgcct agcctggcat ggtggcacac 5521 acctatgatg tcagccctta ggagccggag gtaagaagat caggagttca gctatctttg 5581 gccaacctgg gctacataag accgtgtctt aaaaaaaaaa aaaaaaatcc aaacaaaata 5641 cacactataa ctgtgagaaa tgttgtgaag agaaaggtcc aaatgcagtg aaagagctca 5701 gtaaaaaaag tgtggggtgt gttaggacag tgacaacatg tgcccgtatg tggagaagag 5761 aatcctgggt aatgggagga gcttactgta ttggaatcgg cagcagcagt gaggtctgct 5821 gctggacgga gcctgccccc caggctgggt ggggaaggtg tcacggacct tgcagaccac 5881 ggtaaggaac ttgcattctg gtgtttaact ttttatttgg agaccatttc aaagtgactg 5941 gaaccttatg agagtggcac aaaagatgtc tgcatacttt ggctgcagcc tccccgactg 6001 acctgtaaac gttctgttcc ccgagtcacc acccgtgtct ccctgtgatg tgtactcata 6061 gcctgtagtc cgaactctga gaatgagttg catacattgt gtctgtttac acttaaaaca 6121 cagtggagac cccctacagt aatgcctcgc ccgcctccgc ctgccacact gggtttatcg 6181 ctggttggtg gctccacact gtttgttggt cgtctctcta gtcaccttca ttagcatctt 6241 ccctttagga caagtcacgt ctgcgaatga tgtggaccat gcgttgtgct ttcttgctcg 6301 tatcttttaa tgtggcgtag tttctttcct ctctgtttga atagactatt tctccttttg SEQ ID NO: 161 Mouse BCL7C Amino Acid Sequence isoform 1 (NP_001334581.1) 1 magrtvraet rsrakddikk vmatiekvrr wekrwvtvgd tslrifkwvp vvdpqeeerr 61 ragggaersr grerrgrgts prgggplill dlndensnqs fhsegslqkg aepspggtpq 121 psrpgsptgp pevitedtqp pqlggerdpg gtpaggtdep pkltkeepvp elleaedsgv 181 rltrralgek glkteplrrl lprrglrtns rptstvpepr apgsgskaqr aprtipqgkg 241 r SEQ ID NO: 162 Mouse BCL7C cDNA Sequence variant 2 (NM_009746.2; CDS: 240-893) 1 ggccggggct ctagcagccc gcgccgcccg ggccgctccg gggacgggcc ggggcggggc 61 gcggtcttag gaagccaggc ggggacgcgc ggaggcgttg gggagcgagg gagggcgcgg 121 ccaactcccg gagggacggc aggccgaaag agcggcgctg gggcctggcg ctcagcctga 181 gatcgccgga ccacaggccg ccccgccacg ggctctgtcc cggccccagc cccgccagca 241 tggccggccg gaccgtgcgg gccgagaccc ggagccgggc caaagatgac atcaagaagg 301 tgatggcgac catcgagaag gtccggagat gggagaagcg ctgggtgact gtgggagaca 361 cttcccttcg aatcttcaag tgggtgcctg tggtggatcc ccaggaggag gagaggcggc 421 gggcaggagg cggggcagag agatcccgtg gccgggagag acgtggtagg ggcaccagtc 481 ccagaggggg aggccccctc atcctactgg atctcaatga tgagaacagc aaccagagtt 541 tccattctga aggttcattg caaaagggtg ctgagcccag ccctgggggg acgccccagc 601 ccagccgccc tggatcacca actggacccc cagaagtgat tactgaagat actcagcccc 661 cacaattggg tcaggagaga gatccagggg ggacacctgc aggcggtact gatgaacccc 721 caaagctgac caaggaggag cctgttccag aattgctaga agctgaggcc cccgaagctt 781 accctgtctt tgagccagtg ccatctgtcc ctgaggcagc ccagggtgac acagaggact 841 cggagggcgc ccccccactc aagcgcatct gtccaaatgc ccctgacccc tgagaagccg 901 cctgcctcct gtcctgttgc tccaggggcc cctttggctt tttataaata aagacccttt 961 tgtaaaaaaa aaaaaaaaaa a SEQ ID NO: 163 Mouse BCL7C Amino Acid Sequence isoform 2 (NP_033876.1) 1 magrtvraet rsrakddikk vmatiekvrr wekrwvtvgd tslrifkwvp vvdpqeeerr 61 ragggaersr grerrgrgts prgggplill dlndensnqs fhsegslqkg aepspggtpq 121 psrpgsptgp pevitedtqp pqlggerdpg gtpaggtdep pkltkeepvp elleaeapea 181 ypvfepvpsv peaaqgdted segapplkri cpnapdp SEQ ID NO: 164 Human SMARCA2 Amino Acid Sequence Isoform A (NP_001276325.1 and NP_003061.3) 1 mstptdpgam phpgpspgpg pspgpilgps pgpgpspgsv hsmmgpspgp psyshpmptm 61 gstdfpgegm hqmhkpidgi hdkgivedih cgsmkgtgmr pphpgmgppq spmdqhsqgy 121 msphpsplga pehvsspmsg ggptppqmpp sqpgalipgd pqamsqpnrg pspfspvglh 181 qlragilayk mlargqplpe tlglavqgkr tlpglqqqqq qqqqqqqqqq qqqqqqqqpq 241 qqppqpqtqq qqqpalvnyn rpsgpgpels gpstpqklpv papggrpspa ppaaaqppaa 301 avpgpsvpqp apgqpspvlq lqqkqsrisp iqkpqgldpv eilgereyrl gariahrige 361 lenlpgslpp dlrtkatvel kalrllnfqr qlrgevvacm rrdttletal nskaykrskr 421 qtlrearmte klekqqkieq erkrrqkhqe ylnsilqhak dfkeyhrsva gkiqklskav 481 atwhantere qkketeriek ermrrlmaed eegyrklidq kkdrrlayll qqtdeyvanl 541 tnlvwehkqa qaakekkkrr rrkkkaeena eggesalgpd gepidessqm sdlpvkvtht 601 etgkvlfgpe apkasqldaw lemnpgyeva prsdseesds dyeeedeeee ssrqeteeki 661 lldpnseevs ekdakqiiet akqdvddeys mgysargsgs yytvahaise rvekqsalli 721 ngtlkhyqlq glewmvslyn nnlngilade mglgktiqti alitylmehk ringpyliiv 781 plstlsnwty efdkwapsvv kisykgtpam rrslvpqlrs gkfnvlltty eyiikdkhil 841 akirwkymiv deghrmknhh ckltqvinth yvaprrillt gtplqnklpe lwallnfllp 901 tifkscstfe qwfnapfamt gervdlneee tiliirrlhk vlrpfllrrl kkevesqlpe 961 kveyvikcdm salqkilyrh mqakgilltd gsekdkkgkg gaktlmntim qlrkicnhpy 1021 mfqhieesfa ehlgysngvi ngaelyrasg kfelldrilp klratnhrvl lfcgmtslmt 1081 imedyfafrn flylrldgtt ksedraallk kfnepgsqyf ifllstragg lglnlqaadt 1141 vvifdsdwnp hqdlqaqdra hrigqgnevr vlrlctvnsv eekilaaaky klnvdqkviq 1201 agmfdqksss herraflqai leheeeneee devpddetln qmiarreeef dlfmrmdmdr 1261 rredarnpkr kprlmeedel pswiikddae verltceeee ekifgrgsrq rrdvdysdal 1321 tekqwlraie dgnleemeee vrlkkrkrrr nvdkdpaked vekakkrrgr ppaeklspnp 1381 pkltkqmnai idtvinykdr cnvekvpsns qleiegnssg rqlsevfiql psrkelpeyy 1441 elirkpvdfk kikerirnhk yrslgdlekd vmllchnaqt fnlegsqiye dsivlqsvfk 1501 sarqkiakee esedesneee eeedeeeses eaksvkvkik lnkkddkgrd kgkgkkrpnr 1561 gkakpvvsdf dsdeeqdere qsegsgtdde SEQ ID NO: 165 Human SMARCA2 cDNA Sequence Variant 1 (NM_003070.4, CDS: 223-4995) 1 gcgtcttccg gcgcccgcgg aggaggcgag ggtgggacgc tgggcggagc ccgagtttag 61 gaagaggagg ggacggctgt catcaatgaa gtcatattca taatctagtc ctctctccct 121 ctgtttctgt actctgggtg actcagagag ggaagagatt cagccagcac actcctcgcg 181 agcaagcatt actctactga ctggcagaga caggagaggt agatgtccac gcccacagac 241 cctggtgcga tgccccaccc agggccttcg ccggggcctg ggccttcccc tgggccaatt 301 cttgggccta gtccaggacc aggaccatcc ccaggttccg tccacagcat gatggggcca 361 agtcctggac ctccaagtgt ctcccatcct atgccgacga tggggtccac agacttccca 421 caggaaggca tgcatcaaat gcataagccc atcgatggta tacatgacaa ggggattgta 481 gaagacatcc attgtggatc catgaagggc actggtatgc gaccacctca cccaggcatg 541 ggccctcccc agagtccaat ggatcaacac agccaaggtt atatgtcacc acacccatct 601 ccattaggag ccccagagca cgtctccagc cctatgtctg gaggaggccc aactccacct 661 cagatgccac caagccagcc gggggccctc atcccaggtg atccgcaggc catgagccag 721 cccaacagag gtccctcacc tttcagtcct gtccagctgc atcagcttcg agctcagatt 781 ttagcttata aaatgctggc ccgaggccag cccctccccg aaacgctgca gcttgcagtc 841 caggggaaaa ggacgttgcc tggcttgcag caacaacagc agcagcaaca gcagcagcag 901 cagcagcagc agcagcagca gcagcagcaa cagcagccgc agcagcagcc gccgcaacca 961 cagacgcagc aacaacagca gccggccctt gttaactaca acagaccatc tggcccgggg 1021 ccggagctga gcggcccgag caccccgcag aagctgccgg tgcccgcgcc cggcggccgg 1081 ccctcgcccg cgccccccgc agccgcgcag ccgcccgcgg ccgcagtgcc cgggccctca 1141 gtgccgcagc cggccccggg gcagccctcg cccgtcctcc agctgcagca gaagcagagc 1201 cgcatcagcc ccatccagaa accgcaaggc ctggaccccg tggaaattct gcaagagcgg 1261 gaatacagac ttcaggcccg catagctcat aggatacaag aactggaaaa tctgcctggc 1321 tctttgccac cagatttaag aaccaaagca accgtggaac taaaagcact tcggttactc 1381 aatttccagc gtcagctgag acaggaggtg gtggcctgca tgcgcaggga cacgaccctg 1441 gagacggctc tcaactccaa agcatacaaa cggagcaagc gccagactct gagagaagct 1501 cgcatgaccg agaagctgga gaagcagcag aagattgagc aggagaggaa acgccgtcag 1561 aaacaccagg aatacctgaa cagtattttg caacatgcaa aagattttaa ggaatatcat 1621 cggtctgtgg ccggaaagat ccagaagctc tccaaagcag tggcaacttg gcatgccaac 1681 actgaaagag agcagaagaa ggagacagag cggattgaaa aggagagaat gcggcgactg 1741 atggctgaag atgaggaggg ttatagaaaa ctgattgatc aaaagaaaga caggcgttta 1801 gcttaccttt tgcagcagac cgatgagtat gtagccaatc tgaccaatct ggtttgggag 1861 cacaagcaag cccaggcagc caaagagaag aagaagagga ggaggaggaa gaagaaggct 1921 gaggagaatg cagagggtgg ggagtctgcc ctgggaccgg atggagagcc catagatgag 1981 agcagccaga tgagtgacct ccctgtcaaa gtgactcaca cagaaaccgg caaggttctg 2041 ttcggaccag aagcacccaa agcaagtcag ctggacgcct ggctggaaat gaatcctggt 2101 tatgaagttg cccctagatc tgacagtgaa gagagtgatt ctgattatga ggaagaggat 2161 gaggaagaag agtccagtag gcaggaaacc gaagagaaaa tactcctgga tccaaatagc 2221 gaagaagttt ctgagaagga tgctaagcag atcattgaga cagctaagca agacgtggat 2281 gatgaataca gcatgcagta cagtgccagg ggctcccagt cctactacac cgtggctcat 2341 gccatctcgg agagggtgga gaaacagtct gccctcctaa ttaatgggac cctaaagcat 2401 taccagctcc agggcctgga atggatggtt tccctgtata ataacaactt gaacggaatc 2461 ttagccgatg aaatggggct tggaaagacc atacagacca ttgcactcat cacttatctg 2521 atggagcaca aaagactcaa tggcccctat ctcatcattg ttcccctttc gactctatct 2581 aactggacat atgaatttga caaatgggct ccttctgtgg tgaagatttc ttacaagggt 2641 actcctgcca tgcgtcgctc ccttgtcccc cagctacgga gtggcaaatt caatgtcctc 2701 ttgactactt atgagtatat tataaaagac aagcacattc ttgcaaagat tcggtggaaa 2761 tacatgatag tggacgaagg ccaccgaatg aagaatcacc actgcaagct gactcaggtc 2821 ttgaacactc actatgtggc ccccagaagg atcctcttga ctgggacccc gctgcagaat 2881 aagctccctg aactctgggc cctcctcaac ttcctcctcc caacaatttt taagagctgc 2941 agcacatttg aacaatggtt caatgctcca tttgccatga ctggtgaaag ggtggactta 3001 aatgaagaag aaactatatt gatcatcagg cgtctacata aggtgttaag accattttta 3061 ctaaggagac tgaagaaaga agttgaatcc cagcttcccg aaaaagtgga atatgtgatc 3121 aagtgtgaca tgtcagctct gcagaagatt ctgtatcgcc atatgcaagc caaggggatc 3181 cttctcacag atggttctga gaaagataag aaggggaaag gaggtgctaa gacacttatg 3241 aacactatta tgcagttgag aaaaatctgc aaccacccat atatgtttca gcacattgag 3301 gaatcctttg ctgaacacct aggctattca aatggggtca tcaatggggc tgaactgtat 3361 cgggcctcag ggaagtttga gctgcttgat cgtattctgc caaaattgag agcgactaat 3421 caccgagtgc tgcttttctg ccagatgaca tctctcatga ccatcatgga ggattatttt 3481 gcttttcgga acttccttta cctacgcctt gatggcacca ccaagtctga agatcgtgct 3541 gctttgctga agaaattcaa tgaacctgga tcccagtatt tcattttctt gctgagcaca 3601 agagctggtg gcctgggctt aaatcttcag gcagctgata cagtggtcat ctttgacagc 3661 gactggaatc ctcatcagga tctgcaggcc caagaccgag ctcaccgcat cgggcagcag 3721 aacgaggtcc gggtactgag gctctgtacc gtgaacagcg tggaggaaaa gatcctcgcg 3781 gccgcaaaat acaagctgaa cgtggatcag aaagtgatcc aggcgggcat gtttgaccaa 3841 aagtcttcaa gccacgagcg gagggcattc ctgcaggcca tcttggagca tgaggaggaa 3901 aatgaggaag aagatgaagt accggacgat gagactctga accaaatgat tgctcgacga 3961 gaagaagaat ttgacctttt tatgcggatg gacatggacc ggcggaggga agatgcccgg 4021 aacccgaaac ggaagccccg tttaatggag gaggatgagc tgccctcctg gatcattaag 4081 gatgacgctg aagtagaaag gctcacctgt gaagaagagg aggagaaaat atttgggagg 4141 gggtcccgcc agcgccgtga cgtggactac agtgacgccc tcacggagaa gcagtggcta 4201 agggccatcg aagacggcaa tttggaggaa atggaagagg aagtacggct taagaagcga 4261 aaaagacgaa gaaatgtgga taaagatcct gcaaaagaag atgtggaaaa agctaagaag 4321 agaagaggcc gccctcccgc tgagaaactg tcaccaaatc cccccaaact gacaaagcag 4381 atgaacgcta tcatcgatac tgtgataaac tacaaagata ggtgtaacgt ggagaaggtg 4441 cccagtaatt ctcagttgga aatagaagga aacagttcag ggcgacagct cagtgaagtc 4501 ttcattcagt taccttcaag gaaagaatta ccagaatact atgaattaat taggaagcca 4561 gtggatttca aaaaaataaa ggaaaggatt cgtaatcata agtaccggag cctaggcgac 4621 ctggagaagg atgtcatgct tctctgtcac aacgctcaga cgttcaacct ggagggatcc 4681 cagatctatg aagactccat cgtcttacag tcagtgttta agagtgcccg gcagaaaatt 4741 gccaaagagg aagagagtga ggatgaaagc aatgaagagg aggaagagga agatgaagaa 4801 gagtcagagt ccgaggcaaa atcagtcaag gtgaaaatta agctcaataa aaaagatgac 4861 aaaggccggg acaaagggaa aggcaagaaa aggccaaatc gaggaaaagc caaacctgta 4921 gtgagcgatt ttgacagcga tgaggagcag gatgaacgtg aacagtcaga aggaagtggg 4981 acggatgatg agtgatcagt atggaccttt ttccttggta gaactgaatt ccttcctccc 5041 ctgtctcatt tctacccagt gagttcattt gtcatatagg cactgggttg tttctatatc 5101 atcatcgtct ataaactagc tttaggatag tgccagacaa acatatgata tcatggtgta 5161 aaaaacacac acatacacaa atatttgtaa catattgtga ccaaatgggc ctcaaagatt 5221 cagattgaaa caaacaaaaa gcttttgatg gaaaatatgt gggtggatag tatatttcta 5281 tgggtgggtc taatttggta acggtttgat tgtgcctggt tttatcacct gttcagatga 5341 gaagattttt gtcttttgta gcactgataa ccaggagaag ccattaaaag ccactggtta 5401 ttttattttt catcaggcaa ttttcgaggt ttttatttgt tcggtattgt ttttttacac 5461 tgtggtacat ataagcaact ttaataggtg ataaatgtac agtagttaga tttcacctgc 5521 atatacattt ttccatttta tgctctatga tctgaacaaa agctttttga attgtataag 5581 atttatgtct actgtaaaca ttgcttaatt tttttgctct tgatttaaaa aaaagttttg 5641 ttgaaagcgc tattgaatat tgcaatctat atagtgtatt ggatggcttc ttttgtcacc 5701 ctgatctcct atgttaccaa tgtgtatcgt ctccttctcc ctaaagtgta cttaatcttt 5761 gctttctttg cacaatgtct ttggttgcaa gtcataagcc tgaggcaaat aaaattccag 5821 taatttcgaa gaatgtggtg ttggtgcttt cctaataaag aaataattta gcttgacaaa 5881 aaaaaaaaaa aa SEQ ID NO: 166 Human SMARCA2 cDNA Sequence Variant 3 (NM_001289396.1, CDS: 210-4982) 1 tcagaagaaa gccccgagat cacagagacc cggcgagatc acagagaccc ggcctgaagg 61 aacgtggaaa gaccaatgta cctgttttga ccggttgcct ggagcaagaa gttccagttg 121 gggagaattt tcagaagata aagtcggaga ttgtggaaag acttgacttg cagcattact 181 ctactgactg gcagagacag gagaggtaga tgtccacgcc cacagaccct ggtgcgatgc 241 cccacccagg gccttcgccg gggcctgggc cttcccctgg gccaattctt gggcctagtc 301 caggaccagg accatcccca ggttccgtcc acagcatgat ggggccaagt cctggacctc 361 caagtgtctc ccatcctatg ccgacgatgg ggtccacaga cttcccacag gaaggcatgc 421 atcaaatgca taagcccatc gatggtatac atgacaaggg gattgtagaa gacatccatt 481 gtggatccat gaagggcact ggtatgcgac cacctcaccc aggcatgggc cctccccaga 541 gtccaatgga tcaacacagc caaggttata tgtcaccaca cccatctcca ttaggagccc 601 cagagcacgt ctccagccct atgtctggag gaggcccaac tccacctcag atgccaccaa 661 gccagccggg ggccctcatc ccaggtgatc cgcaggccat gagccagccc aacagaggtc 721 cctcaccttt cagtcctgtc cagctgcatc agcttcgagc tcagatttta gcttataaaa 781 tgctggcccg aggccagccc ctccccgaaa cgctgcagct tgcagtccag gggaaaagga 841 cgttgcctgg cttgcagcaa caacagcagc agcaacagca gcagcagcag cagcagcagc 901 agcagcagca gcagcaacag cagccgcagc agcagccgcc gcaaccacag acgcagcaac 961 aacagcagcc ggcccttgtt aactacaaca gaccatctgg cccggggccg gagctgagcg 1021 gcccgagcac cccgcagaag ctgccggtgc ccgcgcccgg cggccggccc tcgcccgcgc 1081 cccccgcagc cgcgcagccg cccgcggccg cagtgcccgg gccctcagtg ccgcagccgg 1141 ccccggggca gccctcgccc gtcctccagc tgcagcagaa gcagagccgc atcagcccca 1201 tccagaaacc gcaaggcctg gaccccgtgg aaattctgca agagcgggaa tacagacttc 1261 aggcccgcat agctcatagg atacaagaac tggaaaatct gcctggctct ttgccaccag 1321 atttaagaac caaagcaacc gtggaactaa aagcacttcg gttactcaat ttccagcgtc 1381 agctgagaca ggaggtggtg gcctgcatgc gcagggacac gaccctggag acggctctca 1441 actccaaagc atacaaacgg agcaagcgcc agactctgag agaagctcgc atgaccgaga 1501 agctggagaa gcagcagaag attgagcagg agaggaaacg ccgtcagaaa caccaggaat 1561 acctgaacag tattttgcaa catgcaaaag attttaagga atatcatcgg tctgtggccg 1621 gaaagatcca gaagctctcc aaagcagtgg caacttggca tgccaacact gaaagagagc 1681 agaagaagga gacagagcgg attgaaaagg agagaatgcg gcgactgatg gctgaagatg 1741 aggagggtta tagaaaactg attgatcaaa agaaagacag gcgtttagct taccttttgc 1801 agcagaccga tgagtatgta gccaatctga ccaatctggt ttgggagcac aagcaagccc 1861 aggcagccaa agagaagaag aagaggagga ggaggaagaa gaaggctgag gagaatgcag 1921 agggtgggga gtctgccctg ggaccggatg gagagcccat agatgagagc agccagatga 1981 gtgacctccc tgtcaaagtg actcacacag aaaccggcaa ggttctgttc ggaccagaag 2041 cacccaaagc aagtcagctg gacgcctggc tggaaatgaa tcctggttat gaagttgccc 2101 ctagatctga cagtgaagag agtgattctg attatgagga agaggatgag gaagaagagt 2161 ccagtaggca ggaaaccgaa gagaaaatac tcctggatcc aaatagcgaa gaagtttctg 2221 agaaggatgc taagcagatc attgagacag ctaagcaaga cgtggatgat gaatacagca 2281 tgcagtacag tgccaggggc tcccagtcct actacaccgt ggctcatgcc atctcggaga 2341 gggtggagaa acagtctgcc ctcctaatta atgggaccct aaagcattac cagctccagg 2401 gcctggaatg gatggtttcc ctgtataata acaacttgaa cggaatctta gccgatgaaa 2461 tggggcttgg aaagaccata cagaccattg cactcatcac ttatctgatg gagcacaaaa 2521 gactcaatgg cccctatctc atcattgttc ccctttcgac tctatctaac tggacatatg 2581 aatttgacaa atgggctcct tctgtggtga agatttctta caagggtact cctgccatgc 2641 gtcgctccct tgtcccccag ctacggagtg gcaaattcaa tgtcctcttg actacttatg 2701 agtatattat aaaagacaag cacattcttg caaagattcg gtggaaatac atgatagtgg 2761 acgaaggcca ccgaatgaag aatcaccact gcaagctgac tcaggtcttg aacactcact 2821 atgtggcccc cagaaggatc ctcttgactg ggaccccgct gcagaataag ctccctgaac 2881 tctgggccct cctcaacttc ctcctcccaa caatttttaa gagctgcagc acatttgaac 2941 aatggttcaa tgctccattt gccatgactg gtgaaagggt ggacttaaat gaagaagaaa 3001 ctatattgat catcaggcgt ctacataagg tgttaagacc atttttacta aggagactga 3061 agaaagaagt tgaatcccag cttcccgaaa aagtggaata tgtgatcaag tgtgacatgt 3121 cagctctgca gaagattctg tatcgccata tgcaagccaa ggggatcctt ctcacagatg 3181 gttctgagaa agataagaag gggaaaggag gtgctaagac acttatgaac actattatgc 3241 agttgagaaa aatctgcaac cacccatata tgtttcagca cattgaggaa tcctttgctg 3301 aacacctagg ctattcaaat ggggtcatca atggggctga actgtatcgg gcctcaggga 3361 agtttgagct gcttgatcgt attctgccaa aattgagagc gactaatcac cgagtgctgc 3421 ttttctgcca gatgacatct ctcatgacca tcatggagga ttattttgct tttcggaact 3481 tcctttacct acgccttgat ggcaccacca agtctgaaga tcgtgctgct ttgctgaaga 3541 aattcaatga acctggatcc cagtatttca ttttcttgct gagcacaaga gctggtggcc 3601 tgggcttaaa tcttcaggca gctgatacag tggtcatctt tgacagcgac tggaatcctc 3661 atcaggatct gcaggcccaa gaccgagctc accgcatcgg gcagcagaac gaggtccggg 3721 tactgaggct ctgtaccgtg aacagcgtgg aggaaaagat cctcgcggcc gcaaaataca 3781 agctgaacgt ggatcagaaa gtgatccagg cgggcatgtt tgaccaaaag tcttcaagcc 3841 acgagcggag ggcattcctg caggccatct tggagcatga ggaggaaaat gaggaagaag 3901 atgaagtacc ggacgatgag actctgaacc aaatgattgc tcgacgagaa gaagaatttg 3961 acctttttat gcggatggac atggaccggc ggagggaaga tgcccggaac ccgaaacgga 4021 agccccgttt aatggaggag gatgagctgc cctcctggat cattaaggat gacgctgaag 4081 tagaaaggct cacctgtgaa gaagaggagg agaaaatatt tgggaggggg tcccgccagc 4141 gccgtgacgt ggactacagt gacgccctca cggagaagca gtggctaagg gccatcgaag 4201 acggcaattt ggaggaaatg gaagaggaag tacggcttaa gaagcgaaaa agacgaagaa 4261 atgtggataa agatcctgca aaagaagatg tggaaaaagc taagaagaga agaggccgcc 4321 ctcccgctga gaaactgtca ccaaatcccc ccaaactgac aaagcagatg aacgctatca 4381 tcgatactgt gataaactac aaagataggt gtaacgtgga gaaggtgccc agtaattctc 4441 agttggaaat agaaggaaac agttcagggc gacagctcag tgaagtcttc attcagttac 4501 cttcaaggaa agaattacca gaatactatg aattaattag gaagccagtg gatttcaaaa 4561 aaataaagga aaggattcgt aatcataagt accggagcct aggcgacctg gagaaggatg 4621 tcatgcttct ctgtcacaac gctcagacgt tcaacctgga gggatcccag atctatgaag 4681 actccatcgt cttacagtca gtgtttaaga gtgcccggca gaaaattgcc aaagaggaag 4741 agagtgagga tgaaagcaat gaagaggagg aagaggaaga tgaagaagag tcagagtccg 4801 aggcaaaatc agtcaaggtg aaaattaagc tcaataaaaa agatgacaaa ggccgggaca 4861 aagggaaagg caagaaaagg ccaaatcgag gaaaagccaa acctgtagtg agcgattttg 4921 acagcgatga ggagcaggat gaacgtgaac agtcagaagg aagtgggacg gatgatgagt 4981 gatcagtatg gacctttttc cttggtagaa ctgaattcct tcctcccctg tctcatttct 5041 acccagtgag ttcatttgtc atataggcac tgggttgttt ctatatcatc atcgtctata 5101 aactagcttt aggatagtgc cagacaaaca tatgatatca tggtgtaaaa aacacacaca 5161 tacacaaata tttgtaacat attgtgacca aatgggcctc aaagattcag attgaaacaa 5221 acaaaaagct tttgatggaa aatatgtggg tggatagtat atttctatgg gtgggtctaa 5281 tttggtaacg gtttgattgt gcctggtttt atcacctgtt cagatgagaa gatttttgtc 5341 ttttgtagca ctgataacca ggagaagcca ttaaaagcca ctggttattt tatttttcat 5401 caggcaattt tcgaggtttt tatttgttcg gtattgtttt tttacactgt ggtacatata 5461 agcaacttta ataggtgata aatgtacagt agttagattt cacctgcata tacatttttc 5521 cattttatgc tctatgatct gaacaaaagc tttttgaatt gtataagatt tatgtctact 5581 gtaaacattg cttaattttt ttgctcttga tttaaaaaaa agttttgttg aaagcgctat 5641 tgaatattgc aatctatata gtgtattgga tggcttcttt tgtcaccctg atctcctatg 5701 ttaccaatgt gtatcgtctc cttctcccta aagtgtactt aatctttgct ttctttgcac 5761 aatgtctttg gttgcaagtc ataagcctga ggcaaataaa attccagtaa tttcgaagaa 5821 tgtggtgttg gtgctttcct aataaagaaa taatttagct tgacaaaaaa aaaaaaaaa SEQ ID NO: 167 Human SMARCA2 Amino Acid Sequence Isoform B (NP_620614.2) 1 mstptdpgam phpgpspgpg pspgpilgps pgpgpspgsv hsmmgpspgp psyshpmptm 61 gstdfpqegm hqmhkpidgi hdkgivedih cgsmkgtgmr pphpgmgppq spmdqhsqgy 121 msphpsplga pehvsspmsg ggptppqmpp sqpgalipgd pqamsqpnrg pspfspvglh 181 qlraqilayk mlargqplpe tlglavqgkr tlpglqqqqq qqqqqqqqqq qqqqqqqqpq 241 qqppqpqtqq qqqpalvnyn rpsgpgpels gpstpqklpv papggrpspa ppaaaqppaa 301 avpgpsvpqp apgqpspvlq lqqkqsrisp iqkpqgldpv eilqereyrl qariahriqe 361 lenlpgslpp dlrtkatvel kalrllnfqr qlrgevvacm rrdttletal nskaykrskr 421 qtlrearmte klekqqkieq erkrrqkhqe ylnsilqhak dfkeyhrsva gkiqklskav 481 atwhantere qkketeriek ermrrlmaed eegyrklidq kkdrrlayll qqtdeyvanl 541 tnlvwehkqa qaakekkkrr rrkkkaeena eggesalgpd gepidessqm sdlpvkvtht 601 etgkvlfgpe apkasqldaw lemnpgyeva prsdseesds dyeeedeeee ssrqeteeki 661 lldpnseevs ekdakqiiet akqdvddeys mgysargsgs yytvahaise rvekqsalli 721 ngtlkhyqlq glewmvslyn nnlngilade mglgktiqti alitylmehk rlngpyliiv 781 plstlsnwty efdkwapsvv kisykgtpam rrslvpqlrs gkfnvlltty eyiikdkhil 841 akirwkymiv deghrmknhh ckltqvinth yvaprrillt gtplqnklpe lwallnfllp 901 tifkscstfe qwfnapfamt gervdlneee tiliirrlhk vlrpfllrrl kkevesqlpe 961 kveyvikcdm salqkilyrh mqakgilltd gsekdkkgkg gaktlmntim qlrkicnhpy 1021 mfqhieesfa ehlgysngvi ngaelyrasg kfelldrilp klratnhrvl lfcqmtslmt 1081 imedyfafrn flylrldgtt ksedraallk kfnepgsqyf ifllstragg lglnlqaadt 1141 vvifdsdwnp hqdlqaqdra hrigqgnevr vlrlctvnsv eekilaaaky klnvdqkviq 1201 agmfdqksss herraflqai leheeeneee devpddetln qmiarreeef dlfmrmdmdr 1261 rredarnpkr kprlmeedel pswiikddae verltceeee ekifgrgsrq rrdvdysdal 1321 tekqwlraie dgnleemeee vrlkkrkrrr nvdkdpaked vekakkrrgr ppaeklspnp 1381 pkltkqmnai idtvinykds sgrqlsevfi qlpsrkelpe yyelirkpvd fkkikerirn 1441 hkyrslgdle kdvmllchna qtfnlegsqi yedsivlqsv fksarqkiak eeesedesne 1501 eeeeedeees eseaksvkvk iklnkkddkg rdkgkgkkrp nrgkakpvvs dfdsdeecide 1561 reqsegsgtd de SEQ ID NO: 168 Human SMARCA2 cDNA Sequence Variant 2 (NM_139045.3, CDS: 223-4941) 1 gcgtcttccg gcgcccgcgg aggaggcgag ggtgggacgc tgggcggagc ccgagtttag 61 gaagaggagg ggacggctgt catcaatgaa gtcatattca taatctagtc ctctctccct 121 ctgtttctgt actctgggtg actcagagag ggaagagatt cagccagcac actcctcgcg 181 agcaagcatt actctactga ctggcagaga caggagaggt agatgtccac gcccacagac 241 cctggtgcga tgccccaccc agggccttcg ccggggcctg ggccttcccc tgggccaatt 301 cttgggccta gtccaggacc aggaccatcc ccaggttccg tccacagcat gatggggcca 361 agtcctggac ctccaagtgt ctcccatcct atgccgacga tggggtccac agacttccca 421 caggaaggca tgcatcaaat gcataagccc atcgatggta tacatgacaa ggggattgta 481 gaagacatcc attgtggatc catgaagggc actggtatgc gaccacctca cccaggcatg 541 ggccctcccc agagtccaat ggatcaacac agccaaggtt atatgtcacc acacccatct 601 ccattaggag ccccagagca cgtctccagc cctatgtctg gaggaggccc aactccacct 661 cagatgccac caagccagcc gggggccctc atcccaggtg atccgcaggc catgagccag 721 cccaacagag gtccctcacc tttcagtcct gtccagctgc atcagcttcg agctcagatt 781 ttagcttata aaatgctggc ccgaggccag cccctccccg aaacgctgca gcttgcagtc 841 caggggaaaa ggacgttgcc tggcttgcag caacaacagc agcagcaaca gcagcagcag 901 cagcagcagc agcagcagca gcagcagcaa cagcagccgc agcagcagcc gccgcaacca 961 cagacgcagc aacaacagca gccggccctt gttaactaca acagaccatc tggcccgggg 1021 ccggagctga gcggcccgag caccccgcag aagctgccgg tgcccgcgcc cggcggccgg 1081 ccctcgcccg cgccccccgc agccgcgcag ccgcccgcgg ccgcagtgcc cgggccctca 1141 gtgccgcagc cggccccggg gcagccctcg cccgtcctcc agctgcagca gaagcagagc 1201 cgcatcagcc ccatccagaa accgcaaggc ctggaccccg tggaaattct gcaagagcgg 1261 gaatacagac ttcaggcccg catagctcat aggatacaag aactggaaaa tctgcctggc 1321 tctttgccac cagatttaag aaccaaagca accgtggaac taaaagcact tcggttactc 1381 aatttccagc gtcagctgag acaggaggtg gtggcctgca tgcgcaggga cacgaccctg 1441 gagacggctc tcaactccaa agcatacaaa cggagcaagc gccagactct gagagaagct 1501 cgcatgaccg agaagctgga gaagcagcag aagattgagc aggagaggaa acgccgtcag 1561 aaacaccagg aatacctgaa cagtattttg caacatgcaa aagattttaa ggaatatcat 1621 cggtctgtgg ccggaaagat ccagaagctc tccaaagcag tggcaacttg gcatgccaac 1681 actgaaagag agcagaagaa ggagacagag cggattgaaa aggagagaat gcggcgactg 1741 atggctgaag atgaggaggg ttatagaaaa ctgattgatc aaaagaaaga caggcgttta 1801 gcttaccttt tgcagcagac cgatgagtat gtagccaatc tgaccaatct ggtttgggag 1861 cacaagcaag cccaggcagc caaagagaag aagaagagga ggaggaggaa gaagaaggct 1921 gaggagaatg cagagggtgg ggagtctgcc ctgggaccgg atggagagcc catagatgag 1981 agcagccaga tgagtgacct ccctgtcaaa gtgactcaca cagaaaccgg caaggttctg 2041 ttcggaccag aagcacccaa agcaagtcag ctggacgcct ggctggaaat gaatcctggt 2101 tatgaagttg cccctagatc tgacagtgaa gagagtgatt ctgattatga ggaagaggat 2161 gaggaagaag agtccagtag gcaggaaacc gaagagaaaa tactcctgga tccaaatagc 2221 gaagaagttt ctgagaagga tgctaagcag atcattgaga cagctaagca agacgtggat 2281 gatgaataca gcatgcagta cagtgccagg ggctcccagt cctactacac cgtggctcat 2341 gccatctcgg agagggtgga gaaacagtct gccctcctaa ttaatgggac cctaaagcat 2401 taccagctcc agggcctgga atggatggtt tccctgtata ataacaactt gaacggaatc 2461 ttagccgatg aaatggggct tggaaagacc atacagacca ttgcactcat cacttatctg 2521 atggagcaca aaagactcaa tggcccctat ctcatcattg ttcccctttc gactctatct 2581 aactggacat atgaatttga caaatgggct ccttctgtgg tgaagatttc ttacaagggt 2641 actcctgcca tgcgtcgctc ccttgtcccc cagctacgga gtggcaaatt caatgtcctc 2701 ttgactactt atgagtatat tataaaagac aagcacattc ttgcaaagat tcggtggaaa 2761 tacatgatag tggacgaagg ccaccgaatg aagaatcacc actgcaagct gactcaggtc 2821 ttgaacactc actatgtggc ccccagaagg atcctcttga ctgggacccc gctgcagaat 2881 aagctccctg aactctgggc cctcctcaac ttcctcctcc caacaatttt taagagctgc 2941 agcacatttg aacaatggtt caatgctcca tttgccatga ctggtgaaag ggtggactta 3001 aatgaagaag aaactatatt gatcatcagg cgtctacata aggtgttaag accattttta 3061 ctaaggagac tgaagaaaga agttgaatcc cagcttcccg aaaaagtgga atatgtgatc 3121 aagtgtgaca tgtcagctct gcagaagatt ctgtatcgcc atatgcaagc caaggggatc 3181 cttctcacag atggttctga gaaagataag aaggggaaag gaggtgctaa gacacttatg 3241 aacactatta tgcagttgag aaaaatctgc aaccacccat atatgtttca gcacattgag 3301 gaatcctttg ctgaacacct aggctattca aatggggtca tcaatggggc tgaactgtat 3361 cgggcctcag ggaagtttga gctgcttgat cgtattctgc caaaattgag agcgactaat 3421 caccgagtgc tgcttttctg ccagatgaca tctctcatga ccatcatgga ggattatttt 3481 gcttttcgga acttccttta cctacgcctt gatggcacca ccaagtctga agatcgtgct 3541 gctttgctga agaaattcaa tgaacctgga tcccagtatt tcattttctt gctgagcaca 3601 agagctggtg gcctgggctt aaatcttcag gcagctgata cagtggtcat ctttgacagc 3661 gactggaatc ctcatcagga tctgcaggcc caagaccgag ctcaccgcat cgggcagcag 3721 aacgaggtcc gggtactgag gctctgtacc gtgaacagcg tggaggaaaa gatcctcgcg 3781 gccgcaaaat acaagctgaa cgtggatcag aaagtgatcc aggcgggcat gtttgaccaa 3841 aagtcttcaa gccacgagcg gagggcattc ctgcaggcca tcttggagca tgaggaggaa 3901 aatgaggaag aagatgaagt accggacgat gagactctga accaaatgat tgctcgacga 3961 gaagaagaat ttgacctttt tatgcggatg gacatggacc ggcggaggga agatgcccgg 4021 aacccgaaac ggaagccccg tttaatggag gaggatgagc tgccctcctg gatcattaag 4081 gatgacgctg aagtagaaag gctcacctgt gaagaagagg aggagaaaat atttgggagg 4141 gggtcccgcc agcgccgtga cgtggactac agtgacgccc tcacggagaa gcagtggcta 4201 agggccatcg aagacggcaa tttggaggaa atggaagagg aagtacggct taagaagcga 4261 aaaagacgaa gaaatgtgga taaagatcct gcaaaagaag atgtggaaaa agctaagaag 4321 agaagaggcc gccctcccgc tgagaaactg tcaccaaatc cccccaaact gacaaagcag 4381 atgaacgcta tcatcgatac tgtgataaac tacaaagata gttcagggcg acagctcagt 4441 gaagtcttca ttcagttacc ttcaaggaaa gaattaccag aatactatga attaattagg 4501 aagccagtgg atttcaaaaa aataaaggaa aggattcgta atcataagta ccggagccta 4561 ggcgacctgg agaaggatgt catgcttctc tgtcacaacg ctcagacgtt caacctggag 4621 ggatcccaga tctatgaaga ctccatcgtc ttacagtcag tgtttaagag tgcccggcag 4681 aaaattgcca aagaggaaga gagtgaggat gaaagcaatg aagaggagga agaggaagat 4741 gaagaagagt cagagtccga ggcaaaatca gtcaaggtga aaattaagct caataaaaaa 4801 gatgacaaag gccgggacaa agggaaaggc aagaaaaggc caaatcgagg aaaagccaaa 4861 cctgtagtga gcgattttga cagcgatgag gagcaggatg aacgtgaaca gtcagaagga 4921 agtgggacgg atgatgagtg atcagtatgg acctttttcc ttggtagaac tgaattcctt 4981 cctcccctgt ctcatttcta cccagtgagt tcatttgtca tataggcact gggttgtttc 5041 tatatcatca tcgtctataa actagcttta ggatagtgcc agacaaacat atgatatcat 5101 ggtgtaaaaa acacacacat acacaaatat ttgtaacata ttgtgaccaa atgggcctca 5161 aagattcaga ttgaaacaaa caaaaagctt ttgatggaaa atatgtgggt ggatagtata 5221 tttctatggg tgggtctaat ttggtaacgg tttgattgtg cctggtttta tcacctgttc 5281 agatgagaag atttttgtct tttgtagcac tgataaccag gagaagccat taaaagccac 5341 tggttatttt atttttcatc aggcaatttt cgaggttttt atttgttcgg tattgttttt 5401 ttacactgtg gtacatataa gcaactttaa taggtgataa atgtacagta gttagatttc 5461 acctgcatat acatttttcc attttatgct ctatgatctg aacaaaagct ttttgaattg 5521 tataagattt atgtctactg taaacattgc ttaatttttt tgctcttgat ttaaaaaaaa 5581 gttttgttga aagcgctatt gaatattgca atctatatag tgtattggat ggcttctttt 5641 gtcaccctga tctcctatgt taccaatgtg tatcgtctcc ttctccctaa agtgtactta 5701 atctttgctt tctttgcaca atgtctttgg ttgcaagtca taagcctgag gcaaataaaa 5761 ttccagtaat ttcgaagaat gtggtgttgg tgctttccta ataaagaaat aatttagctt 5821 gacaaaaaaa aaaaaaaa SEQ ID NO: 169 Human SMARCA2 Amino Acid Sequence Isoform C (NP_001276326.1) 1 mstptdpgam phpgpspgpg pspgpilgps pgpgpspgsv hsmmgpspgp psyshpmptm 61 gstdfpqegm hqmhkpidgi hdkgivedih cgsmkgtgmr pphpgmgppq spmdqhsqgy 121 msphpsplga pehvsspmsg ggptppqmpp sqpgalipgd pqamsqpnrg pspfspvglh 181 qlragilayk mlargqplpe tlglavqgkr tlpglqqqqq qqqqqqqqqq qqqqqqqqpq 241 qqppqpqtqq qqqpalvnyn rpsgpgpels gpstpqklpv papggrpspa ppaaaqppaa 301 avpgpsvpqp apgqpspvlq lqqkqsrisp iqkpqgldpv eilqereyrl qariahrige 361 lenlpgslpp dlrtkatvel kalrllnfqr qlrgevvacm rrdttletal nskaykrskr 421 qtlrearmte klekqqkieq erkrrqkhqe ylnsilqhak dfkeyhrsva gkiqklskav 481 atwhantere qkketeriek ermrrlmaed eegyrklidq kkdrrlayll qqtdeyvanl 541 tnlvwehkqa qaakekkkrr rrkkkaeena eggesalgpd gepidessqm sdlpvkvtht 601 etgkvlfgpe apkasqldaw lemnpgyeva prsdseesds dyeeedeeee ssrqeteeki 661 lldpnseevs ekdakqiiet akqdvddeys mgysargsgs yytvahaise rvekqsalli 721 ngtlkhyqlq glewmvslyn nnlngilade mglgktiqti alitylmehk rlngpyliiv 781 plstlsnwty efdkwapsvv kisykgtpam rrslvpqlrs gkfnvlltty eyiikdkhil 841 akirwkymiv deghrmknhh ckltqvdlne eetiliirrl hkvlrpfllr rlkkevesql 901 pekveyvikc dmsalqkily rhmqakgill tdgsekdkkg kggaktlmnt imqlrkicnh 961 pymfqhiees faehlgysng vingaelyra sgkfelldri lpklratnhr vllfcgmtsl 1021 mtimedyfaf rnflylrldg ttksedraal lkkfnepgsq yfifllstra gglglnlqaa 1081 dtvvifdsdw nphqdlqaqd rahrigqgne vrvlrlctvn sveekilaaa kyklnvdqkv 1141 igagmfdqks ssherraflq aileheeene eedevpddet lnqmiarree efdlfmrmdm 1201 drrredarnp krkprlmeed elpswiikdd aeverltcee eeekifgrgs rqrrdvdysd 1261 altekqwlra iedgnleeme eevrlkkrkr rrnvdkdpak edvekakkrr grppaeklsp 1321 nppkltkqmn aiidtvinyk dssgrqlsev fiqlpsrkel peyyelirkp vdfkkikeri 1381 rnhkyrslgd lekdvmllch naqtfnlegs qiyedsivlq svfksarqki akeeesedes 1441 neeeeeedee eseseaksvk vkiklnkkdd kgrdkgkgkk rpnrgkakpv vsdfdsdeeq 1501 dereqsegsg tdde SEQ ID NO: 170 Human SMARCA2 cDNA Sequence Variant 4 (NM_001289397.1, CDS: 223-4767) 1 gcgtcttccg gcgcccgcgg aggaggcgag ggtgggacgc tgggcggagc ccgagtttag 61 gaagaggagg ggacggctgt catcaatgaa gtcatattca taatctagtc ctctctccct 121 ctgtttctgt actctgggtg actcagagag ggaagagatt cagccagcac actcctcgcg 181 agcaagcatt actctactga ctggcagaga caggagaggt agatgtccac gcccacagac 241 cctggtgcga tgccccaccc agggccttcg ccggggcctg ggccttcccc tgggccaatt 301 cttgggccta gtccaggacc aggaccatcc ccaggttccg tccacagcat gatggggcca 361 agtcctggac ctccaagtgt ctcccatcct atgccgacga tggggtccac agacttccca 421 caggaaggca tgcatcaaat gcataagccc atcgatggta tacatgacaa ggggattgta 481 gaagacatcc attgtggatc catgaagggc actggtatgc gaccacctca cccaggcatg 541 ggccctcccc agagtccaat ggatcaacac agccaaggtt atatgtcacc acacccatct 601 ccattaggag ccccagagca cgtctccagc cctatgtctg gaggaggccc aactccacct 661 cagatgccac caagccagcc gggggccctc atcccaggtg atccgcaggc catgagccag 721 cccaacagag gtccctcacc tttcagtcct gtccagctgc atcagcttcg agctcagatt 781 ttagcttata aaatgctggc ccgaggccag cccctccccg aaacgctgca gcttgcagtc 841 caggggaaaa ggacgttgcc tggcttgcag caacaacagc agcagcaaca gcagcagcag 901 cagcagcagc agcagcagca gcagcagcaa cagcagccgc agcagcagcc gccgcaacca 961 cagacgcagc aacaacagca gccggccctt gttaactaca acagaccatc tggcccgggg 1021 ccggagctga gcggcccgag caccccgcag aagctgccgg tgcccgcgcc cggcggccgg 1081 ccctcgcccg cgccccccgc agccgcgcag ccgcccgcgg ccgcagtgcc cgggccctca 1141 gtgccgcagc cggccccggg gcagccctcg cccgtcctcc agctgcagca gaagcagagc 1201 cgcatcagcc ccatccagaa accgcaaggc ctggaccccg tggaaattct gcaagagcgg 1261 gaatacagac ttcaggcccg catagctcat aggatacaag aactggaaaa tctgcctggc 1321 tctttgccac cagatttaag aaccaaagca accgtggaac taaaagcact tcggttactc 1381 aatttccagc gtcagctgag acaggaggtg gtggcctgca tgcgcaggga cacgaccctg 1441 gagacggctc tcaactccaa agcatacaaa cggagcaagc gccagactct gagagaagct 1501 cgcatgaccg agaagctgga gaagcagcag aagattgagc aggagaggaa acgccgtcag 1561 aaacaccagg aatacctgaa cagtattttg caacatgcaa aagattttaa ggaatatcat 1621 cggtctgtgg ccggaaagat ccagaagctc tccaaagcag tggcaacttg gcatgccaac 1681 actgaaagag agcagaagaa ggagacagag cggattgaaa aggagagaat gcggcgactg 1741 atggctgaag atgaggaggg ttatagaaaa ctgattgatc aaaagaaaga caggcgttta 1801 gcttaccttt tgcagcagac cgatgagtat gtagccaatc tgaccaatct ggtttgggag 1861 cacaagcaag cccaggcagc caaagagaag aagaagagga ggaggaggaa gaagaaggct 1921 gaggagaatg cagagggtgg ggagtctgcc ctgggaccgg atggagagcc catagatgag 1981 agcagccaga tgagtgacct ccctgtcaaa gtgactcaca cagaaaccgg caaggttctg 2041 ttcggaccag aagcacccaa agcaagtcag ctggacgcct ggctggaaat gaatcctggt 2101 tatgaagttg cccctagatc tgacagtgaa gagagtgatt ctgattatga ggaagaggat 2161 gaggaagaag agtccagtag gcaggaaacc gaagagaaaa tactcctgga tccaaatagc 2221 gaagaagttt ctgagaagga tgctaagcag atcattgaga cagctaagca agacgtggat 2281 gatgaataca gcatgcagta cagtgccagg ggctcccagt cctactacac cgtggctcat 2341 gccatctcgg agagggtgga gaaacagtct gccctcctaa ttaatgggac cctaaagcat 2401 taccagctcc agggcctgga atggatggtt tccctgtata ataacaactt gaacggaatc 2461 ttagccgatg aaatggggct tggaaagacc atacagacca ttgcactcat cacttatctg 2521 atggagcaca aaagactcaa tggcccctat ctcatcattg ttcccctttc gactctatct 2581 aactggacat atgaatttga caaatgggct ccttctgtgg tgaagatttc ttacaagggt 2641 actcctgcca tgcgtcgctc ccttgtcccc cagctacgga gtggcaaatt caatgtcctc 2701 ttgactactt atgagtatat tataaaagac aagcacattc ttgcaaagat tcggtggaaa 2761 tacatgatag tggacgaagg ccaccgaatg aagaatcacc actgcaagct gactcaggtg 2821 gacttaaatg aagaagaaac tatattgatc atcaggcgtc tacataaggt gttaagacca 2881 tttttactaa ggagactgaa gaaagaagtt gaatcccagc ttcccgaaaa agtggaatat 2941 gtgatcaagt gtgacatgtc agctctgcag aagattctgt atcgccatat gcaagccaag 3001 gggatccttc tcacagatgg ttctgagaaa gataagaagg ggaaaggagg tgctaagaca 3061 cttatgaaca ctattatgca gttgagaaaa atctgcaacc acccatatat gtttcagcac 3121 attgaggaat cctttgctga acacctaggc tattcaaatg gggtcatcaa tggggctgaa 3181 ctgtatcggg cctcagggaa gtttgagctg cttgatcgta ttctgccaaa attgagagcg 3241 actaatcacc gagtgctgct tttctgccag atgacatctc tcatgaccat catggaggat 3301 tattttgctt ttcggaactt cctttaccta cgccttgatg gcaccaccaa gtctgaagat 3361 cgtgctgctt tgctgaagaa attcaatgaa cctggatccc agtatttcat tttcttgctg 3421 agcacaagag ctggtggcct gggcttaaat cttcaggcag ctgatacagt ggtcatcttt 3481 gacagcgact ggaatcctca tcaggatctg caggcccaag accgagctca ccgcatcggg 3541 cagcagaacg aggtccgggt actgaggctc tgtaccgtga acagcgtgga ggaaaagatc 3601 ctcgcggccg caaaatacaa gctgaacgtg gatcagaaag tgatccaggc gggcatgttt 3661 gaccaaaagt cttcaagcca cgagcggagg gcattcctgc aggccatctt ggagcatgag 3721 gaggaaaatg aggaagaaga tgaagtaccg gacgatgaga ctctgaacca aatgattgct 3781 cgacgagaag aagaatttga cctttttatg cggatggaca tggaccggcg gagggaagat 3841 gcccggaacc cgaaacggaa gccccgttta atggaggagg atgagctgcc ctcctggatc 3901 attaaggatg acgctgaagt agaaaggctc acctgtgaag aagaggagga gaaaatattt 3961 gggagggggt cccgccagcg ccgtgacgtg gactacagtg acgccctcac ggagaagcag 4021 tggctaaggg ccatcgaaga cggcaatttg gaggaaatgg aagaggaagt acggcttaag 4081 aagcgaaaaa gacgaagaaa tgtggataaa gatcctgcaa aagaagatgt ggaaaaagct 4141 aagaagagaa gaggccgccc tcccgctgag aaactgtcac caaatccccc caaactgaca 4201 aagcagatga acgctatcat cgatactgtg ataaactaca aagatagttc agggcgacag 4261 ctcagtgaag tcttcattca gttaccttca aggaaagaat taccagaata ctatgaatta 4321 attaggaagc cagtggattt caaaaaaata aaggaaagga ttcgtaatca taagtaccgg 4381 agcctaggcg acctggagaa ggatgtcatg cttctctgtc acaacgctca gacgttcaac 4441 ctggagggat cccagatcta tgaagactcc atcgtcttac agtcagtgtt taagagtgcc 4501 cggcagaaaa ttgccaaaga ggaagagagt gaggatgaaa gcaatgaaga ggaggaagag 4561 gaagatgaag aagagtcaga gtccgaggca aaatcagtca aggtgaaaat taagctcaat 4621 aaaaaagatg acaaaggccg ggacaaaggg aaaggcaaga aaaggccaaa tcgaggaaaa 4681 gccaaacctg tagtgagcga ttttgacagc gatgaggagc aggatgaacg tgaacagtca 4741 gaaggaagtg ggacggatga tgagtgatca gtatggacct ttttccttgg tagaactgaa 4801 ttccttcctc ccctgtctca tttctaccca gtgagttcat ttgtcatata ggcactgggt 4861 tgtttctata tcatcatcgt ctataaacta gctttaggat agtgccagac aaacatatga 4921 tatcatggtg taaaaaacac acacatacac aaatatttgt aacatattgt gaccaaatgg 4981 gcctcaaaga ttcagattga aacaaacaaa aagcttttga tggaaaatat gtgggtggat 5041 agtatatttc tatgggtggg tctaatttgg taacggtttg attgtgcctg gttttatcac 5101 ctgttcagat gagaagattt ttgtcttttg tagcactgat aaccaggaga agccattaaa 5161 agccactggt tattttattt ttcatcaggc aattttcgag gtttttattt gttcggtatt 5221 gtttttttac actgtggtac atataagcaa ctttaatagg tgataaatgt acagtagtta 5281 gatttcacct gcatatacat ttttccattt tatgctctat gatctgaaca aaagcttttt 5341 gaattgtata agatttatgt ctactgtaaa cattgcttaa tttttttgct cttgatttaa 5401 aaaaaagttt tgttgaaagc gctattgaat attgcaatct atatagtgta ttggatggct 5461 tcttttgtca ccctgatctc ctatgttacc aatgtgtatc gtctccttct ccctaaagtg 5521 tacttaatct ttgctttctt tgcacaatgt ctttggttgc aagtcataag cctgaggcaa 5581 ataaaattcc agtaatttcg aagaatgtgg tgttggtgct ttcctaataa agaaataatt 5641 tagcttgaca aaaaaaaaaa aaaa SEQ ID NO: 171 Human SMARCA2 Amino Acid Sequence Isoform D (NP_001276327.1) 1 mwlaiedgnl eemeeevrlk krkrrrnvdk dpakedveka kkrrgrppae klspnppklt 61 kqmnaiidtv inykdssgrq lsevfiqlps rkelpeyyel irkpvdfkki kerirnhkyr 121 slgdlekdvm llchnaqtfn legsqiyeds ivlqsvfksa rqkiakeees edesneeeee 181 edeeesesea ksvkvkikln kkddkgrdkg kgkkrpnrgk akpvvsdfds deecidereqs 241 egsgtdde SEQ ID NO: 172 Human SMARCA2 cDNA Sequence Variant 5 (NM_001289398.1, CDS: 203-949) 1 cttggagagg cggaggtgga aacgatgcgc aggagttggc ttggggcttt ttgtttgcgt 61 gtccctgttt acctattcat aatcatggat cccctctgct ttgtgatact gtgaaccacg 121 cataacagca attctttaca ccaccgggtt gagaagaagg cgcctgaggc tgactttctg 181 gacctgccgt cacgcagtaa agatgtggtt ggccatcgaa gacggcaatt tggaggaaat 241 ggaagaggaa gtacggctta agaagcgaaa aagacgaaga aatgtggata aagatcctgc 301 aaaagaagat gtggaaaaag ctaagaagag aagaggccgc cctcccgctg agaaactgtc 361 accaaatccc cccaaactga caaagcagat gaacgctatc atcgatactg tgataaacta 421 caaagatagt tcagggcgac agctcagtga agtcttcatt cagttacctt caaggaaaga 481 attaccagaa tactatgaat taattaggaa gccagtggat ttcaaaaaaa taaaggaaag 541 gattcgtaat cataagtacc ggagcctagg cgacctggag aaggatgtca tgcttctctg 601 tcacaacgct cagacgttca acctggaggg atcccagatc tatgaagact ccatcgtctt 661 acagtcagtg tttaagagtg cccggcagaa aattgccaaa gaggaagaga gtgaggatga 721 aagcaatgaa gaggaggaag aggaagatga agaagagtca gagtccgagg caaaatcagt 781 caaggtgaaa attaagctca ataaaaaaga tgacaaaggc cgggacaaag ggaaaggcaa 841 gaaaaggcca aatcgaggaa aagccaaacc tgtagtgagc gattttgaca gcgatgagga 901 gcaggatgaa cgtgaacagt cagaaggaag tgggacggat gatgagtgat cagtatggac 961 ctttttcctt ggtagaactg aattccttcc tcccctgtct catttctacc cagtgagttc 1021 atttgtcata taggcactgg gttgtttcta tatcatcatc gtctataaac tagctttagg 1081 atagtgccag acaaacatat gatatcatgg tgtaaaaaac acacacatac acaaatattt 1141 gtaacatatt gtgaccaaat gggcctcaaa gattcagatt gaaacaaaca aaaagctttt 1201 gatggaaaat atgtgggtgg atagtatatt tctatgggtg ggtctaattt ggtaacggtt 1261 tgattgtgcc tggttttatc acctgttcag atgagaagat ttttgtcttt tgtagcactg 1321 ataaccagga gaagccatta aaagccactg gttattttat ttttcatcag gcaattttcg 1381 aggtttttat ttgttcggta ttgttttttt acactgtggt acatataagc aactttaata 1441 ggtgataaat gtacagtagt tagatttcac ctgcatatac atttttccat tttatgctct 1501 atgatctgaa caaaagcttt ttgaattgta taagatttat gtctactgta aacattgctt 1561 aatttttttg ctcttgattt aaaaaaaagt tttgttgaaa gcgctattga atattgcaat 1621 ctatatagtg tattggatgg cttcttttgt caccctgatc tcctatgtta ccaatgtgta 1681 tcgtctcctt ctccctaaag tgtacttaat ctttgctttc tttgcacaat gtctttggtt 1741 gcaagtcata agcctgaggc aaataaaatt ccagtaattt cgaagaatgt ggtgttggtg 1801 ctttcctaat aaagaaataa tttagcttga caaaaaaaaa aaaaaa SEQ ID NO: 173 Human SMARCA2 Amino Acid Sequence Isoform E (NP_001276328.1) 1 mkrlaarcfa gllilspltv isdsrpadsg kaiedgnlee meeevrlkkr krrrnvdkdp 61 akedvekakk rrgrppaekl spnppkltkq mnaiidtvin ykdssgrqls evfiqlpsrk 121 elpeyyelir kpvdfkkike rirnhkyrsl gdlekdvmll chnaqtfnle gsqiyedsiv 181 lqsvfksarq kiakeeesed esneeeeeed eeeseseaks vkvkiklnkk ddkgrdkgkg 241 kkrpnrgkak pvvsdfdsde egderegseg sgtdde SEQ ID NO: 174 Human SMARCA2 cDNA Sequence Variant 6 (NM_001289399.1, CDS: 106-936) 1 attcacttca ttaaatctag aggcagttga gcatgggagc cgtctgtatg ttgaattagg 61 gctcgcactc ttgcgcaaca cgtcaccagt cggaaactgg ggctgatgaa gagactagca 121 gctcgctgct ttgctggctt gttaatttta tccccactaa ctgtgatttc tgatagccgg 181 cctgctgata gtggtaaggc catcgaagac ggcaatttgg aggaaatgga agaggaagta 241 cggcttaaga agcgaaaaag acgaagaaat gtggataaag atcctgcaaa agaagatgtg 301 gaaaaagcta agaagagaag aggccgccct cccgctgaga aactgtcacc aaatcccccc 361 aaactgacaa agcagatgaa cgctatcatc gatactgtga taaactacaa agatagttca 421 gggcgacagc tcagtgaagt cttcattcag ttaccttcaa ggaaagaatt accagaatac 481 tatgaattaa ttaggaagcc agtggatttc aaaaaaataa aggaaaggat tcgtaatcat 541 aagtaccgga gcctaggcga cctggagaag gatgtcatgc ttctctgtca caacgctcag 601 acgttcaacc tggagggatc ccagatctat gaagactcca tcgtcttaca gtcagtgttt 661 aagagtgccc ggcagaaaat tgccaaagag gaagagagtg aggatgaaag caatgaagag 721 gaggaagagg aagatgaaga agagtcagag tccgaggcaa aatcagtcaa ggtgaaaatt 781 aagctcaata aaaaagatga caaaggccgg gacaaaggga aaggcaagaa aaggccaaat 841 cgaggaaaag ccaaacctgt agtgagcgat tttgacagcg atgaggagca ggatgaacgt 901 gaacagtcag aaggaagtgg gacggatgat gagtgatcag tatggacctt tttccttggt 961 agaactgaat tccttcctcc cctgtctcat ttctacccag tgagttcatt tgtcatatag 1021 gcactgggtt gtttctatat catcatcgtc tataaactag ctttaggata gtgccagaca 1081 aacatatgat atcatggtgt aaaaaacaca cacatacaca aatatttgta acatattgtg 1141 accaaatggg cctcaaagat tcagattgaa acaaacaaaa agcttttgat ggaaaatatg 1201 tgggtggata gtatatttct atgggtgggt ctaatttggt aacggtttga ttgtgcctgg 1261 ttttatcacc tgttcagatg agaagatttt tgtcttttgt agcactgata accaggagaa 1321 gccattaaaa gccactggtt attttatttt tcatcaggca attttcgagg tttttatttg 1381 ttcggtattg tttttttaca ctgtggtaca tataagcaac tttaataggt gataaatgta 1441 cagtagttag atttcacctg catatacatt tttccatttt atgctctatg atctgaacaa 1501 aagctttttg aattgtataa gatttatgtc tactgtaaac attgcttaat ttttttgctc 1561 ttgatttaaa aaaaagtttt gttgaaagcg ctattgaata ttgcaatcta tatagtgtat 1621 tggatggctt cttttgtcac cctgatctcc tatgttacca atgtgtatcg tctccttctc 1681 cctaaagtgt acttaatctt tgctttcttt gcacaatgtc tttggttgca agtcataagc 1741 ctgaggcaaa taaaattcca gtaatttcga agaatgtggt gttggtgctt tcctaataaa 1801 gaaataattt agcttgacaa aaaaaaaaaa aaa SEQ ID NO: 175 Human SMARCA2 Amino Acid Sequence Isoform F (NP_001276329.1) 1 mlmkrlaarc fagllilspl tvisdsrpad sgkaiedgnl eemeeevrlk krkrrrnvdk 61 dpakedveka kkrrgrppae klspnppklt kqmnaiidtv inykdssgrq lsevfiqlps 121 rkelpeyyel irkpvdfkki kerirnhkyr slgdlekdvm llchnagtfn legsqiyeds 181 ivlqsvfksa rqkiakeees edesneeeee edeeesesea ksvkvkikln kkddkgrdkg 241 kgkkrpnrgk akpvvsdfds deeqdereqs egsgtdde SEQ ID NO: 176 Human SMARCA2 cDNA Sequence Variant 7 (NM_001289400.1, CDS: 521-1357) 1 acttcattaa atctagaggc agttgagcat gggagccgtc tgtatgttga attagggctc 61 gcactcttgc gcaacacgtc accagtcgga aactgggggt ttgcttctgt gatttatttc 121 attattgtgc tggtaaaagg tttggaaggg aattcttttt gggggtagta ctttagcatt 181 gtgtagcaag ttttggggtt ttttttgtgt gtgacccccc agcccccagc gctgagtttg 241 agtcagttga gccagtttag taaataattt tttaaaataa aagaacagtt taaaatctcc 301 atgaataatt ttacttacat gcaggagtaa tcttactcta ctctttatgt gcgaaaagca 361 ttgggaagtg tttagtgaat tgatttccat tagaaaaaga cccttagaaa tcacagaaca 421 taaagcactg catatggatg tgtttggggt ctttggggag gagggaagat gttttgtagc 481 tctctgcatt cctgcataaa accttagttt gaggggaata atgctgatga agagactagc 541 agctcgctgc tttgctggct tgttaatttt atccccacta actgtgattt ctgatagccg 601 gcctgctgat agtggtaagg ccatcgaaga cggcaatttg gaggaaatgg aagaggaagt 661 acggcttaag aagcgaaaaa gacgaagaaa tgtggataaa gatcctgcaa aagaagatgt 721 ggaaaaagct aagaagagaa gaggccgccc tcccgctgag aaactgtcac caaatccccc 781 caaactgaca aagcagatga acgctatcat cgatactgtg ataaactaca aagatagttc 841 agggcgacag ctcagtgaag tcttcattca gttaccttca aggaaagaat taccagaata 901 ctatgaatta attaggaagc cagtggattt caaaaaaata aaggaaagga ttcgtaatca 961 taagtaccgg agcctaggcg acctggagaa ggatgtcatg cttctctgtc acaacgctca 1021 gacgttcaac ctggagggat cccagatcta tgaagactcc atcgtcttac agtcagtgtt 1081 taagagtgcc cggcagaaaa ttgccaaaga ggaagagagt gaggatgaaa gcaatgaaga 1141 ggaggaagag gaagatgaag aagagtcaga gtccgaggca aaatcagtca aggtgaaaat 1201 taagctcaat aaaaaagatg acaaaggccg ggacaaaggg aaaggcaaga aaaggccaaa 1261 tcgaggaaaa gccaaacctg tagtgagcga ttttgacagc gatgaggagc aggatgaacg 1321 tgaacagtca gaaggaagtg ggacggatga tgagtgatca gtatggacct ttttccttgg 1381 tagaactgaa ttccttcctc ccctgtctca tttctaccca gtgagttcat ttgtcatata 1441 ggcactgggt tgtttctata tcatcatcgt ctataaacta gctttaggat agtgccagac 1501 aaacatatga tatcatggtg taaaaaacac acacatacac aaatatttgt aacatattgt 1561 gaccaaatgg gcctcaaaga ttcagattga aacaaacaaa aagcttttga tggaaaatat 1621 gtgggtggat agtatatttc tatgggtggg tctaatttgg taacggtttg attgtgcctg 1681 gttttatcac ctgttcagat gagaagattt ttgtcttttg tagcactgat aaccaggaga 1741 agccattaaa agccactggt tattttattt ttcatcaggc aattttcgag gtttttattt 1801 gttcggtatt gtttttttac actgtggtac atataagcaa ctttaatagg tgataaatgt 1861 acagtagtta gatttcacct gcatatacat ttttccattt tatgctctat gatctgaaca 1921 aaagcttttt gaattgtata agatttatgt ctactgtaaa cattgcttaa tttttttgct 1981 cttgatttaa aaaaaagttt tgttgaaagc gctattgaat attgcaatct atatagtgta 2041 ttggatggct tcttttgtca ccctgatctc ctatgttacc aatgtgtatc gtctccttct 2101 ccctaaagtg tacttaatct ttgctttctt tgcacaatgt ctttggttgc aagtcataag 2161 cctgaggcaa ataaaattcc agtaatttcg aagaatgtgg tgttggtgct ttcctaataa 2221 agaaataatt tagcttgaca aaaaaaaaaa aaaa SEQ ID NO: 177 Mouse SMARCA2 cDNA Sequence variant 1 (NM_011416.2; CDS: 111-4862) 1 ctcgctccct ctgtttctgt actctgggtg actcagagag ggaagattca gccagcacac 61 tgctcgcgag caagtgtcac tctgctaact ggcagagcca ggagacctag atgtccacac 121 ccacagaccc agcagcaatg ccccatcctg ggccctcccc ggggcctgga ccctctcctg 181 gaccaattct ggggcctagt ccaggaccag gaccatcccc aggttctgtg cacagcatga 241 tgggtcctag tcccggacct cccagcgtct cacatcctct gtcaacgatg ggctctgcag 301 acttcccaca ggaaggcatg caccaattac ataagcccat ggatgggata catgacaaag 361 ggattgtaga agatgtccac tgtggatcca tgaagggcac cagcatgcgc cccccacacc 421 caggaatggg ccctccacag agccccatgg accagcacag ccaaggttat atgtcaccac 481 atccgtctcc tctgggagcc ccggagcacg tctctagccc tatatctgga ggaggcccaa 541 ccccacccca gatgccaccg agccagccag gggcactcat cccaggagat ccgcaggcca 601 tgaaccagcc taacagaggt ccctcgcctt tcagtcctgt gcagctgcat cagcttcgag 661 ctcagatttt agcttacaaa atgttggcca ggggccagcc tctccctgaa actctgcagc 721 tggcagtcca gggaaaaagg accttgcctg gcatgcagca gcagcagcag caacaacaac 781 aacagcagca gcagcagcag cagcagcagc agcaacagca gcaacaacag cagccccagc 841 agcctcagca gcaggctcag gcacagcccc agcagcagca gcaacagcag cagcagccag 901 ctcttgttag ctataatcga ccatctggcc ccgggcagga gctgctactg agtggccaga 961 gcgctccgca gaagctgtca gcaccagcac caagcggccg accttcaccg gcaccccagg 1021 ccgccgtcca gcccacggcc acagcggtgc ccgggccctc cgtgcagcag cccgccccag 1081 ggcagccgtc tccggtccta cagctgcaac agaagcagag ccgcatcagc cccatccaga 1141 aaccgcaagg cctggacccg gtggagatcc tgcaggaacg agagtacaga cttcaagctc 1201 gcatcgctca taggatacaa gaactggaaa gtctgcctgg ttccttgcca ccagatttac 1261 gcaccaaagc aaccgtggaa ctgaaagcac ttcgcttact caacttccaa cgtcagctga 1321 gacaggaggt ggtggcctgc atgcggaggg acaccaccct ggagacggcc ctcaactcca 1381 aagcatataa gcggagcaag cgccagaccc tgcgtgaggc acgcatgaca gagaaactgg 1441 agaagcagca gaagatagaa caggagagga aacgccggca gaaacaccag gaatacctga 1501 acagtatttt gcaacatgca aaagatttta aggaatatca ccggtctgtg gccgggaaga 1561 tccagaagct ctccaaagca gtggcgactt ggcatgctaa cacagaaagg gagcagaaga 1621 aggagacgga gcggatcgag aaggagagaa tgcggaggct gatggccgaa gatgaagagg 1681 gctacaggaa gcttattgac caaaagaaag acagacgtct cgcctaccta ttgcagcaga 1741 ccgatgagta tgtcgccaat ctgaccaacc tggtgtggga gcacaagcag gcccaagcag 1801 ccaaagagaa gaagaagagg aggaggagga agaagaaggc tgaagagaat gcagagggag 1861 gggaacctgc cctgggacca gatggagagc caatagatga aagcagccag atgagtgacc 1921 tgcctgtcaa agtgacacac acagaaactg gcaaggtcct ctttggacca gaagcaccca 1981 aagcaagtca gctggatgcc tggctggaga tgaatcctgg ttacgaagtt gcacccagat 2041 ctgacagtga agagagtgaa tcggactacg aggaggagga tgaagaagaa gagtccagta 2101 ggcaggaaac cgaggagaag atactgctgg atcccaacag tgaagaagtt tccgaaaagg 2161 atgccaagca gatcattgag actgcgaagc aggacgtgga cgacgaatac agcatgcagt 2221 acagtgccag aggctctcag tcctactaca cggtggctca cgctatctct gagagggtgg 2281 agaagcagtc tgccctcctc attaacggca ccctaaagca ttaccagctc cagggcctgg 2341 aatggatggt ttccctgtat aataacaatc tgaacggaat cttagctgat gaaatggggc 2401 taggcaagac catccagacc attgcactca tcacgtatct gatggagcac aaaaggctca 2461 atggtcccta cctcatcatc gtccccctct cgactctgtc taactggaca tatgaatttg 2521 acaaatgggc tccttctgtg gtgaaaattt cttacaaggg tacccctgcc atgcgacgct 2581 ccctcgttcc ccagctacgg agtggcaaat tcaatgtcct cctgactact tacgagtaca 2641 ttataaaaga caagcacatt cttgcaaaga ttcggtggaa gtacatgatc gtggacgaag 2701 gccaccggat gaagaatcac cactgcaagc taacccaggt cctgaacaca cactatgtgg 2761 cccccaggcg gatccttctg actgggaccc cactgcagaa taagcttccg gaactctggg 2821 ccctcctcaa cttcctcctc cctacaatct tcaagagttg cagcacattt gagcagtggt 2881 ttaatgctcc atttgccatg accggtgaaa gggtggacct gaacgaagaa gaaacgattt 2941 tgatcatcag gcgtctacac aaggtgctga gacccttttt actgaggagg ctgaagaaag 3001 aggttgagtc tcagcttccg gaaaaggttg agtatgtgat caagtgtgac atgtcagctc 3061 tgcagaagat tctgtaccgt cacatgcaag ccaaggggat cctcctcacg gacgggtctg 3121 agaaagataa gaaggggaaa ggaggtgcca agacacttat gaacaccatc atgcagctga 3181 gaaaaatatg caaccaccca tatatgtttc agcacattga ggaatccttt gctgaacacc 3241 tgggctattc gaatggggtc atcaatgggg ctgagctgta tcgggcctcg ggaaagtttg 3301 agctgcttga tcgtattctg cccaaattga gagcgactaa ccaccgcgtg ctgcttttct 3361 gccagatgac gtcactcatg accattatgg aggattactt tgcttttcgg aacttcctgt 3421 acctgcgcct tgacggcacc accaagtctg aagatcgtgc tgctttgcta aagaaattca 3481 atgaacctgg gtcccagtat ttcattttct tgctgagcac aagagcaggg ggcctgggct 3541 taaatcttca ggcggcagac acggtggtca tatttgacag cgactggaat cctcaccagg 3601 atctgcaggc ccaagaccga gctcaccgca ttggccaaca aaacgaggtc cgggtgctga 3661 ggctttgcac cgtcaacagt gtggaggaaa agattctcgc ggctgccaag tacaagctga 3721 acgtggatca gaaggttatc caagcaggca tgtttgacca gaagtcatcc agccacgagc 3781 ggagggcctt cctgcaggcc attctggagc acgaggagga gaatgaggaa gaagatgagg 3841 taccagacga cgagaccctg aaccagatga ttgctcgccg ggaggaagaa tttgatcttt 3901 ttatgcgcat ggacatggac cggcggaggg aggatgcccg gaacccgaag cgcaaacccc 3961 gcttgatgga ggaagatgag ctgccctcct ggattatcaa ggatgacgcc gaagtggaaa 4021 ggctcacctg tgaagaagag gaggagaaga tatttgggag gggctctcgc cagcgccggg 4081 atgtggacta cagtgatgcc ctcaccgaga agcaatggct cagggccatc gaagacggca 4141 atttggaaga aatggaagag gaggtacggc ttaagaagag aaaaagacga agaaatgtgg 4201 ataaagaccc cgtgaaggaa gatgtggaaa aagcgaagaa aagaagaggc cgccctccgg 4261 ctgagaagtt gtcaccaaat cccccaaaac taacgaagca gatgaacgcc atcattgata 4321 ctgtgataaa ctacaaagac agttcagggc gacagctcag tgaagtcttc attcagttac 4381 cttccaggaa agacttacca gaatactatg aattaattag gaagccagtg gatttcaaaa 4441 agataaagga gcgaatccgt aatcataagt atcggagcct gggagacctg gagaaagacg 4501 tcatgcttct ctgtcacaac gcacagacat tcaacttgga aggatcccag atctacgaag 4561 actccattgt cctacagtca gtgtttaaga gtgctcggca gaaaattgcc aaagaagaag 4621 agagtgagga agaaagcaat gaagaagagg aagaagatga tgaagaggag tcggagtcag 4681 aggcgaaatc tgtgaaggtg aaaatcaagc tgaataaaaa ggaagagaaa ggccgggaca 4741 cagggaaggg caagaagcgg ccaaaccgag gcaaagccaa acccgtcgtg agcgattttg 4801 acagtgacga ggaacaggaa gagaacgaac agtcagaagc aagtggaact gataacgagt 4861 gaccatcctg gacgtgagct tcccgcggtg gcagaaccga atgctttctt ccccctctcc 4921 ttcctcccca gtgagttcac ttgccattcg ggcacactgg gttatttctc cgtcctcatt 4981 gtcatctaga actagcttta gggtagtgcc agacaaacat atgatatcat ggtgtaaaaa 5041 aagaaacaca tgcgtgcaga cacactacac acacacacac acacacacac acacacacac 5101 acacatattt gtaacatatt gtgaccaaat gggcctcaaa gattcaaaga ttaaaaacaa 5161 aaagcttttg atggaaaaga tgtgggtgga tagtatattt ctacaggtgg gtcaggtttg 5221 gtagcagttt gatgtgctgg gttctgtcat ctgttctgat gagaagattt ttatcttctg 5281 cagtgctgat ggccgggagg aaccattcaa agccactggt tattttgttt ttcatcaggc 5341 gattttcaag attttcattt gtttcagtat tgttggtttt ctcttttctc ttttttacac 5401 tgtggtacat ataagcaact tgactagtga caaatgtaca gtagttagat atcacctaca 5461 tatacatttt tccattttat gctctatgat ctgaagaaca aaaaaaaaag ctttttgact 5521 tgtataagat ttatgtctac tgtaaacatt gcggaatttt tttttgttct tgttttattg 5581 acaatgctat tgagtattac agtgtctaga ataccctgga tggcttctct tgtccacccg 5641 atctcccgtg ttaccaatgt gtatggtctc cttctcccga aagtgtactt aatctttgct 5701 ttctttgcac aatgtctttg gttgcaagtc ataagcctga ggcaaataaa attccagtaa 5761 tttccaagaa tgtggtgttg gtactttcct aataaaccga taacgtacct tgaaaaaaaa 5821 aaaaaaaaaa a SEQ ID NO: 178 Mouse SMARCA2 Amino Acid Sequence isoform 1 (NP_035546.2) 1 mstptdpaam phpgpspgpg pspgpilgps pgpgpspgsv hsmmgpspgp psyshplstm 61 gsadfpqegm hqlhkpmdgi hdkgivedvh cgsmkgtsmr pphpgmgppq spmdqhsqgy 121 msphpsplga pehvsspisg ggptppqmpp sqpgalipgd pqamnqpnrg pspfspvglh 181 qlraqilayk mlargqplpe tlqlavqgkr tlpgmqqqqq qqqqqqqqqq qqqqqqqqqq 241 qpqqpqqqaq aqpqqqqqqq qqpalvsynr psgpgqelll sgqsapqkls apapsgrpsp 301 apqaavqpta tavpgpsvqq papgqpspvl qlqqkgsris piqkpqgldp veilqereyr 361 lqariahriq eleslpgslp pdlrtkatve lkalrllnfq rqlrqevvac mrrdttleta 421 lnskaykrsk rqtlrearmt eklekqqkie qerkrrqkhq eylnsilqha kdfkeyhrsv 481 agkiqklska vatwhanter eqkketerie kermrrlmae deegyrklid qkkdrrlayl 541 lqqtdeyvan ltnlvwehkq aqaakekkkr rrrkkkaeen aeggepalgp dgepidessq 601 msdlpvkvth tetgkvlfgp eapkasqlda wlemnpgyev aprsdseese sdyeeedeee 661 essrqeteek illdpnseev sekdakqiie takqdvddey smqysargsq syytvahais 721 ervekqsall ingtlkhyql qglewmvsly nnnlngilad emglgktiqt ialitylmeh 781 kringpylii vplstlsnwt yefdkwapsv vkisykgtpa mrrslvpqlr sgkfnvlltt 841 yeyiikdkhi lakirwkymi vdeghrmknh hckltqvint hyvaprrill tgtplqnklp 901 elwallnfll ptifkscstf eqwfnapfam tgervdlnee etiliirrlh kvlrpfllrr 961 lkkevesqlp ekveyvikcd msalqkilyr hmqakgillt dgsekdkkgk ggaktlmnti 1021 mqlrkicnhp ymfqhieesf aehlgysngv ingaelyras gkfelldril pklratnhry 1081 llfcgmtslm timedyfafr nflylrldgt tksedraall kkfnepgsqy fifllstrag 1141 glglnlqaad tvvifdsdwn phqdlqaqdr ahrigqgnev rvlrlctvns veekilaaak 1201 yklnvdqkvi qagmfdqkss sherraflqa ileheeenee edevpddetl nqmiarreee 1261 fdlfmrmdmd rrredarnpk rkprlmeede lpswiikdda everltceee eekifgrgsr 1321 qrrdvdysda ltekqwlrai edgnleemee evrlkkrkrr rnvdkdpvke dvekakkrrg 1381 rppaeklspn ppkltkqmna iidtvinykd ssgrqlsevf iqlpsrkdlp eyyelirkpv 1441 dfkkikerir nhkyrslgdl ekdvmllchn aqtfnlegsq iyedsivlqs vfksarqkia 1501 keeeseeesn eeeeeddeee seseaksvkv kiklnkkeek grdtgkgkkr pnrgkakpvv 1561 sdfdsdeeqe eneqseasgt dne SEQ ID NO: 179 Mouse SMARCA2 cDNA Sequence variant 2 (NM_026003.2; CDS: 301-1011) 1 ttcacttcat taaatctaga ggcggttcag catgggagcc gtctgtatgt tgaattaggg 61 ctcgctctct tgcgcaacac gtcaccagtc ggaaactggg ggtttgcttc tgtgatttat 121 ttcattattg tgctggtaaa agctgatgaa gagactagca gctcgctgct ttgccggctt 181 gttaatttta tccccactaa ctgtgatttc cgatagccgg cctgctgata gtggtaagtg 241 cggctggctc tggtttaaag caagcgtttg caggccatcg aagacggcaa tttggaagaa 301 atggaagagg aggtacggct taagaagaga aaaagacgaa gaaatgtgga taaagacccc 361 gtgaaggaag atgtggaaaa agcgaagaaa agaagaggcc gccctccggc tgagaagttg 421 tcaccaaatc ccccaaaact aacgaagcag atgaacgcca tcattgatac tgtgataaac 481 tacaaagaca gttcagggcg acagctcagt gaagtcttca ttcagttacc ttccaggaaa 541 gacttaccag aatactatga attaattagg aagccagtgg atttcaaaaa gataaaggag 601 cgaatccgta atcataagta tcggagcctg ggagacctgg agaaagacgt catgcttctc 661 tgtcacaacg cacagacatt caacttggaa ggatcccaga tctacgaaga ctccattgtc 721 ctacagtcag tgtttaagag tgctcggcag aaaattgcca aagaagaaga gagtgaggaa 781 gaaagcaatg aagaagagga agaagatgat gaagaggagt cggagtcaga ggcgaaatct 841 gtgaaggtga aaatcaagct gaataaaaag gaagagaaag gccgggacac agggaagggc 901 aagaagcggc caaaccgagg caaagccaaa cccgtcgtga gcgattttga cagtgacgag 961 gaacaggaag agaacgaaca gtcagaagca agtggaactg ataacgagtg accatcctgg 1021 acgtgagctt cccgcggtgg cagaaccgaa tgctttcttc cccctctcct tcctccccag 1081 tgagttcact tgccattcgg gcacactggg ttatttctcc gtcctcattg tcatctagaa 1141 ctagctttag ggtagtgcca gacaaacata tgatatcatg gtgtaaaaaa agaaacacat 1201 gcgtgcagac acactacaca cacacacaca cacacacaca cacacacaca cacatatttg 1261 taacatattg tgaccaaatg ggcctcaaag attcaaagat taaaaacaaa aagcttttga 1321 tggaaaagat gtgggtggat agtatatttc tacaggtggg tcaggtttgg tagcagtttg 1381 atgtgctggg ttctgtcatc tgttctgatg agaagatttt tatcttctgc agtgctgatg 1441 gccgggagga accattcaaa gccactggtt attttgtttt tcatcaggcg attttcaaga 1501 ttttcatttg tttcagtatt gttggttttc tcttttctct tttttacact gtggtacata 1561 taagcaactt gactagtgac aaatgtacag tagttagata tcacctacat atacattttt 1621 ccattttatg ctctatgatc tgaagaacaa aaaaaaaagc tttttgactt gtataagatt 1681 tatgtctact gtaaacattg cggaattttt ttttgttctt gttttattga caatgctatt 1741 gagtattaca gtgtctagaa taccctggat ggcttctctt gtccacccga tctcccgtgt 1801 taccaatgtg tatggtctcc ttctcccgaa agtgtactta atctttgctt tctttgcaca 1861 atgtctttgg ttgcaagtca taagcctgag gcaaataaaa ttccagtaat ttccaagaat 1921 gtggtgttgg tactttccta ataaaccgat aacgtacctt gaaa SEQ ID NO: 180 Mouse SMARCA2 Amino Acid Sequence isoform 2 (NP_080279.1) 1 meeevrlkkr krrrnvdkdp vkedvekakk rrgrppaekl spnppkltkq mnaiidtvin 61 ykdssgrqls evfiqlpsrk dlpeyyelir kpvdfkkike rirnhkyrsl gdlekdvmll 121 chnaqtfnle gsqiyedsiv lqsvfksarq kiakeeesee esneeeeedd eeeseseaks 181 vkvkiklnkk eekgrdtgkg kkrpnrgkak pvvsdfdsde egeenegsea sgtdne SEQ ID NO: 181 Mouse SMARCA2 cDNA Sequence variant 3 (NM_001347439.1; CDS: 180-1010) 1 acacacacac acacacacac acgcaggctg aagtatgctt aactctttta acttggctgg 61 ggctttttag caccatatgg gttctttcgt gacgtccgga cccgaaagag tgcagtgtgc 121 ctttaaggaa agaggtacct caccaaactt ccctgtagtt gtgcctcacc atttagctga 181 tgaagagact agcagctcgc tgctttgccg gcttgttaat tttatcccca ctaactgtga 241 tttccgatag ccggcctgct gatagtggta aggccatcga agacggcaat ttggaagaaa 301 tggaagagga ggtacggctt aagaagagaa aaagacgaag aaatgtggat aaagaccccg 361 tgaaggaaga tgtggaaaaa gcgaagaaaa gaagaggccg ccctccggct gagaagttgt 421 caccaaatcc cccaaaacta acgaagcaga tgaacgccat cattgatact gtgataaact 481 acaaagacag ttcagggcga cagctcagtg aagtcttcat tcagttacct tccaggaaag 541 acttaccaga atactatgaa ttaattagga agccagtgga tttcaaaaag ataaaggagc 601 gaatccgtaa tcataagtat cggagcctgg gagacctgga gaaagacgtc atgcttctct 661 gtcacaacgc acagacattc aacttggaag gatcccagat ctacgaagac tccattgtcc 721 tacagtcagt gtttaagagt gctcggcaga aaattgccaa agaagaagag agtgaggaag 781 aaagcaatga agaagaggaa gaagatgatg aagaggagtc ggagtcagag gcgaaatctg 841 tgaaggtgaa aatcaagctg aataaaaagg aagagaaagg ccgggacaca gggaagggca 901 agaagcggcc aaaccgaggc aaagccaaac ccgtcgtgag cgattttgac agtgacgagg 961 aacaggaaga gaacgaacag tcagaagcaa gtggaactga taacgagtga ccatcctgga 1021 cgtgagcttc ccgcggtggc agaaccgaat gctttcttcc ccctctcctt cctccccagt 1081 gagttcactt gccattcggg cacactgggt tatttctccg tcctcattgt catctagaac 1141 tagctttagg gtagtgccag acaaacatat gatatcatgg tgtaaaaaaa gaaacacatg 1201 cgtgcagaca cactacacac acacacacac acacacacac acacacacac acatatttgt 1261 aacatattgt gaccaaatgg gcctcaaaga ttcaaagatt aaaaacaaaa agcttttgat 1321 ggaaaagatg tgggtggata gtatatttct acaggtgggt caggtttggt agcagtttga 1381 tgtgctgggt tctgtcatct gttctgatga gaagattttt atcttctgca gtgctgatgg 1441 ccgggaggaa ccattcaaag ccactggtta ttttgttttt catcaggcga ttttcaagat 1501 tttcatttgt ttcagtattg ttggttttct cttttctctt ttttacactg tggtacatat 1561 aagcaacttg actagtgaca aatgtacagt agttagatat cacctacata tacatttttc 1621 cattttatgc tctatgatct gaagaacaaa aaaaaaagct ttttgacttg tataagattt 1681 atgtctactg taaacattgc ggaatttttt tttgttcttg ttttattgac aatgctattg 1741 agtattacag tgtctagaat accctggatg gcttctcttg tccacccgat ctcccgtgtt 1801 accaatgtgt atggtctcct tctcccgaaa gtgtacttaa tctttgcttt ctttgcacaa 1861 tgtctttggt tgcaagtcat aagcctgagg caaataaaat tccagtaatt tccaagaatg 1921 tggtgttggt actttcctaa taaaccgata acgtaccttg aaaaaaaaaa aaaaaaaaa SEQ ID NO: 182 Mouse SMARCA2 Amino Acid Sequence isoform 3 (NP_001334368.1) 1 mkrlaarcfa gllilspltv isdsrpadsg kaiedgnlee meeevrlkkr krrrnvdkdp 61 vkedvekakk rrgrppaekl spnppkltkq mnaiidtvin ykdssgrqls evfiqlpsrk 121 dlpeyyelir kpvdfkkike rirnhkyrsl gdlekdvmll chnaqtfnle gsqiyedsiv 181 lqsvfksarq kiakeeesee esneeeeedd eeeseseaks vkvkiklnkk eekgrdtgkg 241 kkrpnrgkak pvvsdfdsde eqeeneqsea sgtdne SEQ ID NO: 183 Human SMARCA4 Amino Acid Sequence Isoform A (NP_001122321.1) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpiptqg 61 pggypqdnmh qmhkpmesmh ekgmsddpry nqmkgmgmrs gghagmgppp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgadpq algqqnrgpt pfnqnqlhql 181 ragimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt qspgqpaqpa pmvplhqkqs ritpiqkprg 361 ldpveilger eyrlgariah riqelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqq kiegerkrrq khqeylnsil 481 qhakdfkeyh rsvtgkiqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanitelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqaaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sqalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvinth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqqnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdesr 1261 hcstgsgsas fahtapppag vnpdleeppl keedevpdde tvnqmiarhe eefdlfmrmd 1321 ldrrreearn pkrkprlmee delpswiikd daeverltce eeeekmfgrg srhrkevdys 1381 dsltekqwlk kitgkdihdt assvarglqf qrglqfctra skaieegtle eieeevrqkk 1441 ssrkrkrdsd agsstpttst rsrdkddesk kqkkrgrppa eklspnppnl tkkmkkivda 1501 vikykdsssg rqlsevfiql psrkelpeyy elirkpvdfk kikerirnhk yrslndlekd 1561 vmllcgnaqt fnlegsliye dsivlqsvft svrqkieked dsegeeseee eegeeegses 1621 esrsvkvkik lgrkekaqdr lkggrrrpsr gsrakpvvsd ddseeeqeed rsgsgseed SEQ ID NO: 184 Human SMARCA4 cDNA Sequence Variant 1 (NM_001128849.1, CDS: 75-5114) 1 ggcgggggag gcgccgggaa gtcgacggcg ccggcggctc ctgcaggagg ccactgtctg 61 cagctcccgt gaagatgtcc actccagacc cacccctggg cggaactcct cggccaggtc 121 cttccccggg ccctggccct tcccctggag ccatgctggg ccctagcccg ggtccctcgc 181 cgggctccgc ccacagcatg atggggccca gcccagggcc gccctcagca ggacacccca 241 tccccaccca ggggcctgga gggtaccctc aggacaacat gcaccagatg cacaagccca 301 tggagtccat gcatgagaag ggcatgtcgg acgacccgcg ctacaaccag atgaaaggaa 361 tggggatgcg gtcagggggc catgctggga tggggccccc gcccagcccc atggaccagc 421 actcccaagg ttacccctcg cccctgggtg gctctgagca tgcctctagt ccagttccag 481 ccagtggccc gtcttcgggg ccccagatgt cttccgggcc aggaggtgcc ccgctggatg 541 gtgctgaccc ccaggccttg gggcagcaga accggggccc aaccccattt aaccagaacc 601 agctgcacca gctcagagct cagatcatgg cctacaagat gctggccagg gggcagcccc 661 tccccgacca cctgcagatg gcggtgcagg gcaagcggcc gatgcccggg atgcagcagc 721 agatgccaac gctacctcca ccctcggtgt ccgcaacagg acccggccct ggccctggcc 781 ctggccccgg cccgggtccc ggcccggcac ctccaaatta cagcaggcct catggtatgg 841 gagggcccaa catgcctccc ccaggaccct cgggcgtgcc ccccgggatg ccaggccagc 901 ctcctggagg gcctcccaag ccctggcctg aaggacccat ggcgaatgct gctgccccca 961 cgagcacccc tcagaagctg attcccccgc agccaacggg ccgcccttcc cccgcgcccc 1021 ctgccgtccc acccgccgcc tcgcccgtga tgccaccgca gacccagtcc cccgggcagc 1081 cggcccagcc cgcgcccatg gtgccactgc accagaagca gagccgcatc acccccatcc 1141 agaagccgcg gggcctcgac cctgtggaga tcctgcagga gcgcgagtac aggctgcagg 1201 ctcgcatcgc acaccgaatt caggaacttg aaaaccttcc cgggtccctg gccggggatt 1261 tgcgaaccaa agcgaccatt gagctcaagg ccctcaggct gctgaacttc cagaggcagc 1321 tgcgccagga ggtggtggtg tgcatgcgga gggacacagc gctggagaca gccctcaatg 1381 ctaaggccta caagcgcagc aagcgccagt ccctgcgcga ggcccgcatc actgagaagc 1441 tggagaagca gcagaagatc gagcaggagc gcaagcgccg gcagaagcac caggaatacc 1501 tcaatagcat tctccagcat gccaaggatt tcaaggaata tcacagatcc gtcacaggca 1561 aaatccagaa gctgaccaag gcagtggcca cgtaccatgc caacacggag cgggagcaga 1621 agaaagagaa cgagcggatc gagaaggagc gcatgcggag gctcatggct gaagatgagg 1681 aggggtaccg caagctcatc gaccagaaga aggacaagcg cctggcctac ctcttgcagc 1741 agacagacga gtacgtggct aacctcacgg agctggtgcg gcagcacaag gctgcccagg 1801 tcgccaagga gaaaaagaag aaaaagaaaa agaagaaggc agaaaatgca gaaggacaga 1861 cgcctgccat tgggccggat ggcgagcctc tggacgagac cagccagatg agcgacctcc 1921 cggtgaaggt gatccacgtg gagagtggga agatcctcac aggcacagat gcccccaaag 1981 ccgggcagct ggaggcctgg ctcgagatga acccggggta tgaagtagct ccgaggtctg 2041 atagtgaaga aagtggctca gaagaagagg aagaggagga ggaggaagag cagccgcagg 2101 cagcacagcc tcccaccctg cccgtggagg agaagaagaa gattccagat ccagacagcg 2161 atgacgtctc tgaggtggac gcgcggcaca tcattgagaa tgccaagcaa gatgtcgatg 2221 atgaatatgg cgtgtcccag gcccttgcac gtggcctgca gtcctactat gccgtggccc 2281 atgctgtcac tgagagagtg gacaagcagt cagcgcttat ggtcaatggt gtcctcaaac 2341 agtaccagat caaaggtttg gagtggctgg tgtccctgta caacaacaac ctgaacggca 2401 tcctggccga cgagatgggc ctggggaaga ccatccagac catcgcgctc atcacgtacc 2461 tcatggagca caaacgcatc aatgggccct tcctcatcat cgtgcctctc tcaacgctgt 2521 ccaactgggc gtacgagttt gacaagtggg ccccctccgt ggtgaaggtg tcttacaagg 2581 gatccccagc agcaagacgg gcctttgtcc cccagctccg gagtgggaag ttcaacgtct 2641 tgctgacgac gtacgagtac atcatcaaag acaagcacat cctcgccaag atccgttgga 2701 agtacatgat tgtggacgaa ggtcaccgca tgaagaacca ccactgcaag ctgacgcagg 2761 tgctcaacac gcactatgtg gcaccccgcc gcctgctgct gacgggcaca ccgctgcaga 2821 acaagcttcc cgagctctgg gcgctgctca acttcctgct gcccaccatc ttcaagagct 2881 gcagcacctt cgagcagtgg tttaacgcac cctttgccat gaccggggaa aaggtggacc 2941 tgaatgagga ggaaaccatt ctcatcatcc ggcgtctcca caaagtgctg cggcccttct 3001 tgctccgacg actcaagaag gaagtcgagg cccagttgcc cgaaaaggtg gagtacgtca 3061 tcaagtgcga catgtctgcg ctgcagcgag tgctctaccg ccacatgcag gccaagggcg 3121 tgctgctgac tgatggctcc gagaaggaca agaagggcaa aggcggcacc aagaccctga 3181 tgaacaccat catgcagctg cggaagatct gcaaccaccc ctacatgttc cagcacatcg 3241 aggagtcctt ttccgagcac ttggggttca ctggcggcat tgtccaaggg ctggacctgt 3301 accgagcctc gggtaaattt gagcttcttg atagaattct tcccaaactc cgagcaacca 3361 accacaaagt gctgctgttc tgccaaatga cctccctcat gaccatcatg gaagattact 3421 ttgcgtatcg cggctttaaa tacctcaggc ttgatggaac cacgaaggcg gaggaccggg 3481 gcatgctgct gaaaaccttc aacgagcccg gctctgagta cttcatcttc ctgctcagca 3541 cccgggctgg ggggctcggc ctgaacctcc agtcggcaga cactgtgatc atttttgaca 3601 gcgactggaa tcctcaccag gacctgcaag cgcaggaccg agcccaccgc atcgggcagc 3661 agaacgaggt gcgtgtgctc cgcctctgca ccgtcaacag cgtggaggag aagatcctag 3721 ctgcagccaa gtacaagctc aacgtggacc agaaggtgat ccaggccggc atgttcgacc 3781 agaagtcctc cagccatgag cggcgcgcct tcctgcaggc catcctggag cacgaggagc 3841 aggatgagag cagacactgc agcacgggca gcggcagtgc cagcttcgcc cacactgccc 3901 ctccgccagc gggcgtcaac cccgacttgg aggagccacc tctaaaggag gaagacgagg 3961 tgcccgacga cgagaccgtc aaccagatga tcgcccggca cgaggaggag tttgatctgt 4021 tcatgcgcat ggacctggac cgcaggcgcg aggaggcccg caaccccaag cggaagccgc 4081 gcctcatgga ggaggacgag ctcccctcgt ggatcatcaa ggacgacgcg gaggtggagc 4141 ggctgacctg tgaggaggag gaggagaaga tgttcggccg tggctcccgc caccgcaagg 4201 aggtggacta cagcgactca ctgacggaga agcagtggct caagaaaatt acaggaaaag 4261 atatccatga cacagccagc agtgtggcac gtgggctaca attccagcgt ggccttcagt 4321 tctgcacacg tgcgtcaaag gccatcgagg agggcacgct ggaggagatc gaagaggagg 4381 tccggcagaa gaaatcatca cggaagcgca agcgagacag cgacgccggc tcctccaccc 4441 cgaccaccag cacccgcagc cgcgacaagg acgacgagag caagaagcag aagaagcgcg 4501 ggcggccgcc tgccgagaaa ctctccccta acccacccaa cctcaccaag aagatgaaga 4561 agattgtgga tgccgtgatc aagtacaagg acagcagcag tggacgtcag ctcagcgagg 4621 tcttcatcca gctgccctcg cgaaaggagc tgcccgagta ctacgagctc atccgcaagc 4681 ccgtggactt caagaagata aaggagcgca ttcgcaacca caagtaccgc agcctcaacg 4741 acctagagaa ggacgtcatg ctcctgtgcc agaacgcaca gaccttcaac ctggagggct 4801 ccctgatcta tgaagactcc atcgtcttgc agtcggtctt caccagcgtg cggcagaaaa 4861 tcgagaagga ggatgacagt gaaggcgagg agagtgagga ggaggaagag ggcgaggagg 4921 aaggctccga atccgaatct cggtccgtca aagtgaagat caagcttggc cggaaggaga 4981 aggcacagga ccggctgaag ggcggccggc ggcggccgag ccgagggtcc cgagccaagc 5041 cggtcgtgag tgacgatgac agtgaggagg aacaagagga ggaccgctca ggaagtggca 5101 gcgaagaaga ctgagccccg acattccagt ctcgaccccg agcccctcgt tccagagctg 5161 agatggcata ggccttagca gtaacgggta gcagcagatg tagtttcaga cttggagtaa 5221 aactgtataa acaaaagaat cttccatatt tatacagcag agaagctgta ggactgtttg 5281 tgactggccc tgtcctggca tcagtagcat ctgtaacagc attaactgtc ttaaagagag 5341 agagagagaa ttccgaattg gggaacacac gatacctgtt tttcttttcc gttgctggca 5401 gtactgttgc gccgcagttt ggagtcactg tagttaagtg tggatgcatg tgcgtcaccg 5461 tccactcctc ctactgtatt ttattggaca ggtcagactc gccgggggcc cggcgagggt 5521 atgtcagtgt cactggatgt caaacagtaa taaattaaac caacaacaaa acgcacagcc 5581 aaaaaaaaa SEQ ID NO: 185 Human SMARCA4 Amino Acid Sequence Isoform B (NP_001122316.1 and NP_003063.2) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpiptqg 61 pggypqdnmh qmhkpmesmh ekgmsddpry nqmkgmgmrs gghagmgppp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgadpq algqqnrgpt pfnqnqlhql 181 raqimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt qspggpagpa pmvplhqkqs ritpiqkprg 361 ldpveilqer eyrlgariah rigelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqg kieqerkrrq khqeylnsil 481 qhakdfkeyh rsvtgkiqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanitelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqaaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sqalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvinth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqgnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdesr 1261 hcstgsgsas fahtapppag vnpdleeppl keedevpdde tvnqmiarhe eefdlfmrmd 1321 ldrrreearn pkrkprlmee delpswiikd daeverltce eeeekmfgrg srhrkevdys 1381 dsltekqwlk aieegtleei eeevrqkkss rkrkrdsdag sstpttstrs rdkddeskkq 1441 kkrgrppaek lspnppnitk kmkkivdavi kykdsssgrq lsevfiqlps rkelpeyyel 1501 irkpvdfkki kerirnhkyr slndlekdvm llcqnaqtfn legsliyeds ivlqsvftsv 1561 rqkiekedds egeeseeeee geeegseses rsvkvkiklg rkekaqdrlk ggrrrpsrgs 1621 rakpvvsddd seeeqeedrs gsgseed SEQ ID NO: 186 Human SMARCA4 cDNA Sequence Variant 2 (NM_001128844.1, CDS: 361-5304) 1 ggagaggccg ccgcggtgct gagggggagg ggagccggcg agcgcgcgcg cagcgggggc 61 gcgggtggcg cgcgtgtgtg tgaagggggg gcggtggccg aggcgggcgg gcgcgcgcgc 121 gaggcttccc ctcgtttggc ggcggcggcg gcttctttgt ttcgtgaaga gaagcgagac 181 gcccattctg cccccggccc cgcgcggagg ggcgggggag gcgccgggaa gtcgacggcg 241 ccggcggctc ctgcgtctcg cccttttgcc caggctagag tgcagtggtg cggtcatggt 301 tcactgcagc ctcaacctcc tggactcagc aggaggccac tgtctgcagc tcccgtgaag 361 atgtccactc cagacccacc cctgggcgga actcctcggc caggtccttc cccgggccct 421 ggcccttccc ctggagccat gctgggccct agcccgggtc cctcgccggg ctccgcccac 481 agcatgatgg ggcccagccc agggccgccc tcagcaggac accccatccc cacccagggg 541 cctggagggt accctcagga caacatgcac cagatgcaca agcccatgga gtccatgcat 601 gagaagggca tgtcggacga cccgcgctac aaccagatga aaggaatggg gatgcggtca 661 gggggccatg ctgggatggg gcccccgccc agccccatgg accagcactc ccaaggttac 721 ccctcgcccc tgggtggctc tgagcatgcc tctagtccag ttccagccag tggcccgtct 781 tcggggcccc agatgtcttc cgggccagga ggtgccccgc tggatggtgc tgacccccag 841 gccttggggc agcagaaccg gggcccaacc ccatttaacc agaaccagct gcaccagctc 901 agagctcaga tcatggccta caagatgctg gccagggggc agcccctccc cgaccacctg 961 cagatggcgg tgcagggcaa gcggccgatg cccgggatgc agcagcagat gccaacgcta 1021 cctccaccct cggtgtccgc aacaggaccc ggccctggcc ctggccctgg ccccggcccg 1081 ggtcccggcc cggcacctcc aaattacagc aggcctcatg gtatgggagg gcccaacatg 1141 cctcccccag gaccctcggg cgtgcccccc gggatgccag gccagcctcc tggagggcct 1201 cccaagccct ggcctgaagg acccatggcg aatgctgctg cccccacgag cacccctcag 1261 aagctgattc ccccgcagcc aacgggccgc ccttcccccg cgccccctgc cgtcccaccc 1321 gccgcctcgc ccgtgatgcc accgcagacc cagtcccccg ggcagccggc ccagcccgcg 1381 cccatggtgc cactgcacca gaagcagagc cgcatcaccc ccatccagaa gccgcggggc 1441 ctcgaccctg tggagatcct gcaggagcgc gagtacaggc tgcaggctcg catcgcacac 1501 cgaattcagg aacttgaaaa ccttcccggg tccctggccg gggatttgcg aaccaaagcg 1561 accattgagc tcaaggccct caggctgctg aacttccaga ggcagctgcg ccaggaggtg 1621 gtggtgtgca tgcggaggga cacagcgctg gagacagccc tcaatgctaa ggcctacaag 1681 cgcagcaagc gccagtccct gcgcgaggcc cgcatcactg agaagctgga gaagcagcag 1741 aagatcgagc aggagcgcaa gcgccggcag aagcaccagg aatacctcaa tagcattctc 1801 cagcatgcca aggatttcaa ggaatatcac agatccgtca caggcaaaat ccagaagctg 1861 accaaggcag tggccacgta ccatgccaac acggagcggg agcagaagaa agagaacgag 1921 cggatcgaga aggagcgcat gcggaggctc atggctgaag atgaggaggg gtaccgcaag 1981 ctcatcgacc agaagaagga caagcgcctg gcctacctct tgcagcagac agacgagtac 2041 gtggctaacc tcacggagct ggtgcggcag cacaaggctg cccaggtcgc caaggagaaa 2101 aagaagaaaa agaaaaagaa gaaggcagaa aatgcagaag gacagacgcc tgccattggg 2161 ccggatggcg agcctctgga cgagaccagc cagatgagcg acctcccggt gaaggtgatc 2221 cacgtggaga gtgggaagat cctcacaggc acagatgccc ccaaagccgg gcagctggag 2281 gcctggctcg agatgaaccc ggggtatgaa gtagctccga ggtctgatag tgaagaaagt 2341 ggctcagaag aagaggaaga ggaggaggag gaagagcagc cgcaggcagc acagcctccc 2401 accctgcccg tggaggagaa gaagaagatt ccagatccag acagcgatga cgtctctgag 2461 gtggacgcgc ggcacatcat tgagaatgcc aagcaagatg tcgatgatga atatggcgtg 2521 tcccaggccc ttgcacgtgg cctgcagtcc tactatgccg tggcccatgc tgtcactgag 2581 agagtggaca agcagtcagc gcttatggtc aatggtgtcc tcaaacagta ccagatcaaa 2641 ggtttggagt ggctggtgtc cctgtacaac aacaacctga acggcatcct ggccgacgag 2701 atgggcctgg ggaagaccat ccagaccatc gcgctcatca cgtacctcat ggagcacaaa 2761 cgcatcaatg ggcccttcct catcatcgtg cctctctcaa cgctgtccaa ctgggcgtac 2821 gagtttgaca agtgggcccc ctccgtggtg aaggtgtctt acaagggatc cccagcagca 2881 agacgggcct ttgtccccca gctccggagt gggaagttca acgtcttgct gacgacgtac 2941 gagtacatca tcaaagacaa gcacatcctc gccaagatcc gttggaagta catgattgtg 3001 gacgaaggtc accgcatgaa gaaccaccac tgcaagctga cgcaggtgct caacacgcac 3061 tatgtggcac cccgccgcct gctgctgacg ggcacaccgc tgcagaacaa gcttcccgag 3121 ctctgggcgc tgctcaactt cctgctgccc accatcttca agagctgcag caccttcgag 3181 cagtggttta acgcaccctt tgccatgacc ggggaaaagg tggacctgaa tgaggaggaa 3241 accattctca tcatccggcg tctccacaaa gtgctgcggc ccttcttgct ccgacgactc 3301 aagaaggaag tcgaggccca gttgcccgaa aaggtggagt acgtcatcaa gtgcgacatg 3361 tctgcgctgc agcgagtgct ctaccgccac atgcaggcca agggcgtgct gctgactgat 3421 ggctccgaga aggacaagaa gggcaaaggc ggcaccaaga ccctgatgaa caccatcatg 3481 cagctgcgga agatctgcaa ccacccctac atgttccagc acatcgagga gtccttttcc 3541 gagcacttgg ggttcactgg cggcattgtc caagggctgg acctgtaccg agcctcgggt 3601 aaatttgagc ttcttgatag aattcttccc aaactccgag caaccaacca caaagtgctg 3661 ctgttctgcc aaatgacctc cctcatgacc atcatggaag attactttgc gtatcgcggc 3721 tttaaatacc tcaggcttga tggaaccacg aaggcggagg accggggcat gctgctgaaa 3781 accttcaacg agcccggctc tgagtacttc atcttcctgc tcagcacccg ggctgggggg 3841 ctcggcctga acctccagtc ggcagacact gtgatcattt ttgacagcga ctggaatcct 3901 caccaggacc tgcaagcgca ggaccgagcc caccgcatcg ggcagcagaa cgaggtgcgt 3961 gtgctccgcc tctgcaccgt caacagcgtg gaggagaaga tcctagctgc agccaagtac 4021 aagctcaacg tggaccagaa ggtgatccag gccggcatgt tcgaccagaa gtcctccagc 4081 catgagcggc gcgccttcct gcaggccatc ctggagcacg aggagcagga tgagagcaga 4141 cactgcagca cgggcagcgg cagtgccagc ttcgcccaca ctgcccctcc gccagcgggc 4201 gtcaaccccg acttggagga gccacctcta aaggaggaag acgaggtgcc cgacgacgag 4261 accgtcaacc agatgatcgc ccggcacgag gaggagtttg atctgttcat gcgcatggac 4321 ctggaccgca ggcgcgagga ggcccgcaac cccaagcgga agccgcgcct catggaggag 4381 gacgagctcc cctcgtggat catcaaggac gacgcggagg tggagcggct gacctgtgag 4441 gaggaggagg agaagatgtt cggccgtggc tcccgccacc gcaaggaggt ggactacagc 4501 gactcactga cggagaagca gtggctcaag gccatcgagg agggcacgct ggaggagatc 4561 gaagaggagg tccggcagaa gaaatcatca cggaagcgca agcgagacag cgacgccggc 4621 tcctccaccc cgaccaccag cacccgcagc cgcgacaagg acgacgagag caagaagcag 4681 aagaagcgcg ggcggccgcc tgccgagaaa ctctccccta acccacccaa cctcaccaag 4741 aagatgaaga agattgtgga tgccgtgatc aagtacaagg acagcagcag tggacgtcag 4801 ctcagcgagg tcttcatcca gctgccctcg cgaaaggagc tgcccgagta ctacgagctc 4861 atccgcaagc ccgtggactt caagaagata aaggagcgca ttcgcaacca caagtaccgc 4921 agcctcaacg acctagagaa ggacgtcatg ctcctgtgcc agaacgcaca gaccttcaac 4981 ctggagggct ccctgatcta tgaagactcc atcgtcttgc agtcggtctt caccagcgtg 5041 cggcagaaaa tcgagaagga ggatgacagt gaaggcgagg agagtgagga ggaggaagag 5101 ggcgaggagg aaggctccga atccgaatct cggtccgtca aagtgaagat caagcttggc 5161 cggaaggaga aggcacagga ccggctgaag ggcggccggc ggcggccgag ccgagggtcc 5221 cgagccaagc cggtcgtgag tgacgatgac agtgaggagg aacaagagga ggaccgctca 5281 ggaagtggca gcgaagaaga ctgagccccg acattccagt ctcgaccccg agcccctcgt 5341 tccagagctg agatggcata ggccttagca gtaacgggta gcagcagatg tagtttcaga 5401 cttggagtaa aactgtataa acaaaagaat cttccatatt tatacagcag agaagctgta 5461 ggactgtttg tgactggccc tgtcctggca tcagtagcat ctgtaacagc attaactgtc 5521 ttaaagagag agagagagaa ttccgaattg gggaacacac gatacctgtt tttcttttcc 5581 gttgctggca gtactgttgc gccgcagttt ggagtcactg tagttaagtg tggatgcatg 5641 tgcgtcaccg tccactcctc ctactgtatt ttattggaca ggtcagactc gccgggggcc 5701 cggcgagggt atgtcagtgt cactggatgt caaacagtaa taaattaaac caacaacaaa 5761 acgcacagcc aaaaaaaaa SEQ ID NO: 187 Human SMARCA4 cDNA Sequence Variant 3 (NM_003072.3, CDS: 285-5228) 1 ggagaggccg ccgcggtgct gagggggagg ggagccggcg agcgcgcgcg cagcgggggc 61 gcgggtggcg cgcgtgtgtg tgaagggggg gcggtggccg aggcgggcgg gcgcgcgcgc 121 gaggcttccc ctcgtttggc ggcggcggcg gcttctttgt ttcgtgaaga gaagcgagac 181 gcccattctg cccccggccc cgcgcggagg ggcgggggag gcgccgggaa gtcgacggcg 241 ccggcggctc ctgcaggagg ccactgtctg cagctcccgt gaagatgtcc actccagacc 301 cacccctggg cggaactcct cggccaggtc cttccccggg ccctggccct tcccctggag 361 ccatgctggg ccctagcccg ggtccctcgc cgggctccgc ccacagcatg atggggccca 421 gcccagggcc gccctcagca ggacacccca tccccaccca ggggcctgga gggtaccctc 481 aggacaacat gcaccagatg cacaagccca tggagtccat gcatgagaag ggcatgtcgg 541 acgacccgcg ctacaaccag atgaaaggaa tggggatgcg gtcagggggc catgctggga 601 tggggccccc gcccagcccc atggaccagc actcccaagg ttacccctcg cccctgggtg 661 gctctgagca tgcctctagt ccagttccag ccagtggccc gtcttcgggg ccccagatgt 721 cttccgggcc aggaggtgcc ccgctggatg gtgctgaccc ccaggccttg gggcagcaga 781 accggggccc aaccccattt aaccagaacc agctgcacca gctcagagct cagatcatgg 841 cctacaagat gctggccagg gggcagcccc tccccgacca cctgcagatg gcggtgcagg 901 gcaagcggcc gatgcccggg atgcagcagc agatgccaac gctacctcca ccctcggtgt 961 ccgcaacagg acccggccct ggccctggcc ctggccccgg cccgggtccc ggcccggcac 1021 ctccaaatta cagcaggcct catggtatgg gagggcccaa catgcctccc ccaggaccct 1081 cgggcgtgcc ccccgggatg ccaggccagc ctcctggagg gcctcccaag ccctggcctg 1141 aaggacccat ggcgaatgct gctgccccca cgagcacccc tcagaagctg attcccccgc 1201 agccaacggg ccgcccttcc cccgcgcccc ctgccgtccc acccgccgcc tcgcccgtga 1261 tgccaccgca gacccagtcc cccgggcagc cggcccagcc cgcgcccatg gtgccactgc 1321 accagaagca gagccgcatc acccccatcc agaagccgcg gggcctcgac cctgtggaga 1381 tcctgcagga gcgcgagtac aggctgcagg ctcgcatcgc acaccgaatt caggaacttg 1441 aaaaccttcc cgggtccctg gccggggatt tgcgaaccaa agcgaccatt gagctcaagg 1501 ccctcaggct gctgaacttc cagaggcagc tgcgccagga ggtggtggtg tgcatgcgga 1561 gggacacagc gctggagaca gccctcaatg ctaaggccta caagcgcagc aagcgccagt 1621 ccctgcgcga ggcccgcatc actgagaagc tggagaagca gcagaagatc gagcaggagc 1681 gcaagcgccg gcagaagcac caggaatacc tcaatagcat tctccagcat gccaaggatt 1741 tcaaggaata tcacagatcc gtcacaggca aaatccagaa gctgaccaag gcagtggcca 1801 cgtaccatgc caacacggag cgggagcaga agaaagagaa cgagcggatc gagaaggagc 1861 gcatgcggag gctcatggct gaagatgagg aggggtaccg caagctcatc gaccagaaga 1921 aggacaagcg cctggcctac ctcttgcagc agacagacga gtacgtggct aacctcacgg 1981 agctggtgcg gcagcacaag gctgcccagg tcgccaagga gaaaaagaag aaaaagaaaa 2041 agaagaaggc agaaaatgca gaaggacaga cgcctgccat tgggccggat ggcgagcctc 2101 tggacgagac cagccagatg agcgacctcc cggtgaaggt gatccacgtg gagagtggga 2161 agatcctcac aggcacagat gcccccaaag ccgggcagct ggaggcctgg ctcgagatga 2221 acccggggta tgaagtagct ccgaggtctg atagtgaaga aagtggctca gaagaagagg 2281 aagaggagga ggaggaagag cagccgcagg cagcacagcc tcccaccctg cccgtggagg 2341 agaagaagaa gattccagat ccagacagcg atgacgtctc tgaggtggac gcgcggcaca 2401 tcattgagaa tgccaagcaa gatgtcgatg atgaatatgg cgtgtcccag gcccttgcac 2461 gtggcctgca gtcctactat gccgtggccc atgctgtcac tgagagagtg gacaagcagt 2521 cagcgcttat ggtcaatggt gtcctcaaac agtaccagat caaaggtttg gagtggctgg 2581 tgtccctgta caacaacaac ctgaacggca tcctggccga cgagatgggc ctggggaaga 2641 ccatccagac catcgcgctc atcacgtacc tcatggagca caaacgcatc aatgggccct 2701 tcctcatcat cgtgcctctc tcaacgctgt ccaactgggc gtacgagttt gacaagtggg 2761 ccccctccgt ggtgaaggtg tcttacaagg gatccccagc agcaagacgg gcctttgtcc 2821 cccagctccg gagtgggaag ttcaacgtct tgctgacgac gtacgagtac atcatcaaag 2881 acaagcacat cctcgccaag atccgttgga agtacatgat tgtggacgaa ggtcaccgca 2941 tgaagaacca ccactgcaag ctgacgcagg tgctcaacac gcactatgtg gcaccccgcc 3001 gcctgctgct gacgggcaca ccgctgcaga acaagcttcc cgagctctgg gcgctgctca 3061 acttcctgct gcccaccatc ttcaagagct gcagcacctt cgagcagtgg tttaacgcac 3121 cctttgccat gaccggggaa aaggtggacc tgaatgagga ggaaaccatt ctcatcatcc 3181 ggcgtctcca caaagtgctg cggcccttct tgctccgacg actcaagaag gaagtcgagg 3241 cccagttgcc cgaaaaggtg gagtacgtca tcaagtgcga catgtctgcg ctgcagcgag 3301 tgctctaccg ccacatgcag gccaagggcg tgctgctgac tgatggctcc gagaaggaca 3361 agaagggcaa aggcggcacc aagaccctga tgaacaccat catgcagctg cggaagatct 3421 gcaaccaccc ctacatgttc cagcacatcg aggagtcctt ttccgagcac ttggggttca 3481 ctggcggcat tgtccaaggg ctggacctgt accgagcctc gggtaaattt gagcttcttg 3541 atagaattct tcccaaactc cgagcaacca accacaaagt gctgctgttc tgccaaatga 3601 cctccctcat gaccatcatg gaagattact ttgcgtatcg cggctttaaa tacctcaggc 3661 ttgatggaac cacgaaggcg gaggaccggg gcatgctgct gaaaaccttc aacgagcccg 3721 gctctgagta cttcatcttc ctgctcagca cccgggctgg ggggctcggc ctgaacctcc 3781 agtcggcaga cactgtgatc atttttgaca gcgactggaa tcctcaccag gacctgcaag 3841 cgcaggaccg agcccaccgc atcgggcagc agaacgaggt gcgtgtgctc cgcctctgca 3901 ccgtcaacag cgtggaggag aagatcctag ctgcagccaa gtacaagctc aacgtggacc 3961 agaaggtgat ccaggccggc atgttcgacc agaagtcctc cagccatgag cggcgcgcct 4021 tcctgcaggc catcctggag cacgaggagc aggatgagag cagacactgc agcacgggca 4081 gcggcagtgc cagcttcgcc cacactgccc ctccgccagc gggcgtcaac cccgacttgg 4141 aggagccacc tctaaaggag gaagacgagg tgcccgacga cgagaccgtc aaccagatga 4201 tcgcccggca cgaggaggag tttgatctgt tcatgcgcat ggacctggac cgcaggcgcg 4261 aggaggcccg caaccccaag cggaagccgc gcctcatgga ggaggacgag ctcccctcgt 4321 ggatcatcaa ggacgacgcg gaggtggagc ggctgacctg tgaggaggag gaggagaaga 4381 tgttcggccg tggctcccgc caccgcaagg aggtggacta cagcgactca ctgacggaga 4441 agcagtggct caaggccatc gaggagggca cgctggagga gatcgaagag gaggtccggc 4501 agaagaaatc atcacggaag cgcaagcgag acagcgacgc cggctcctcc accccgacca 4561 ccagcacccg cagccgcgac aaggacgacg agagcaagaa gcagaagaag cgcgggcggc 4621 cgcctgccga gaaactctcc cctaacccac ccaacctcac caagaagatg aagaagattg 4681 tggatgccgt gatcaagtac aaggacagca gcagtggacg tcagctcagc gaggtcttca 4741 tccagctgcc ctcgcgaaag gagctgcccg agtactacga gctcatccgc aagcccgtgg 4801 acttcaagaa gataaaggag cgcattcgca accacaagta ccgcagcctc aacgacctag 4861 agaaggacgt catgctcctg tgccagaacg cacagacctt caacctggag ggctccctga 4921 tctatgaaga ctccatcgtc ttgcagtcgg tcttcaccag cgtgcggcag aaaatcgaga 4981 aggaggatga cagtgaaggc gaggagagtg aggaggagga agagggcgag gaggaaggct 5041 ccgaatccga atctcggtcc gtcaaagtga agatcaagct tggccggaag gagaaggcac 5101 aggaccggct gaagggcggc cggcggcggc cgagccgagg gtcccgagcc aagccggtcg 5161 tgagtgacga tgacagtgag gaggaacaag aggaggaccg ctcaggaagt ggcagcgaag 5221 aagactgagc cccgacattc cagtctcgac cccgagcccc tcgttccaga gctgagatgg 5281 cataggcctt agcagtaacg ggtagcagca gatgtagttt cagacttgga gtaaaactgt 5341 ataaacaaaa gaatcttcca tatttataca gcagagaagc tgtaggactg tttgtgactg 5401 gccctgtcct ggcatcagta gcatctgtaa cagcattaac tgtcttaaag agagagagag 5461 agaattccga attggggaac acacgatacc tgtttttctt ttccgttgct ggcagtactg 5521 ttgcgccgca gtttggagtc actgtagtta agtgtggatg catgtgcgtc accgtccact 5581 cctcctactg tattttattg gacaggtcag actcgccggg ggcccggcga gggtatgtca 5641 gtgtcactgg atgtcaaaca gtaataaatt aaaccaacaa caaaacgcac agccaaaaaa 5701 aaa SEQ ID NO: 188 Human SMARCA4 Amino Acid Sequence Isoform C (NP_001122317.1) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpiptqg 61 pggypqdnmh qmhkpmesmh ekgmsddpry nqmkgmgmrs gghagmgppp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgadpq algqqnrgpt pfnqnqlhql 181 raqimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt gspggpagpa pmvplhqkqs ritpiqkprg 361 ldpveilqer eyrlqariah rigelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqg kiegerkrrq khqeylnsil 481 qhakdfkeyh rsvtgkiqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanitelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqaaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sqalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvinth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqqnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdeee 1261 devpddetvn qmiarheeef dlfmrmdldr rreearnpkr kprlmeedel pswiikddae 1321 verltceeee ekmfgrgsrh rkevdysdsl tekqwlktlk aieegtleei eeevrqkkss 1381 rkrkrdsdag sstpttstrs rdkddeskkq kkrgrppaek lspnppnitk kmkkivdavi 1441 kykdsssgrq lsevfiqlps rkelpeyyel irkpvdfkki kerirnhkyr slndlekdvm 1501 llcgnagtfn legsliyeds ivlqsvftsv rqkiekedds egeeseeeee geeegseses 1561 rsvkvkiklg rkekaqdrlk ggrrrpsrgs rakpvvsddd seeeqeedrs gsgseed SEQ ID NO: 189 Human SMARCA4 cDNA Sequence Variant 4 (NM_001128845.1, CDS: 1-4854) 1 atgtccactc cagacccacc cctgggcgga actcctcggc caggtccttc cccgggccct 61 ggcccttccc ctggagccat gctgggccct agcccgggtc cctcgccggg ctccgcccac 121 agcatgatgg ggcccagccc agggccgccc tcagcaggac accccatccc cacccagggg 181 cctggagggt accctcagga caacatgcac cagatgcaca agcccatgga gtccatgcat 241 gagaagggca tgtcggacga cccgcgctac aaccagatga aaggaatggg gatgcggtca 301 gggggccatg ctgggatggg gcccccgccc agccccatgg accagcactc ccaaggttac 361 ccctcgcccc tgggtggctc tgagcatgcc tctagtccag ttccagccag tggcccgtct 421 tcggggcccc agatgtcttc cgggccagga ggtgccccgc tggatggtgc tgacccccag 481 gccttggggc agcagaaccg gggcccaacc ccatttaacc agaaccagct gcaccagctc 541 agagctcaga tcatggccta caagatgctg gccagggggc agcccctccc cgaccacctg 601 cagatggcgg tgcagggcaa gcggccgatg cccgggatgc agcagcagat gccaacgcta 661 cctccaccct cggtgtccgc aacaggaccc ggccctggcc ctggccctgg ccccggcccg 721 ggtcccggcc cggcacctcc aaattacagc aggcctcatg gtatgggagg gcccaacatg 781 cctcccccag gaccctcggg cgtgcccccc gggatgccag gccagcctcc tggagggcct 841 cccaagccct ggcctgaagg acccatggcg aatgctgctg cccccacgag cacccctcag 901 aagctgattc ccccgcagcc aacgggccgc ccttcccccg cgccccctgc cgtcccaccc 961 gccgcctcgc ccgtgatgcc accgcagacc cagtcccccg ggcagccggc ccagcccgcg 1021 cccatggtgc cactgcacca gaagcagagc cgcatcaccc ccatccagaa gccgcggggc 1081 ctcgaccctg tggagatcct gcaggagcgc gagtacaggc tgcaggctcg catcgcacac 1141 cgaattcagg aacttgaaaa ccttcccggg tccctggccg gggatttgcg aaccaaagcg 1201 accattgagc tcaaggccct caggctgctg aacttccaga ggcagctgcg ccaggaggtg 1261 gtggtgtgca tgcggaggga cacagcgctg gagacagccc tcaatgctaa ggcctacaag 1321 cgcagcaagc gccagtccct gcgcgaggcc cgcatcactg agaagctgga gaagcagcag 1381 aagatcgagc aggagcgcaa gcgccggcag aagcaccagg aatacctcaa tagcattctc 1441 cagcatgcca aggatttcaa ggaatatcac agatccgtca caggcaaaat ccagaagctg 1501 accaaggcag tggccacgta ccatgccaac acggagcggg agcagaagaa agagaacgag 1561 cggatcgaga aggagcgcat gcggaggctc atggctgaag atgaggaggg gtaccgcaag 1621 ctcatcgacc agaagaagga caagcgcctg gcctacctct tgcagcagac agacgagtac 1681 gtggctaacc tcacggagct ggtgcggcag cacaaggctg cccaggtcgc caaggagaaa 1741 aagaagaaaa agaaaaagaa gaaggcagaa aatgcagaag gacagacgcc tgccattggg 1801 ccggatggcg agcctctgga cgagaccagc cagatgagcg acctcccggt gaaggtgatc 1861 cacgtggaga gtgggaagat cctcacaggc acagatgccc ccaaagccgg gcagctggag 1921 gcctggctcg agatgaaccc ggggtatgaa gtagctccga ggtctgatag tgaagaaagt 1981 ggctcagaag aagaggaaga ggaggaggag gaagagcagc cgcaggcagc acagcctccc 2041 accctgcccg tggaggagaa gaagaagatt ccagatccag acagcgatga cgtctctgag 2101 gtggacgcgc ggcacatcat tgagaatgcc aagcaagatg tcgatgatga atatggcgtg 2161 tcccaggccc ttgcacgtgg cctgcagtcc tactatgccg tggcccatgc tgtcactgag 2221 agagtggaca agcagtcagc gcttatggtc aatggtgtcc tcaaacagta ccagatcaaa 2281 ggtttggagt ggctggtgtc cctgtacaac aacaacctga acggcatcct ggccgacgag 2341 atgggcctgg ggaagaccat ccagaccatc gcgctcatca cgtacctcat ggagcacaaa 2401 cgcatcaatg ggcccttcct catcatcgtg cctctctcaa cgctgtccaa ctgggcgtac 2461 gagtttgaca agtgggcccc ctccgtggtg aaggtgtctt acaagggatc cccagcagca 2521 agacgggcct ttgtccccca gctccggagt gggaagttca acgtcttgct gacgacgtac 2581 gagtacatca tcaaagacaa gcacatcctc gccaagatcc gttggaagta catgattgtg 2641 gacgaaggtc accgcatgaa gaaccaccac tgcaagctga cgcaggtgct caacacgcac 2701 tatgtggcac cccgccgcct gctgctgacg ggcacaccgc tgcagaacaa gcttcccgag 2761 ctctgggcgc tgctcaactt cctgctgccc accatcttca agagctgcag caccttcgag 2821 cagtggttta acgcaccctt tgccatgacc ggggaaaagg tggacctgaa tgaggaggaa 2881 accattctca tcatccggcg tctccacaaa gtgctgcggc ccttcttgct ccgacgactc 2941 aagaaggaag tcgaggccca gttgcccgaa aaggtggagt acgtcatcaa gtgcgacatg 3001 tctgcgctgc agcgagtgct ctaccgccac atgcaggcca agggcgtgct gctgactgat 3061 ggctccgaga aggacaagaa gggcaaaggc ggcaccaaga ccctgatgaa caccatcatg 3121 cagctgcgga agatctgcaa ccacccctac atgttccagc acatcgagga gtccttttcc 3181 gagcacttgg ggttcactgg cggcattgtc caagggctgg acctgtaccg agcctcgggt 3241 aaatttgagc ttcttgatag aattcttccc aaactccgag caaccaacca caaagtgctg 3301 ctgttctgcc aaatgacctc cctcatgacc atcatggaag attactttgc gtatcgcggc 3361 tttaaatacc tcaggcttga tggaaccacg aaggcggagg accggggcat gctgctgaaa 3421 accttcaacg agcccggctc tgagtacttc atcttcctgc tcagcacccg ggctgggggg 3481 ctcggcctga acctccagtc ggcagacact gtgatcattt ttgacagcga ctggaatcct 3541 caccaggacc tgcaagcgca ggaccgagcc caccgcatcg ggcagcagaa cgaggtgcgt 3601 gtgctccgcc tctgcaccgt caacagcgtg gaggagaaga tcctagctgc agccaagtac 3661 aagctcaacg tggaccagaa ggtgatccag gccggcatgt tcgaccagaa gtcctccagc 3721 catgagcggc gcgccttcct gcaggccatc ctggagcacg aggagcagga tgaggaggaa 3781 gacgaggtgc ccgacgacga gaccgtcaac cagatgatcg cccggcacga ggaggagttt 3841 gatctgttca tgcgcatgga cctggaccgc aggcgcgagg aggcccgcaa ccccaagcgg 3901 aagccgcgcc tcatggagga ggacgagctc ccctcgtgga tcatcaagga cgacgcggag 3961 gtggagcggc tgacctgtga ggaggaggag gagaagatgt tcggccgtgg ctcccgccac 4021 cgcaaggagg tggactacag cgactcactg acggagaagc agtggctcaa gaccctgaag 4081 gccatcgagg agggcacgct ggaggagatc gaagaggagg tccggcagaa gaaatcatca 4141 cggaagcgca agcgagacag cgacgccggc tcctccaccc cgaccaccag cacccgcagc 4201 cgcgacaagg acgacgagag caagaagcag aagaagcgcg ggcggccgcc tgccgagaaa 4261 ctctccccta acccacccaa cctcaccaag aagatgaaga agattgtgga tgccgtgatc 4321 aagtacaagg acagcagcag tggacgtcag ctcagcgagg tcttcatcca gctgccctcg 4381 cgaaaggagc tgcccgagta ctacgagctc atccgcaagc ccgtggactt caagaagata 4441 aaggagcgca ttcgcaacca caagtaccgc agcctcaacg acctagagaa ggacgtcatg 4501 ctcctgtgcc agaacgcaca gaccttcaac ctggagggct ccctgatcta tgaagactcc 4561 atcgtcttgc agtcggtctt caccagcgtg cggcagaaaa tcgagaagga ggatgacagt 4621 gaaggcgagg agagtgagga ggaggaagag ggcgaggagg aaggctccga atccgaatct 4681 cggtccgtca aagtgaagat caagcttggc cggaaggaga aggcacagga ccggctgaag 4741 ggcggccggc ggcggccgag ccgagggtcc cgagccaagc cggtcgtgag tgacgatgac 4801 agtgaggagg aacaagagga ggaccgctca ggaagtggca gcgaagaaga ctgagccccg 4861 acattccagt ctcgaccccg agcccctcgt tccagagctg agatggcata ggccttagca 4921 gtaacgggta gcagcagatg tagtttcaga cttggagtaa aactgtataa acaaaagaat 4981 cttccatatt tatacagcag agaagctgta ggactgtttg tgactggccc tgtcctggca 5041 tcagtagcat ctgtaacagc attaactgtc ttaaagagag agagagagaa ttccgaattg 5101 gggaacacac gatacctgtt tttcttttcc gttgctggca gtactgttgc gccgcagttt 5161 ggagtcactg tagttaagtg tggatgcatg tgcgtcaccg tccactcctc ctactgtatt 5221 ttattggaca ggtcagactc gccgggggcc cggcgagggt atgtcagtgt cactggatgt 5281 caaacagtaa taaattaaac caacaacaaa acgcacagcc aaaaaaaaa SEQ ID NO: 190 Human SMARCA4 Amino Acid Sequence Isoform D (NP_001122318.1) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpiptqg 61 pggypqdnmh qmhkpmesmh ekgmsddpry nqmkgmgmrs gghagmgppp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgadpq algqqnrgpt pfnqnqlhql 181 raqimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt gspggpagpa pmvplhqkqs ritpiqkprg 361 ldpveilger eyrlqariah riqelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqg kiegerkrrq khqeylnsil 481 qhakdfkeyh rsvtgkiqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanitelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqaaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sqalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvinth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqgnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdeee 1261 devpddetvn qmiarheeef dlfmrmdldr rreearnpkr kprlmeedel pswiikddae 1321 verltceeee ekmfgrgsrh rkevdysdsl tekqwlktlk aieegtleei eeevrqkkss 1381 rkrkrdsdag sstpttstrs rdkddeskkq kkrgrppaek lspnppnitk kmkkivdavi 1441 kykdssgrql sevfiqlpsr kelpeyyeli rkpvdfkkik erirnhkyrs lndlekdvml 1501 lcqnagtfnl egsliyedsi vlqsvftsvr qkiekeddse geeseeeeeg eeegsesesr 1561 svkvkiklgr kekaqdrlkg grrrpsrgsr akpvvsddds eeeqeedrsg sgseed SEQ ID NO: 191 Human SMARCA4 cDNA Sequence Variant 5 (NM_001128846.1, CDS: 1-4851) 1 atgtccactc cagacccacc cctgggcgga actcctcggc caggtccttc cccgggccct 61 ggcccttccc ctggagccat gctgggccct agcccgggtc cctcgccggg ctccgcccac 121 agcatgatgg ggcccagccc agggccgccc tcagcaggac accccatccc cacccagggg 181 cctggagggt accctcagga caacatgcac cagatgcaca agcccatgga gtccatgcat 241 gagaagggca tgtcggacga cccgcgctac aaccagatga aaggaatggg gatgcggtca 301 gggggccatg ctgggatggg gcccccgccc agccccatgg accagcactc ccaaggttac 361 ccctcgcccc tgggtggctc tgagcatgcc tctagtccag ttccagccag tggcccgtct 421 tcggggcccc agatgtcttc cgggccagga ggtgccccgc tggatggtgc tgacccccag 481 gccttggggc agcagaaccg gggcccaacc ccatttaacc agaaccagct gcaccagctc 541 agagctcaga tcatggccta caagatgctg gccagggggc agcccctccc cgaccacctg 601 cagatggcgg tgcagggcaa gcggccgatg cccgggatgc agcagcagat gccaacgcta 661 cctccaccct cggtgtccgc aacaggaccc ggccctggcc ctggccctgg ccccggcccg 721 ggtcccggcc cggcacctcc aaattacagc aggcctcatg gtatgggagg gcccaacatg 781 cctcccccag gaccctcggg cgtgcccccc gggatgccag gccagcctcc tggagggcct 841 cccaagccct ggcctgaagg acccatggcg aatgctgctg cccccacgag cacccctcag 901 aagctgattc ccccgcagcc aacgggccgc ccttcccccg cgccccctgc cgtcccaccc 961 gccgcctcgc ccgtgatgcc accgcagacc cagtcccccg ggcagccggc ccagcccgcg 1021 cccatggtgc cactgcacca gaagcagagc cgcatcaccc ccatccagaa gccgcggggc 1081 ctcgaccctg tggagatcct gcaggagcgc gagtacaggc tgcaggctcg catcgcacac 1141 cgaattcagg aacttgaaaa ccttcccggg tccctggccg gggatttgcg aaccaaagcg 1201 accattgagc tcaaggccct caggctgctg aacttccaga ggcagctgcg ccaggaggtg 1261 gtggtgtgca tgcggaggga cacagcgctg gagacagccc tcaatgctaa ggcctacaag 1321 cgcagcaagc gccagtccct gcgcgaggcc cgcatcactg agaagctgga gaagcagcag 1381 aagatcgagc aggagcgcaa gcgccggcag aagcaccagg aatacctcaa tagcattctc 1441 cagcatgcca aggatttcaa ggaatatcac agatccgtca caggcaaaat ccagaagctg 1501 accaaggcag tggccacgta ccatgccaac acggagcggg agcagaagaa agagaacgag 1561 cggatcgaga aggagcgcat gcggaggctc atggctgaag atgaggaggg gtaccgcaag 1621 ctcatcgacc agaagaagga caagcgcctg gcctacctct tgcagcagac agacgagtac 1681 gtggctaacc tcacggagct ggtgcggcag cacaaggctg cccaggtcgc caaggagaaa 1741 aagaagaaaa agaaaaagaa gaaggcagaa aatgcagaag gacagacgcc tgccattggg 1801 ccggatggcg agcctctgga cgagaccagc cagatgagcg acctcccggt gaaggtgatc 1861 cacgtggaga gtgggaagat cctcacaggc acagatgccc ccaaagccgg gcagctggag 1921 gcctggctcg agatgaaccc ggggtatgaa gtagctccga ggtctgatag tgaagaaagt 1981 ggctcagaag aagaggaaga ggaggaggag gaagagcagc cgcaggcagc acagcctccc 2041 accctgcccg tggaggagaa gaagaagatt ccagatccag acagcgatga cgtctctgag 2101 gtggacgcgc ggcacatcat tgagaatgcc aagcaagatg tcgatgatga atatggcgtg 2161 tcccaggccc ttgcacgtgg cctgcagtcc tactatgccg tggcccatgc tgtcactgag 2221 agagtggaca agcagtcagc gcttatggtc aatggtgtcc tcaaacagta ccagatcaaa 2281 ggtttggagt ggctggtgtc cctgtacaac aacaacctga acggcatcct ggccgacgag 2341 atgggcctgg ggaagaccat ccagaccatc gcgctcatca cgtacctcat ggagcacaaa 2401 cgcatcaatg ggcccttcct catcatcgtg cctctctcaa cgctgtccaa ctgggcgtac 2461 gagtttgaca agtgggcccc ctccgtggtg aaggtgtctt acaagggatc cccagcagca 2521 agacgggcct ttgtccccca gctccggagt gggaagttca acgtcttgct gacgacgtac 2581 gagtacatca tcaaagacaa gcacatcctc gccaagatcc gttggaagta catgattgtg 2641 gacgaaggtc accgcatgaa gaaccaccac tgcaagctga cgcaggtgct caacacgcac 2701 tatgtggcac cccgccgcct gctgctgacg ggcacaccgc tgcagaacaa gcttcccgag 2761 ctctgggcgc tgctcaactt cctgctgccc accatcttca agagctgcag caccttcgag 2821 cagtggttta acgcaccctt tgccatgacc ggggaaaagg tggacctgaa tgaggaggaa 2881 accattctca tcatccggcg tctccacaaa gtgctgcggc ccttcttgct ccgacgactc 2941 aagaaggaag tcgaggccca gttgcccgaa aaggtggagt acgtcatcaa gtgcgacatg 3001 tctgcgctgc agcgagtgct ctaccgccac atgcaggcca agggcgtgct gctgactgat 3061 ggctccgaga aggacaagaa gggcaaaggc ggcaccaaga ccctgatgaa caccatcatg 3121 cagctgcgga agatctgcaa ccacccctac atgttccagc acatcgagga gtccttttcc 3181 gagcacttgg ggttcactgg cggcattgtc caagggctgg acctgtaccg agcctcgggt 3241 aaatttgagc ttcttgatag aattcttccc aaactccgag caaccaacca caaagtgctg 3301 ctgttctgcc aaatgacctc cctcatgacc atcatggaag attactttgc gtatcgcggc 3361 tttaaatacc tcaggcttga tggaaccacg aaggcggagg accggggcat gctgctgaaa 3421 accttcaacg agcccggctc tgagtacttc atcttcctgc tcagcacccg ggctgggggg 3481 ctcggcctga acctccagtc ggcagacact gtgatcattt ttgacagcga ctggaatcct 3541 caccaggacc tgcaagcgca ggaccgagcc caccgcatcg ggcagcagaa cgaggtgcgt 3601 gtgctccgcc tctgcaccgt caacagcgtg gaggagaaga tcctagctgc agccaagtac 3661 aagctcaacg tggaccagaa ggtgatccag gccggcatgt tcgaccagaa gtcctccagc 3721 catgagcggc gcgccttcct gcaggccatc ctggagcacg aggagcagga tgaggaggaa 3781 gacgaggtgc ccgacgacga gaccgtcaac cagatgatcg cccggcacga ggaggagttt 3841 gatctgttca tgcgcatgga cctggaccgc aggcgcgagg aggcccgcaa ccccaagcgg 3901 aagccgcgcc tcatggagga ggacgagctc ccctcgtgga tcatcaagga cgacgcggag 3961 gtggagcggc tgacctgtga ggaggaggag gagaagatgt tcggccgtgg ctcccgccac 4021 cgcaaggagg tggactacag cgactcactg acggagaagc agtggctcaa gaccctgaag 4081 gccatcgagg agggcacgct ggaggagatc gaagaggagg tccggcagaa gaaatcatca 4141 cggaagcgca agcgagacag cgacgccggc tcctccaccc cgaccaccag cacccgcagc 4201 cgcgacaagg acgacgagag caagaagcag aagaagcgcg ggcggccgcc tgccgagaaa 4261 ctctccccta acccacccaa cctcaccaag aagatgaaga agattgtgga tgccgtgatc 4321 aagtacaagg acagcagtgg acgtcagctc agcgaggtct tcatccagct gccctcgcga 4381 aaggagctgc ccgagtacta cgagctcatc cgcaagcccg tggacttcaa gaagataaag 4441 gagcgcattc gcaaccacaa gtaccgcagc ctcaacgacc tagagaagga cgtcatgctc 4501 ctgtgccaga acgcacagac cttcaacctg gagggctccc tgatctatga agactccatc 4561 gtcttgcagt cggtcttcac cagcgtgcgg cagaaaatcg agaaggagga tgacagtgaa 4621 ggcgaggaga gtgaggagga ggaagagggc gaggaggaag gctccgaatc cgaatctcgg 4681 tccgtcaaag tgaagatcaa gcttggccgg aaggagaagg cacaggaccg gctgaagggc 4741 ggccggcggc ggccgagccg agggtcccga gccaagccgg tcgtgagtga cgatgacagt 4801 gaggaggaac aagaggagga ccgctcagga agtggcagcg aagaagactg agccccgaca 4861 ttccagtctc gaccccgagc ccctcgttcc agagctgaga tggcataggc cttagcagta 4921 acgggtagca gcagatgtag tttcagactt ggagtaaaac tgtataaaca aaagaatctt 4981 ccatatttat acagcagaga agctgtagga ctgtttgtga ctggccctgt cctggcatca 5041 gtagcatctg taacagcatt aactgtctta aagagagaga gagagaattc cgaattgggg 5101 aacacacgat acctgttttt cttttccgtt gctggcagta ctgttgcgcc gcagtttgga 5161 gtcactgtag ttaagtgtgg atgcatgtgc gtcaccgtcc actcctccta ctgtatttta 5221 ttggacaggt cagactcgcc gggggcccgg cgagggtatg tcagtgtcac tggatgtcaa 5281 acagtaataa attaaaccaa caacaaaacg cacagccaaa aaaaaa SEQ ID NO: 192 Human SMARCA4 Amino Acid Sequence Isoform E (NP_001122319.1) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpiptqg 61 pggypqdnmh qmhkpmesmh ekgmsddpry nqmkgmgmrs gghagmgppp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgadpq algqqnrgpt pfnqnqlhql 181 raqimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt gspggpagpa pmvplhqkqs ritpiqkprg 361 ldpveilqer eyrlqariah rigelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqq kiegerkrrq khqeylnsil 481 qhakdfkeyh rsvtgkiqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanitelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqaaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sgalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvinth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqgnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdeee 1261 devpddetvn qmiarheeef dlfmrmdldr rreearnpkr kprlmeedel pswiikddae 1321 verltceeee ekmfgrgsrh rkevdysdsl tekqwlkaie egtleeieee vrqkkssrkr 1381 krdsdagsst pttstrsrdk ddeskkqkkr grppaeklsp nppnitkkmk kivdavikyk 1441 dsssgrqlse vfiqlpsrke lpeyyelirk pvdfkkiker irnhkyrsln dlekdvmllc 1501 qnaqtfnleg sliyedsivl qsvftsvrqk iekeddsege eseeeeegee egsesesrsv 1561 kvkiklgrke kaqdrlkggr rrpsrgsrak pvvsdddsee eqeedrsgsg seed SEQ ID NO: 193 Human SMARCA4 cDNA Sequence Variant 6 (NM_001128847.1, CDS: 1-4845) 1 atgtccactc cagacccacc cctgggcgga actcctcggc caggtccttc cccgggccct 61 ggcccttccc ctggagccat gctgggccct agcccgggtc cctcgccggg ctccgcccac 121 agcatgatgg ggcccagccc agggccgccc tcagcaggac accccatccc cacccagggg 181 cctggagggt accctcagga caacatgcac cagatgcaca agcccatgga gtccatgcat 241 gagaagggca tgtcggacga cccgcgctac aaccagatga aaggaatggg gatgcggtca 301 gggggccatg ctgggatggg gcccccgccc agccccatgg accagcactc ccaaggttac 361 ccctcgcccc tgggtggctc tgagcatgcc tctagtccag ttccagccag tggcccgtct 421 tcggggcccc agatgtcttc cgggccagga ggtgccccgc tggatggtgc tgacccccag 481 gccttggggc agcagaaccg gggcccaacc ccatttaacc agaaccagct gcaccagctc 541 agagctcaga tcatggccta caagatgctg gccagggggc agcccctccc cgaccacctg 601 cagatggcgg tgcagggcaa gcggccgatg cccgggatgc agcagcagat gccaacgcta 661 cctccaccct cggtgtccgc aacaggaccc ggccctggcc ctggccctgg ccccggcccg 721 ggtcccggcc cggcacctcc aaattacagc aggcctcatg gtatgggagg gcccaacatg 781 cctcccccag gaccctcggg cgtgcccccc gggatgccag gccagcctcc tggagggcct 841 cccaagccct ggcctgaagg acccatggcg aatgctgctg cccccacgag cacccctcag 901 aagctgattc ccccgcagcc aacgggccgc ccttcccccg cgccccctgc cgtcccaccc 961 gccgcctcgc ccgtgatgcc accgcagacc cagtcccccg ggcagccggc ccagcccgcg 1021 cccatggtgc cactgcacca gaagcagagc cgcatcaccc ccatccagaa gccgcggggc 1081 ctcgaccctg tggagatcct gcaggagcgc gagtacaggc tgcaggctcg catcgcacac 1141 cgaattcagg aacttgaaaa ccttcccggg tccctggccg gggatttgcg aaccaaagcg 1201 accattgagc tcaaggccct caggctgctg aacttccaga ggcagctgcg ccaggaggtg 1261 gtggtgtgca tgcggaggga cacagcgctg gagacagccc tcaatgctaa ggcctacaag 1321 cgcagcaagc gccagtccct gcgcgaggcc cgcatcactg agaagctgga gaagcagcag 1381 aagatcgagc aggagcgcaa gcgccggcag aagcaccagg aatacctcaa tagcattctc 1441 cagcatgcca aggatttcaa ggaatatcac agatccgtca caggcaaaat ccagaagctg 1501 accaaggcag tggccacgta ccatgccaac acggagcggg agcagaagaa agagaacgag 1561 cggatcgaga aggagcgcat gcggaggctc atggctgaag atgaggaggg gtaccgcaag 1621 ctcatcgacc agaagaagga caagcgcctg gcctacctct tgcagcagac agacgagtac 1681 gtggctaacc tcacggagct ggtgcggcag cacaaggctg cccaggtcgc caaggagaaa 1741 aagaagaaaa agaaaaagaa gaaggcagaa aatgcagaag gacagacgcc tgccattggg 1801 ccggatggcg agcctctgga cgagaccagc cagatgagcg acctcccggt gaaggtgatc 1861 cacgtggaga gtgggaagat cctcacaggc acagatgccc ccaaagccgg gcagctggag 1921 gcctggctcg agatgaaccc ggggtatgaa gtagctccga ggtctgatag tgaagaaagt 1981 ggctcagaag aagaggaaga ggaggaggag gaagagcagc cgcaggcagc acagcctccc 2041 accctgcccg tggaggagaa gaagaagatt ccagatccag acagcgatga cgtctctgag 2101 gtggacgcgc ggcacatcat tgagaatgcc aagcaagatg tcgatgatga atatggcgtg 2161 tcccaggccc ttgcacgtgg cctgcagtcc tactatgccg tggcccatgc tgtcactgag 2221 agagtggaca agcagtcagc gcttatggtc aatggtgtcc tcaaacagta ccagatcaaa 2281 ggtttggagt ggctggtgtc cctgtacaac aacaacctga acggcatcct ggccgacgag 2341 atgggcctgg ggaagaccat ccagaccatc gcgctcatca cgtacctcat ggagcacaaa 2401 cgcatcaatg ggcccttcct catcatcgtg cctctctcaa cgctgtccaa ctgggcgtac 2461 gagtttgaca agtgggcccc ctccgtggtg aaggtgtctt acaagggatc cccagcagca 2521 agacgggcct ttgtccccca gctccggagt gggaagttca acgtcttgct gacgacgtac 2581 gagtacatca tcaaagacaa gcacatcctc gccaagatcc gttggaagta catgattgtg 2641 gacgaaggtc accgcatgaa gaaccaccac tgcaagctga cgcaggtgct caacacgcac 2701 tatgtggcac cccgccgcct gctgctgacg ggcacaccgc tgcagaacaa gcttcccgag 2761 ctctgggcgc tgctcaactt cctgctgccc accatcttca agagctgcag caccttcgag 2821 cagtggttta acgcaccctt tgccatgacc ggggaaaagg tggacctgaa tgaggaggaa 2881 accattctca tcatccggcg tctccacaaa gtgctgcggc ccttcttgct ccgacgactc 2941 aagaaggaag tcgaggccca gttgcccgaa aaggtggagt acgtcatcaa gtgcgacatg 3001 tctgcgctgc agcgagtgct ctaccgccac atgcaggcca agggcgtgct gctgactgat 3061 ggctccgaga aggacaagaa gggcaaaggc ggcaccaaga ccctgatgaa caccatcatg 3121 cagctgcgga agatctgcaa ccacccctac atgttccagc acatcgagga gtccttttcc 3181 gagcacttgg ggttcactgg cggcattgtc caagggctgg acctgtaccg agcctcgggt 3241 aaatttgagc ttcttgatag aattcttccc aaactccgag caaccaacca caaagtgctg 3301 ctgttctgcc aaatgacctc cctcatgacc atcatggaag attactttgc gtatcgcggc 3361 tttaaatacc tcaggcttga tggaaccacg aaggcggagg accggggcat gctgctgaaa 3421 accttcaacg agcccggctc tgagtacttc atcttcctgc tcagcacccg ggctgggggg 3481 ctcggcctga acctccagtc ggcagacact gtgatcattt ttgacagcga ctggaatcct 3541 caccaggacc tgcaagcgca ggaccgagcc caccgcatcg ggcagcagaa cgaggtgcgt 3601 gtgctccgcc tctgcaccgt caacagcgtg gaggagaaga tcctagctgc agccaagtac 3661 aagctcaacg tggaccagaa ggtgatccag gccggcatgt tcgaccagaa gtcctccagc 3721 catgagcggc gcgccttcct gcaggccatc ctggagcacg aggagcagga tgaggaggaa 3781 gacgaggtgc ccgacgacga gaccgtcaac cagatgatcg cccggcacga ggaggagttt 3841 gatctgttca tgcgcatgga cctggaccgc aggcgcgagg aggcccgcaa ccccaagcgg 3901 aagccgcgcc tcatggagga ggacgagctc ccctcgtgga tcatcaagga cgacgcggag 3961 gtggagcggc tgacctgtga ggaggaggag gagaagatgt tcggccgtgg ctcccgccac 4021 cgcaaggagg tggactacag cgactcactg acggagaagc agtggctcaa ggccatcgag 4081 gagggcacgc tggaggagat cgaagaggag gtccggcaga agaaatcatc acggaagcgc 4141 aagcgagaca gcgacgccgg ctcctccacc ccgaccacca gcacccgcag ccgcgacaag 4201 gacgacgaga gcaagaagca gaagaagcgc gggcggccgc ctgccgagaa actctcccct 4261 aacccaccca acctcaccaa gaagatgaag aagattgtgg atgccgtgat caagtacaag 4321 gacagcagca gtggacgtca gctcagcgag gtcttcatcc agctgccctc gcgaaaggag 4381 ctgcccgagt actacgagct catccgcaag cccgtggact tcaagaagat aaaggagcgc 4441 attcgcaacc acaagtaccg cagcctcaac gacctagaga aggacgtcat gctcctgtgc 4501 cagaacgcac agaccttcaa cctggagggc tccctgatct atgaagactc catcgtcttg 4561 cagtcggtct tcaccagcgt gcggcagaaa atcgagaagg aggatgacag tgaaggcgag 4621 gagagtgagg aggaggaaga gggcgaggag gaaggctccg aatccgaatc tcggtccgtc 4681 aaagtgaaga tcaagcttgg ccggaaggag aaggcacagg accggctgaa gggcggccgg 4741 cggcggccga gccgagggtc ccgagccaag ccggtcgtga gtgacgatga cagtgaggag 4801 gaacaagagg aggaccgctc aggaagtggc agcgaagaag actgagcccc gacattccag 4861 tctcgacccc gagcccctcg ttccagagct gagatggcat aggccttagc agtaacgggt 4921 agcagcagat gtagtttcag acttggagta aaactgtata aacaaaagaa tcttccatat 4981 ttatacagca gagaagctgt aggactgttt gtgactggcc ctgtcctggc atcagtagca 5041 tctgtaacag cattaactgt cttaaagaga gagagagaga attccgaatt ggggaacaca 5101 cgatacctgt ttttcttttc cgttgctggc agtactgttg cgccgcagtt tggagtcact 5161 gtagttaagt gtggatgcat gtgcgtcacc gtccactcct cctactgtat tttattggac 5221 aggtcagact cgccgggggc ccggcgaggg tatgtcagtg tcactggatg tcaaacagta 5281 ataaattaaa ccaacaacaa aacgcacagc caaaaaaaaa SEQ ID NO: 194 Human SMARCA4 Amino Acid Sequence Isoform F (NP_001122320.1) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpiptqg 61 pggypqdnmh qmhkpmesmh ekgmsddpry nqmkgmgmrs gghagmgppp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgadpq algqqnrgpt pfnqnqlhql 181 raqimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt gspggpagpa pmvplhqkqs ritpiqkprg 361 ldpveilqer eyrlqariah riqelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqg kiegerkrrq khqeylnsil 481 qhakdfkeyh rsvtgkiqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanitelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqaaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sqalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvinth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqgnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdeee 1261 devpddetvn qmiarheeef dlfmrmdldr rreearnpkr kprlmeedel pswiikddae 1321 verltceeee ekmfgrgsrh rkevdysdsl tekqwlkaie egtleeieee vrqkkssrkr 1381 krdsdagsst pttstrsrdk ddeskkqkkr grppaeklsp nppnitkkmk kivdavikyk 1441 dssgrqlsev fiqlpsrkel peyyelirkp vdfkkikeri rnhkyrslnd lekdvmllcq 1501 naqtfnlegs liyedsivlq svftsvrqki ekeddsegee seeeeegeee gsesesrsvk 1561 vkiklgrkek aqdrlkggrr rpsrgsrakp vvsdddseee qeedrsgsgs eed SEQ ID NO: 195 Human SMARCA4 cDNA Sequence Variant 7 (NM_001128848.1, CDS: 1-4842) 1 atgtccactc cagacccacc cctgggcgga actcctcggc caggtccttc cccgggccct 61 ggcccttccc ctggagccat gctgggccct agcccgggtc cctcgccggg ctccgcccac 121 agcatgatgg ggcccagccc agggccgccc tcagcaggac accccatccc cacccagggg 181 cctggagggt accctcagga caacatgcac cagatgcaca agcccatgga gtccatgcat 241 gagaagggca tgtcggacga cccgcgctac aaccagatga aaggaatggg gatgcggtca 301 gggggccatg ctgggatggg gcccccgccc agccccatgg accagcactc ccaaggttac 361 ccctcgcccc tgggtggctc tgagcatgcc tctagtccag ttccagccag tggcccgtct 421 tcggggcccc agatgtcttc cgggccagga ggtgccccgc tggatggtgc tgacccccag 481 gccttggggc agcagaaccg gggcccaacc ccatttaacc agaaccagct gcaccagctc 541 agagctcaga tcatggccta caagatgctg gccagggggc agcccctccc cgaccacctg 601 cagatggcgg tgcagggcaa gcggccgatg cccgggatgc agcagcagat gccaacgcta 661 cctccaccct cggtgtccgc aacaggaccc ggccctggcc ctggccctgg ccccggcccg 721 ggtcccggcc cggcacctcc aaattacagc aggcctcatg gtatgggagg gcccaacatg 781 cctcccccag gaccctcggg cgtgcccccc gggatgccag gccagcctcc tggagggcct 841 cccaagccct ggcctgaagg acccatggcg aatgctgctg cccccacgag cacccctcag 901 aagctgattc ccccgcagcc aacgggccgc ccttcccccg cgccccctgc cgtcccaccc 961 gccgcctcgc ccgtgatgcc accgcagacc cagtcccccg ggcagccggc ccagcccgcg 1021 cccatggtgc cactgcacca gaagcagagc cgcatcaccc ccatccagaa gccgcggggc 1081 ctcgaccctg tggagatcct gcaggagcgc gagtacaggc tgcaggctcg catcgcacac 1141 cgaattcagg aacttgaaaa ccttcccggg tccctggccg gggatttgcg aaccaaagcg 1201 accattgagc tcaaggccct caggctgctg aacttccaga ggcagctgcg ccaggaggtg 1261 gtggtgtgca tgcggaggga cacagcgctg gagacagccc tcaatgctaa ggcctacaag 1321 cgcagcaagc gccagtccct gcgcgaggcc cgcatcactg agaagctgga gaagcagcag 1381 aagatcgagc aggagcgcaa gcgccggcag aagcaccagg aatacctcaa tagcattctc 1441 cagcatgcca aggatttcaa ggaatatcac agatccgtca caggcaaaat ccagaagctg 1501 accaaggcag tggccacgta ccatgccaac acggagcggg agcagaagaa agagaacgag 1561 cggatcgaga aggagcgcat gcggaggctc atggctgaag atgaggaggg gtaccgcaag 1621 ctcatcgacc agaagaagga caagcgcctg gcctacctct tgcagcagac agacgagtac 1681 gtggctaacc tcacggagct ggtgcggcag cacaaggctg cccaggtcgc caaggagaaa 1741 aagaagaaaa agaaaaagaa gaaggcagaa aatgcagaag gacagacgcc tgccattggg 1801 ccggatggcg agcctctgga cgagaccagc cagatgagcg acctcccggt gaaggtgatc 1861 cacgtggaga gtgggaagat cctcacaggc acagatgccc ccaaagccgg gcagctggag 1921 gcctggctcg agatgaaccc ggggtatgaa gtagctccga ggtctgatag tgaagaaagt 1981 ggctcagaag aagaggaaga ggaggaggag gaagagcagc cgcaggcagc acagcctccc 2041 accctgcccg tggaggagaa gaagaagatt ccagatccag acagcgatga cgtctctgag 2101 gtggacgcgc ggcacatcat tgagaatgcc aagcaagatg tcgatgatga atatggcgtg 2161 tcccaggccc ttgcacgtgg cctgcagtcc tactatgccg tggcccatgc tgtcactgag 2221 agagtggaca agcagtcagc gcttatggtc aatggtgtcc tcaaacagta ccagatcaaa 2281 ggtttggagt ggctggtgtc cctgtacaac aacaacctga acggcatcct ggccgacgag 2341 atgggcctgg ggaagaccat ccagaccatc gcgctcatca cgtacctcat ggagcacaaa 2401 cgcatcaatg ggcccttcct catcatcgtg cctctctcaa cgctgtccaa ctgggcgtac 2461 gagtttgaca agtgggcccc ctccgtggtg aaggtgtctt acaagggatc cccagcagca 2521 agacgggcct ttgtccccca gctccggagt gggaagttca acgtcttgct gacgacgtac 2581 gagtacatca tcaaagacaa gcacatcctc gccaagatcc gttggaagta catgattgtg 2641 gacgaaggtc accgcatgaa gaaccaccac tgcaagctga cgcaggtgct caacacgcac 2701 tatgtggcac cccgccgcct gctgctgacg ggcacaccgc tgcagaacaa gcttcccgag 2761 ctctgggcgc tgctcaactt cctgctgccc accatcttca agagctgcag caccttcgag 2821 cagtggttta acgcaccctt tgccatgacc ggggaaaagg tggacctgaa tgaggaggaa 2881 accattctca tcatccggcg tctccacaaa gtgctgcggc ccttcttgct ccgacgactc 2941 aagaaggaag tcgaggccca gttgcccgaa aaggtggagt acgtcatcaa gtgcgacatg 3001 tctgcgctgc agcgagtgct ctaccgccac atgcaggcca agggcgtgct gctgactgat 3061 ggctccgaga aggacaagaa gggcaaaggc ggcaccaaga ccctgatgaa caccatcatg 3121 cagctgcgga agatctgcaa ccacccctac atgttccagc acatcgagga gtccttttcc 3181 gagcacttgg ggttcactgg cggcattgtc caagggctgg acctgtaccg agcctcgggt 3241 aaatttgagc ttcttgatag aattcttccc aaactccgag caaccaacca caaagtgctg 3301 ctgttctgcc aaatgacctc cctcatgacc atcatggaag attactttgc gtatcgcggc 3361 tttaaatacc tcaggcttga tggaaccacg aaggcggagg accggggcat gctgctgaaa 3421 accttcaacg agcccggctc tgagtacttc atcttcctgc tcagcacccg ggctgggggg 3481 ctcggcctga acctccagtc ggcagacact gtgatcattt ttgacagcga ctggaatcct 3541 caccaggacc tgcaagcgca ggaccgagcc caccgcatcg ggcagcagaa cgaggtgcgt 3601 gtgctccgcc tctgcaccgt caacagcgtg gaggagaaga tcctagctgc agccaagtac 3661 aagctcaacg tggaccagaa ggtgatccag gccggcatgt tcgaccagaa gtcctccagc 3721 catgagcggc gcgccttcct gcaggccatc ctggagcacg aggagcagga tgaggaggaa 3781 gacgaggtgc ccgacgacga gaccgtcaac cagatgatcg cccggcacga ggaggagttt 3841 gatctgttca tgcgcatgga cctggaccgc aggcgcgagg aggcccgcaa ccccaagcgg 3901 aagccgcgcc tcatggagga ggacgagctc ccctcgtgga tcatcaagga cgacgcggag 3961 gtggagcggc tgacctgtga ggaggaggag gagaagatgt tcggccgtgg ctcccgccac 4021 cgcaaggagg tggactacag cgactcactg acggagaagc agtggctcaa ggccatcgag 4081 gagggcacgc tggaggagat cgaagaggag gtccggcaga agaaatcatc acggaagcgc 4141 aagcgagaca gcgacgccgg ctcctccacc ccgaccacca gcacccgcag ccgcgacaag 4201 gacgacgaga gcaagaagca gaagaagcgc gggcggccgc ctgccgagaa actctcccct 4261 aacccaccca acctcaccaa gaagatgaag aagattgtgg atgccgtgat caagtacaag 4321 gacagcagtg gacgtcagct cagcgaggtc ttcatccagc tgccctcgcg aaaggagctg 4381 cccgagtact acgagctcat ccgcaagccc gtggacttca agaagataaa ggagcgcatt 4441 cgcaaccaca agtaccgcag cctcaacgac ctagagaagg acgtcatgct cctgtgccag 4501 aacgcacaga ccttcaacct ggagggctcc ctgatctatg aagactccat cgtcttgcag 4561 tcggtcttca ccagcgtgcg gcagaaaatc gagaaggagg atgacagtga aggcgaggag 4621 agtgaggagg aggaagaggg cgaggaggaa ggctccgaat ccgaatctcg gtccgtcaaa 4681 gtgaagatca agcttggccg gaaggagaag gcacaggacc ggctgaaggg cggccggcgg 4741 cggccgagcc gagggtcccg agccaagccg gtcgtgagtg acgatgacag tgaggaggaa 4801 caagaggagg accgctcagg aagtggcagc gaagaagact gagccccgac attccagtct 4861 cgaccccgag cccctcgttc cagagctgag atggcatagg ccttagcagt aacgggtagc 4921 agcagatgta gtttcagact tggagtaaaa ctgtataaac aaaagaatct tccatattta 4981 tacagcagag aagctgtagg actgtttgtg actggccctg tcctggcatc agtagcatct 5041 gtaacagcat taactgtctt aaagagagag agagagaatt ccgaattggg gaacacacga 5101 tacctgtttt tcttttccgt tgctggcagt actgttgcgc cgcagtttgg agtcactgta 5161 gttaagtgtg gatgcatgtg cgtcaccgtc cactcctcct actgtatttt attggacagg 5221 tcagactcgc cgggggcccg gcgagggtat gtcagtgtca ctggatgtca aacagtaata 5281 aattaaacca acaacaaaac gcacagccaa aaaaaaa SEQ ID NO: 196 Mouse SMARCA4 cDNA Sequence variant 1 (NM_001174078.1; CDS: 261-5114) 1 ggcaagtgga gcgggtagac agggaggcgg gggcgcgcgg cgggcgcgtg cggtgggggg 61 gggtggcctg gcgaagccca gcgggcgcgc gcgcgaggct ttccca ctcg cttggcagcg 121 gcggagacgg cttctttgtt tcctgaggag aagcgagacg cccactctgt ccccgacccc 181 tcgtggaggg ttgggggcgg cgccaggaag gttacggcgc cgttacctcc aggagaccag 241 tgcctgtagc tccagtaaag atgtctactc cagacccacc cttgggtggg actcctcggc 301 ctggtccttc cccaggccct ggtccttcac ctggtgcaat gctgggtcct agccctggcc 361 cctcaccagg ttctgcccac agcatgatgg ggccaagccc aggacctcct tcagcaggac 421 atcccatgcc cacccagggg cctggagggt acccccagga caacatgcat cagatgcaca 481 agcctatgga gtccatgcac gagaagggca tgcctgatga cccacgatac aaccagatga 541 aagggatggg catgcggtca ggggcccaca caggcatggc acctccacct agtcccatgg 601 accagcattc tcaaggttac ccctcacccc tcggcggctc tgaacatgcc tccagtcctg 661 tcccagccag tggcccatct tcaggccccc agatgtcctc tgggccagga ggggccccac 721 tagatggttc tgatccccag gccttgggac agcaaaacag aggcccaacc ccatttaacc 781 agaaccagct gcatcaactc agagctcaga taatggccta caagatgttg gccaggggcc 841 agccattgcc cgaccacctg cagatggccg tgcaaggcaa gcggccgatg cctggaatgc 901 agcaacagat gccaacacta cctccaccct cagtgtccgc cacaggaccc ggacctggac 961 ccggccctgg ccctggccct ggcccaggac cagcccctcc aaattacagt agaccccatg 1021 gtatgggagg gcccaacatg cctcccccag gaccctcagg tgtgcccccc gggatgcctg 1081 gtcagccgcc tggagggcct cccaagccat ggcctgaagg acccatggcc aatgctgctg 1141 cccccacaag caccccacag aagctgattc ctccgcaacc aacaggccgt ccttcacctg 1201 cacctcctgc tgtcccgcct gctgcctcac ctgtaatgcc accacaaaca cagtccccag 1261 ggcagccagc ccagcctgct ccattggtgc cactgcacca gaagcagagc cgaatcaccc 1321 ccatccagaa gccccgaggc cttgaccctg tggagatcct acaagagcgg gagtacaggc 1381 ttcaggctcg aatcgcacac agaattcagg aacttgaaaa cctccctggg tccctggctg 1441 gggaccttcg aaccaaagca accatcgaac tcaaggccct taggttgctg aacttccaga 1501 ggcagctgcg ccaggaggtg gtggtgtgca tgcgaagaga cacagccctg gagacagccc 1561 tcaatgccaa ggcctacaag cgcagcaaac gtcagtcact acgggaggcc cgcatcactg 1621 agaagttgga gaagcagcag aagattgaac aggagcgcaa gcgccgccag aagcaccagg 1681 agtacctcaa cagcattctg cagcatgcca aggacttcag ggagtatcac agatcagtca 1741 caggcaaact ccagaaactc accaaggctg tggccaccta ccatgccaac actgagcggg 1801 agcagaagaa agaaaatgag cgcattgaga aggagcgaat gcggaggctt atggctgaag 1861 atgaggaggg ctaccgcaaa ctcattgacc agaagaagga caagcgcctg gcctaccttc 1921 tgcagcagac agatgagtat gtggccaacc tcacagagct ggtgcggcag cacaaagctg 1981 cccaggttgc caaggagaag aagaagaaaa agaaaaagaa gaaggcagaa aatgctgaag 2041 gacagacacc tgctattgga ccagatggtg agcctctgga tgagaccagc cagatgagtg 2101 acctccctgt gaaggtgatc cacgtggaga gtggcaagat cctcactggc acagatgccc 2161 caaaagccgg gcagctggaa gcctggcttg aaatgaaccc agggtatgaa gtagccccca 2221 ggtcagacag tgaagaaagt ggctctgaag aggaggagga ggaggaggaa gaggagcagc 2281 ctcagcccgc acagccccct acactgcctg tggaagaaaa gaagaagatt ccagacccag 2341 acagcgatga tgtctctgag gtggacgccc gacacattat tgagaacgcc aagcaagatg 2401 tggacgatga gtacggtgtg tcccaggccc ttgctcgtgg cctgcagtct tactatgctg 2461 tggcccatgc agtcacagag agagtagata agcagtccgc cctcatggtc aacggtgtcc 2521 tcaaacagta ccagatcaag ggtttggagt ggctggtgtc cctgtacaac aacaacctga 2581 atggcatcct ggctgatgag atggggctgg ggaagaccat ccagaccatc gcgctcatca 2641 catacctcat ggagcacaag cgcatcaacg ggcctttcct catcatcgtg cctctctcga 2701 cactgtcaaa ctgggcgtat gaatttgaca agtgggcccc ctctgtggtg aaggtttctt 2761 acaagggctc tccagctgca aggcgagctt ttgtcccaca gcttcgcagt gggaagttca 2821 acgtcttact gaccacctat gaatatatca tcaaagacaa gcatatccta gccaagatcc 2881 gctggaagta catgattgtg gatgaaggcc accgcatgaa aaaccaccac tgcaagttga 2941 cgcaggtcct taacacacac tacgtggccc ctcggcgcct gcttcttaca ggcacaccac 3001 tgcagaacaa gctaccggag ctctgggccc tgcttaactt cctgctcccc actatcttca 3061 agagctgcag caccttcgaa cagtggttca atgcaccctt tgccatgact ggagaaaagg 3121 tggacctgaa tgaagaggag actatcctca ttattcgtcg cctacacaaa gttctgcggc 3181 ccttcctgct gcggcggctc aagaaggaag ttgaagccca gctccctgag aaggtagagt 3241 atgtcatcaa atgcgacatg tcagccctgc agcgtgtgct gtaccgtcac atgcaggcca 3301 aaggtgtgct gctgactgac ggctccgaga aggacaagaa gggcaaaggt ggcaccaaga 3361 cactgatgaa cactattatg caactgcgta agatctgcaa ccacccctac atgttccagc 3421 acatcgagga gtccttttct gagcacttgg ggttcaccgg cggcatcgtg caaggattgg 3481 acctttaccg tgcctcaggg aaatttgaac ttcttgatag aattctaccc aaactccgtg 3541 caacgaacca taaagtgctc ctcttttgcc aaatgacctc cctcatgacc atcatggaag 3601 actactttgc ataccgtggc ttcaaatacc tcaggcttga tggaaccaca aaagcagaag 3661 accggggcat gctgttgaaa acctttaatg aacctggctc tgagtatttc attttcctgc 3721 tcagtacccg tgctgggggg ctgggcctga atctgcagtc agctgacact gtgatcatct 3781 ttgacagtga ctggaatccc caccaggacc tgcaagcaca ggatcgagcc catcgcattg 3841 gacagcagaa tgaggtgcgt gttcttcgcc tgtgcacggt caacagtgtg gaagagaaga 3901 tactggctgc tgccaaatac aaactcaatg tggatcagaa ggtgatccag gcaggcatgt 3961 tcgaccagaa gtcgtccagc catgagaggc gtgccttcct gcaggccatc ctggagcacg 4021 aggagcagga tgaggaggaa gatgaggtgc ctgatgatga gaccgtcaac cagatgattg 4081 cccggcacga agaagagttt gacctcttca tgcgcatgga cttggaccgc cggcgtgaag 4141 aagcccgcaa ccccaagcgg aagccacgcc tgatggaaga ggatgagctc ccatcctgga 4201 tcatcaagga tgatgccgag gtggagcggc tgacatgtga agaggaagag gagaagatgt 4261 tcggccgtgg ttctcgccac cgcaaggagg tagactacag cgactcactg acagagaagc 4321 agtggctcaa gaccctgaag gctatcgagg agggcacgct ggaggagatc gaagaggagg 4381 tccggcagaa gaaatcttca cgtaagcgta agcgagacag cgaggccggc tcctccaccc 4441 cgaccaccag cacccgcagc cgtgacaagg atgaggagag caagaagcag aagaaacgtg 4501 ggcggccacc tgctgagaag ctgtccccaa acccacctaa cctcaccaag aagatgaaga 4561 agatcgtgga tgctgtgatc aagtacaaag acagcagcag tggacgtcag ctcagcgagg 4621 tgttcatcca gctcccctct cgcaaggagc ttcctgagta ctatgagctc atccgaaagc 4681 ctgtggactt caagaagatc aaggaacgca tccgaaacca caagtaccgc agcctcaatg 4741 acctggagaa ggatgtgatg ctgctgtgcc agaacgctca gacgttcaac ctcgagggtt 4801 ccctgatcta tgaggactcc atcgtcctgc agtctgtctt caccagcgta cggcagaaga 4861 ttgagaagga ggacgacagt gaaggcgagg aaagcgagga ggaggaggag ggcgaggagg 4921 aaggctccga gtctgagtcc cgctccgtca aggtgaagat caagctgggc cgcaaggaga 4981 aggcccagga ccgactcaag gggggccgcc ggcggccaag ccggggatcc cgggccaagc 5041 cggttgtgag tgacgatgac agtgaggagg agcaggagga ggaccgctca ggaagtggca 5101 gtgaggaaga ctgaaccaga cattcctgag tcctgacccc gaggcgctcg tcccagccaa 5161 gatggagtag cccttagcag tgatgggtag caccagatgt agtttcgaac ttggagaact 5221 gtacacatgc aatcttccac atttttaggc agagaagtat aggcctgtct gtcggccctg 5281 gcctggcctc gagtctctac cagcattaac tgtctagaga ggggacctcc tgggagcacc 5341 atccacctcc ccaggcccca gtcactgtag ctcagtggat gcatgcgcgt gccggccgct 5401 ccttgtactg tatcttactg gacagggcca gctctccagg aggctcacag gcccagcggg 5461 tatgtcagtg tcactggagt cagacagtaa taaattaaag caatgacaag ccaccactgg 5521 ctccctggac tccttgctgt cagcagtggc tccggggcca cagagaagaa agaaagactt 5581 ttaggaactg ggtctaactt atgggcaaag tacttgcctt gccaggtgta tgggttttgc 5641 attcccatca cccacacacc ctaaacaagc caagtcagtg agcttcaagt tagagcctcc 5701 acctcaatgt gtacgtggaa agcaatcaaa gatgatgcct agcatccacc tctggccctc 5761 atgtgcagat gtacacacac tgaattacat acacgggaca cacacatcca cacggaggca 5821 gtccatgact tgcactgggg agatggtacc ataggcgaaa gtgccacagg cacagggcca 5881 ggctaattta gtcctgcagt cctgtgctct taagatgaag gcacaaagag gaaccccagg 5941 cgctccaact agcatgccag gcagtgacaa gaccctgctt caaatgaatc agagcccaca 6001 ttcagtattg ccctcttacc cgatgcgatg cccatgccct cacatatgaa tgtgtatata 6061 tacatacata cgtaaaataa ttctttttta aattatagac atttttgtgt gaatgttttg 6121 cctgaatgtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tatcaagtac 6181 attcctagag cctacagagg tcaagggagg gcattggatc tggaactgga gtcacatgag 6241 gctgtgagca actgtgtggg ttcctgggcc tttgcaacag cagttagtac tcttcaccac 6301 tgagccattt ctccaatctc aaaaagaagc attcttttaa atgaagactg aaataaataa 6361 gtaggacttg ccttgg SEQ ID NO: 197 Mouse SMARCA4 Amino Acid Sequence isoform 1 (NP_001167549.1) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpmptqg 61 pggypqdnmh qmhkpmesmh ekgmpddpry nqmkgmgmrs gahtgmappp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgsdpq algqqnrgpt pfnqnqlhql 181 raqimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt gspggpagpa plvplhqkqs ritpiqkprg 361 ldpveilqer eyrlqariah rigelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqq kieqerkrrq khqeylnsil 481 qhakdfreyh rsvtgklqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanltelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqpaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sqalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvlnth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqgnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdeee 1261 devpddetvn qmiarheeef dlfmrmdldr rreearnpkr kprlmeedel pswiikddae 1321 verltceeee ekmfgrgsrh rkevdysdsl tekqwlktlk aieegtleei eeevrqkkss 1381 rkrkrdseag sstpttstrs rdkdeeskkq kkrgrppaek lspnppnitk kmkkivdavi 1441 kykdsssgrq lsevfiqlps rkelpeyyel irkpvdfkki kerirnhkyr slndlekdvm 1501 llcqnaqtfn legsliyeds ivlqsvftsv rqkiekedds egeeseeeee geeegseses 1561 rsvkvkiklg rkekaqdrlk ggrrrpsrgs rakpvvsddd seeeqeedrs gsgseed SEQ ID NO: 198 Mouse SMARCA4 cDNA Sequence variant 2 (NM_011417.3) 1 ggcaagtgga gcgggtagac agggaggcgg gggcgcgcgg cgggcgcgtg cggtgggggg 61 gggtggcctg gcgaagccca gcgggcgcgc gcgcgaggct ttcccactcg cttggcagcg 121 gcggagacgg cttctttgtt tcctgaggag aagcgagacg cccactctgt ccccgacccc 181 tcgtggaggg ttgggggcgg cgccaggaag gttacggcgc cgttacctcc aggagaccag 241 tgcctgtagc tccagtaaag atgtctactc cagacccacc cttgggtggg actcctcggc 301 ctggtccttc cccaggccct ggtccttcac ctggtgcaat gctgggtcct agccctggcc 361 cctcaccagg ttctgcccac agcatgatgg ggccaagccc aggacctcct tcagcaggac 421 atcccatgcc cacccagggg cctggagggt acccccagga caacatgcat cagatgcaca 481 agcctatgga gtccatgcac gagaagggca tgcctgatga cccacgatac aaccagatga 541 aagggatggg catgcggtca ggggcccaca caggcatggc acctccacct agtcccatgg 601 accagcattc tcaaggttac ccctcacccc tcggcggctc tgaacatgcc tccagtcctg 661 tcccagccag tggcccatct tcaggccccc agatgtcctc tgggccagga ggggccccac 721 tagatggttc tgatccccag gccttgggac agcaaaacag aggcccaacc ccatttaacc 781 agaaccagct gcatcaactc agagctcaga taatggccta caagatgttg gccaggggcc 841 agccattgcc cgaccacctg cagatggccg tgcaaggcaa gcggccgatg cctggaatgc 901 agcaacagat gccaacacta cctccaccct cagtgtccgc cacaggaccc ggacctggac 961 ccggccctgg ccctggccct ggcccaggac cagcccctcc aaattacagt agaccccatg 1021 gtatgggagg gcccaacatg cctcccccag gaccctcagg tgtgcccccc gggatgcctg 1081 gtcagccgcc tggagggcct cccaagccat ggcctgaagg acccatggcc aatgctgctg 1141 cccccacaag caccccacag aagctgattc ctccgcaacc aacaggccgt ccttcacctg 1201 cacctcctgc tgtcccgcct gctgcctcac ctgtaatgcc accacaaaca cagtccccag 1261 ggcagccagc ccagcctgct ccattggtgc cactgcacca gaagcagagc cgaatcaccc 1321 ccatccagaa gccccgaggc cttgaccctg tggagatcct acaagagcgg gagtacaggc 1381 ttcaggctcg aatcgcacac agaattcagg aacttgaaaa cctccctggg tccctggctg 1441 gggaccttcg aaccaaagca accatcgaac tcaaggccct taggttgctg aacttccaga 1501 ggcagctgcg ccaggaggtg gtggtgtgca tgcgaagaga cacagccctg gagacagccc 1561 tcaatgccaa ggcctacaag cgcagcaaac gtcagtcact acgggaggcc cgcatcactg 1621 agaagttgga gaagcagcag aagattgaac aggagcgcaa gcgccgccag aagcaccagg 1681 agtacctcaa cagcattctg cagcatgcca aggacttcag ggagtatcac agatcagtca 1741 caggcaaact ccagaaactc accaaggctg tggccaccta ccatgccaac actgagcggg 1801 agcagaagaa agaaaatgag cgcattgaga aggagcgaat gcggaggctt atggctgaag 1861 atgaggaggg ctaccgcaaa ctcattgacc agaagaagga caagcgcctg gcctaccttc 1921 tgcagcagac agatgagtat gtggccaacc tcacagagct ggtgcggcag cacaaagctg 1981 cccaggttgc caaggagaag aagaagaaaa agaaaaagaa gaaggcagaa aatgctgaag 2041 gacagacacc tgctattgga ccagatggtg agcctctgga tgagaccagc cagatgagtg 2101 acctccctgt gaaggtgatc cacgtggaga gtggcaagat cctcactggc acagatgccc 2161 caaaagccgg gcagctggaa gcctggcttg aaatgaaccc agggtatgaa gtagccccca 2221 ggtcagacag tgaagaaagt ggctctgaag aggaggagga ggaggaggaa gaggagcagc 2281 ctcagcccgc acagccccct acactgcctg tggaagaaaa gaagaagatt ccagacccag 2341 acagcgatga tgtctctgag gtggacgccc gacacattat tgagaacgcc aagcaagatg 2401 tggacgatga gtacggtgtg tcccaggccc ttgctcgtgg cctgcagtct tactatgctg 2461 tggcccatgc agtcacagag agagtagata agcagtccgc cctcatggtc aacggtgtcc 2521 tcaaacagta ccagatcaag ggtttggagt ggctggtgtc cctgtacaac aacaacctga 2581 atggcatcct ggctgatgag atggggctgg ggaagaccat ccagaccatc gcgctcatca 2641 catacctcat ggagcacaag cgcatcaacg ggcctttcct catcatcgtg cctctctcga 2701 cactgtcaaa ctgggcgtat gaatttgaca agtgggcccc ctctgtggtg aaggtttctt 2761 acaagggctc tccagctgca aggcgagctt ttgtcccaca gcttcgcagt gggaagttca 2821 acgtcttact gaccacctat gaatatatca tcaaagacaa gcatatccta gccaagatcc 2881 gctggaagta catgattgtg gatgaaggcc accgcatgaa aaaccaccac tgcaagttga 2941 cgcaggtcct taacacacac tacgtggccc ctcggcgcct gcttcttaca ggcacaccac 3001 tgcagaacaa gctaccggag ctctgggccc tgcttaactt cctgctcccc actatcttca 3061 agagctgcag caccttcgaa cagtggttca atgcaccctt tgccatgact ggagaaaagg 3121 tggacctgaa tgaagaggag actatcctca ttattcgtcg cctacacaaa gttctgcggc 3181 ccttcctgct gcggcggctc aagaaggaag ttgaagccca gctccctgag aaggtagagt 3241 atgtcatcaa atgcgacatg tcagccctgc agcgtgtgct gtaccgtcac atgcaggcca 3301 aaggtgtgct gctgactgac ggctccgaga aggacaagaa gggcaaaggt ggcaccaaga 3361 cactgatgaa cactattatg caactgcgta agatctgcaa ccacccctac atgttccagc 3421 acatcgagga gtccttttct gagcacttgg ggttcaccgg cggcatcgtg caaggattgg 3481 acctttaccg tgcctcaggg aaatttgaac ttcttgatag aattctaccc aaactccgtg 3541 caacgaacca taaagtgctc ctcttttgcc aaatgacctc cctcatgacc atcatggaag 3601 actactttgc ataccgtggc ttcaaatacc tcaggcttga tggaaccaca aaagcagaag 3661 accggggcat gctgttgaaa acctttaatg aacctggctc tgagtatttc attttcctgc 3721 tcagtacccg tgctgggggg ctgggcctga atctgcagtc agctgacact gtgatcatct 3781 ttgacagtga ctggaatccc caccaggacc tgcaagcaca ggatcgagcc catcgcattg 3841 gacagcagaa tgaggtgcgt gttcttcgcc tgtgcacggt caacagtgtg gaagagaaga 3901 tactggctgc tgccaaatac aaactcaatg tggatcagaa ggtgatccag gcaggcatgt 3961 tcgaccagaa gtcgtccagc catgagaggc gtgccttcct gcaggccatc ctggagcacg 4021 aggagcagga tgaggaggaa gatgaggtgc ctgatgatga gaccgtcaac cagatgattg 4081 cccggcacga agaagagttt gacctcttca tgcgcatgga cttggaccgc cggcgtgaag 4141 aagcccgcaa ccccaagcgg aagccacgcc tgatggaaga ggatgagctc ccatcctgga 4201 tcatcaagga tgatgccgag gtggagcggc tgacatgtga agaggaagag gagaagatgt 4261 tcggccgtgg ttctcgccac cgcaaggagg tagactacag cgactcactg acagagaagc 4321 agtggctcaa ggctatcgag gagggcacgc tggaggagat cgaagaggag gtccggcaga 4381 agaaatcttc acgtaagcgt aagcgagaca gcgaggccgg ctcctccacc ccgaccacca 4441 gcacccgcag ccgtgacaag gatgaggaga gcaagaagca gaagaaacgt gggcggccac 4501 ctgctgagaa gctgtcccca aacccaccta acctcaccaa gaagatgaag aagatcgtgg 4561 atgctgtgat caagtacaaa gacagcagca gtggacgtca gctcagcgag gtgttcatcc 4621 agctcccctc tcgcaaggag cttcctgagt actatgagct catccgaaag cctgtggact 4681 tcaagaagat caaggaacgc atccgaaacc acaagtaccg cagcctcaat gacctggaga 4741 aggatgtgat gctgctgtgc cagaacgctc agacgttcaa cctcgagggt tccctgatct 4801 atgaggactc catcgtcctg cagtctgtct tcaccagcgt acggcagaag attgagaagg 4861 aggacgacag tgaaggcgag gaaagcgagg aggaggagga gggcgaggag gaaggctccg 4921 agtctgagtc ccgctccgtc aaggtgaaga tcaagctggg ccgcaaggag aaggcccagg 4981 accgactcaa ggggggccgc cggcggccaa gccggggatc ccgggccaag ccggttgtga 5041 gtgacgatga cagtgaggag gagcaggagg aggaccgctc aggaagtggc agtgaggaag 5101 actgaaccag acattcctga gtcctgaccc cgaggcgctc gtcccagcca agatggagta 5161 gcccttagca gtgatgggta gcaccagatg tagtttcgaa cttggagaac tgtacacatg 5221 caatcttcca catttttagg cagagaagta taggcctgtc tgtcggccct ggcctggcct 5281 cgagtctcta ccagcattaa ctgtctagag aggggacctc ctgggagcac catccacctc 5341 cccaggcccc agtcactgta gctcagtgga tgcatgcgcg tgccggccgc tccttgtact 5401 gtatcttact ggacagggcc agctctccag gaggctcaca ggcccagcgg gtatgtcagt 5461 gtcactggag tcagacagta ataaattaaa gcaatgacaa gccaccactg gctccctgga 5521 ctccttgctg tcagcagtgg ctccggggcc acagagaaga aagaaagact tttaggaact 5581 gggtctaact tatgggcaaa gtacttgcct tgccaggtgt atgggttttg cattcccatc 5641 acccacacac cctaaacaag ccaagtcagt gagcttcaag ttagagcctc cacctcaatg 5701 tgtacgtgga aagcaatcaa agatgatgcc tagcatccac ctctggccct catgtgcaga 5761 tgtacacaca ctgaattaca tacacgggac acacacatcc acacggaggc agtccatgac 5821 ttgcactggg gagatggtac cataggcgaa agtgccacag gcacagggcc aggctaattt 5881 agtcctgcag tcctgtgctc ttaagatgaa ggcacaaaga ggaaccccag gcgctccaac 5941 tagcatgcca ggcagtgaca agaccctgct tcaaatgaat cagagcccac attcagtatt 6001 gccctcttac ccgatgcgat gcccatgccc tcacatatga atgtgtatat atacatacat 6061 acgtaaaata attctttttt aaattataga catttttgtg tgaatgtttt gcctgaatgt 6121 gtgtgtgtgt gtgtgtgtgt gtgtgtgtgt gtgtgtgtgt gtatcaagta cattcctaga 6181 gcctacagag gtcaagggag ggcattggat ctggaactgg agtcacatga ggctgtgagc 6241 aactgtgtgg gttcctgggc ctttgcaaca gcagttagta ctcttcacca ctgagccatt 6301 tctccaatct caaaaagaag cattctttta aatgaagact gaaataaata agtaggactt 6361 gccttgg SEQ ID NO: 199 Mouse SMARCA4 Amino Acid Sequence isoform 2 (NP_035547.2) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpmptqg 61 pggypqdnmh qmhkpmesmh ekgmpddpry nqmkgmgmrs gahtgmappp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgsdpq algqqnrgpt pfnqnqlhql 181 raqimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt qspgqpaqpa plvplhqkqs ritpiqkprg 361 ldpveilger eyrlgariah riqelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqg kieqerkrrq khqeylnsil 481 qhakdfreyh rsvtgklqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanitelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqpaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sgalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvinth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqgnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdeee 1261 devpddetvn qmiarheeef dlfmrmdldr rreearnpkr kprlmeedel pswiikddae 1321 verltceeee ekmfgrgsrh rkevdysdsl tekqwlkaie egtleeieee vrqkkssrkr 1381 krdseagsst pttstrsrdk deeskkqkkr grppaeklsp nppnitkkmk kivdavikyk 1441 dsssgrqlse vfiqlpsrke lpeyyelirk pvdfkkiker irnhkyrsln dlekdvmllc 1501 gnagtfnleg sliyedsivl qsvftsvrqk iekeddsege eseeeeegee egsesesrsv 1561 kvkiklgrke kaqdrlkggr rrpsrgsrak pvvsdddsee eqeedrsgsg seed SEQ ID NO: 200 Mouse SMARCA4 cDNA Sequence variant 3 (NM_001174079.1; CDS: 261-5102) 1 ggcaagtgga gcgggtagac agggaggcgg gggcgcgcgg cgggcgcgtg cggtgggggg 61 gggtggcctg gcgaagccca gcgggcgcgc gcgcgaggct ttcccactcg cttggcagcg 121 gcggagacgg cttctttgtt tcctgaggag aagcgagacg cccactctgt ccccgacccc 181 tcgtggaggg ttgggggcgg cgccaggaag gttacggcgc cgttacctcc aggagaccag 241 tgcctgtagc tccagtaaag atgtctactc cagacccacc cttgggtggg actcctcggc 301 ctggtccttc cccaggccct ggtccttcac ctggtgcaat gctgggtcct agccctggcc 361 cctcaccagg ttctgcccac agcatgatgg ggccaagccc aggacctcct tcagcaggac 421 atcccatgcc cacccagggg cctggagggt acccccagga caacatgcat cagatgcaca 481 agcctatgga gtccatgcac gagaagggca tgcctgatga cccacgatac aaccagatga 541 aagggatggg catgcggtca ggggcccaca caggcatggc acctccacct agtcccatgg 601 accagcattc tcaaggttac ccctcacccc tcggcggctc tgaacatgcc tccagtcctg 661 tcccagccag tggcccatct tcaggccccc agatgtcctc tgggccagga ggggccccac 721 tagatggttc tgatccccag gccttgggac agcaaaacag aggcccaacc ccatttaacc 781 agaaccagct gcatcaactc agagctcaga taatggccta caagatgttg gccaggggcc 841 agccattgcc cgaccacctg cagatggccg tgcaaggcaa gcggccgatg cctggaatgc 901 agcaacagat gccaacacta cctccaccct cagtgtccgc cacaggaccc ggacctggac 961 ccggccctgg ccctggccct ggcccaggac cagcccctcc aaattacagt agaccccatg 1021 gtatgggagg gcccaacatg cctcccccag gaccctcagg tgtgcccccc gggatgcctg 1081 gtcagccgcc tggagggcct cccaagccat ggcctgaagg acccatggcc aatgctgctg 1141 cccccacaag caccccacag aagctgattc ctccgcaacc aacaggccgt ccttcacctg 1201 cacctcctgc tgtcccgcct gctgcctcac ctgtaatgcc accacaaaca cagtccccag 1261 ggcagccagc ccagcctgct ccattggtgc cactgcacca gaagcagagc cgaatcaccc 1321 ccatccagaa gccccgaggc cttgaccctg tggagatcct acaagagcgg gagtacaggc 1381 ttcaggctcg aatcgcacac agaattcagg aacttgaaaa cctccctggg tccctggctg 1441 gggaccttcg aaccaaagca accatcgaac tcaaggccct taggttgctg aacttccaga 1501 ggcagctgcg ccaggaggtg gtggtgtgca tgcgaagaga cacagccctg gagacagccc 1561 tcaatgccaa ggcctacaag cgcagcaaac gtcagtcact acgggaggcc cgcatcactg 1621 agaagttgga gaagcagcag aagattgaac aggagcgcaa gcgccgccag aagcaccagg 1681 agtacctcaa cagcattctg cagcatgcca aggacttcag ggagtatcac agatcagtca 1741 caggcaaact ccagaaactc accaaggctg tggccaccta ccatgccaac actgagcggg 1801 agcagaagaa agaaaatgag cgcattgaga aggagcgaat gcggaggctt atggctgaag 1861 atgaggaggg ctaccgcaaa ctcattgacc agaagaagga caagcgcctg gcctaccttc 1921 tgcagcagac agatgagtat gtggccaacc tcacagagct ggtgcggcag cacaaagctg 1981 cccaggttgc caaggagaag aagaagaaaa agaaaaagaa gaaggcagaa aatgctgaag 2041 gacagacacc tgctattgga ccagatggtg agcctctgga tgagaccagc cagatgagtg 2101 acctccctgt gaaggtgatc cacgtggaga gtggcaagat cctcactggc acagatgccc 2161 caaaagccgg gcagctggaa gcctggcttg aaatgaaccc agggtatgaa gtagccccca 2221 ggtcagacag tgaagaaagt ggctctgaag aggaggagga ggaggaggaa gaggagcagc 2281 ctcagcccgc acagccccct acactgcctg tggaagaaaa gaagaagatt ccagacccag 2341 acagcgatga tgtctctgag gtggacgccc gacacattat tgagaacgcc aagcaagatg 2401 tggacgatga gtacggtgtg tcccaggccc ttgctcgtgg cctgcagtct tactatgctg 2461 tggcccatgc agtcacagag agagtagata agcagtccgc cctcatggtc aacggtgtcc 2521 tcaaacagta ccagatcaag ggtttggagt ggctggtgtc cctgtacaac aacaacctga 2581 atggcatcct ggctgatgag atggggctgg ggaagaccat ccagaccatc gcgctcatca 2641 catacctcat ggagcacaag cgcatcaacg ggcctttcct catcatcgtg cctctctcga 2701 cactgtcaaa ctgggcgtat gaatttgaca agtgggcccc ctctgtggtg aaggtttctt 2761 acaagggctc tccagctgca aggcgagctt ttgtcccaca gcttcgcagt gggaagttca 2821 acgtcttact gaccacctat gaatatatca tcaaagacaa gcatatccta gccaagatcc 2881 gctggaagta catgattgtg gatgaaggcc accgcatgaa aaaccaccac tgcaagttga 2941 cgcaggtcct taacacacac tacgtggccc ctcggcgcct gcttcttaca ggcacaccac 3001 tgcagaacaa gctaccggag ctctgggccc tgcttaactt cctgctcccc actatcttca 3061 agagctgcag caccttcgaa cagtggttca atgcaccctt tgccatgact ggagaaaagg 3121 tggacctgaa tgaagaggag actatcctca ttattcgtcg cctacacaaa gttctgcggc 3181 ccttcctgct gcggcggctc aagaaggaag ttgaagccca gctccctgag aaggtagagt 3241 atgtcatcaa atgcgacatg tcagccctgc agcgtgtgct gtaccgtcac atgcaggcca 3301 aaggtgtgct gctgactgac ggctccgaga aggacaagaa gggcaaaggt ggcaccaaga 3361 cactgatgaa cactattatg caactgcgta agatctgcaa ccacccctac atgttccagc 3421 acatcgagga gtccttttct gagcacttgg ggttcaccgg cggcatcgtg caaggattgg 3481 acctttaccg tgcctcaggg aaatttgaac ttcttgatag aattctaccc aaactccgtg 3541 caacgaacca taaagtgctc ctcttttgcc aaatgacctc cctcatgacc atcatggaag 3601 actactttgc ataccgtggc ttcaaatacc tcaggcttga tggaaccaca aaagcagaag 3661 accggggcat gctgttgaaa acctttaatg aacctggctc tgagtatttc attttcctgc 3721 tcagtacccg tgctgggggg ctgggcctga atctgcagtc agctgacact gtgatcatct 3781 ttgacagtga ctggaatccc caccaggacc tgcaagcaca ggatcgagcc catcgcattg 3841 gacagcagaa tgaggtgcgt gttcttcgcc tgtgcacggt caacagtgtg gaagagaaga 3901 tactggctgc tgccaaatac aaactcaatg tggatcagaa ggtgatccag gcaggcatgt 3961 tcgaccagaa gtcgtccagc catgagaggc gtgccttcct gcaggccatc ctggagcacg 4021 aggagcagga tgaggaggaa gatgaggtgc ctgatgatga gaccgtcaac cagatgattg 4081 cccggcacga agaagagttt gacctcttca tgcgcatgga cttggaccgc cggcgtgaag 4141 aagcccgcaa ccccaagcgg aagccacgcc tgatggaaga ggatgagctc ccatcctgga 4201 tcatcaagga tgatgccgag gtggagcggc tgacatgtga agaggaagag gagaagatgt 4261 tcggccgtgg ttctcgccac cgcaaggagg tagactacag cgactcactg acagagaagc 4321 agtggctcaa ggctatcgag gagggcacgc tggaggagat cgaagaggag gtccggcaga 4381 agaaatcttc acgtaagcgt aagcgagaca gcgaggccgg ctcctccacc ccgaccacca 4441 gcacccgcag ccgtgacaag gatgaggaga gcaagaagca gaagaaacgt gggcggccac 4501 ctgctgagaa gctgtcccca aacccaccta acctcaccaa gaagatgaag aagatcgtgg 4561 atgctgtgat caagtacaaa gacagcagtg gacgtcagct cagcgaggtg ttcatccagc 4621 tcccctctcg caaggagctt cctgagtact atgagctcat ccgaaagcct gtggacttca 4681 agaagatcaa ggaacgcatc cgaaaccaca agtaccgcag cctcaatgac ctggagaagg 4741 atgtgatgct gctgtgccag aacgctcaga cgttcaacct cgagggttcc ctgatctatg 4801 aggactccat cgtcctgcag tctgtcttca ccagcgtacg gcagaagatt gagaaggagg 4861 acgacagtga aggcgaggaa agcgaggagg aggaggaggg cgaggaggaa ggctccgagt 4921 ctgagtcccg ctccgtcaag gtgaagatca agctgggccg caaggagaag gcccaggacc 4981 gactcaaggg gggccgccgg cggccaagcc ggggatcccg ggccaagccg gttgtgagtg 5041 acgatgacag tgaggaggag caggaggagg accgctcagg aagtggcagt gaggaagact 5101 gaaccagaca ttcctgagtc ctgaccccga ggcgctcgtc ccagccaaga tggagtagcc 5161 cttagcagtg atgggtagca ccagatgtag tttcgaactt ggagaactgt acacatgcaa 5221 tcttccacat ttttaggcag agaagtatag gcctgtctgt cggccctggc ctggcctcga 5281 gtctctacca gcattaactg tctagagagg ggacctcctg ggagcaccat ccacctcccc 5341 aggccccagt cactgtagct cagtggatgc atgcgcgtgc cggccgctcc ttgtactgta 5401 tcttactgga cagggccagc tctccaggag gctcacaggc ccagcgggta tgtcagtgtc 5461 actggagtca gacagtaata aattaaagca atgacaagcc accactggct ccctggactc 5521 cttgctgtca gcagtggctc cggggccaca gagaagaaag aaagactttt aggaactggg 5581 tctaacttat gggcaaagta cttgccttgc caggtgtatg ggttttgcat tcccatcacc 5641 cacacaccct aaacaagcca agtcagtgag cttcaagtta gagcctccac ctcaatgtgt 5701 acgtggaaag caatcaaaga tgatgcctag catccacctc tggccctcat gtgcagatgt 5761 acacacactg aattacatac acgggacaca cacatccaca cggaggcagt ccatgacttg 5821 cactggggag atggtaccat aggcgaaagt gccacaggca cagggccagg ctaatttagt 5881 cctgcagtcc tgtgctctta agatgaaggc acaaagagga accccaggcg ctccaactag 5941 catgccaggc agtgacaaga ccctgcttca aatgaatcag agcccacatt cagtattgcc 6001 ctcttacccg atgcgatgcc catgccctca catatgaatg tgtatatata catacatacg 6061 taaaataatt cttttttaaa ttatagacat ttttgtgtga atgttttgcc tgaatgtgtg 6121 tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgta tcaagtacat tcctagagcc 6181 tacagaggtc aagggagggc attggatctg gaactggagt cacatgaggc tgtgagcaac 6241 tgtgtgggtt cctgggcctt tgcaacagca gttagtactc ttcaccactg agccatttct 6301 ccaatctcaa aaagaagcat tcttttaaat gaagactgaa ataaataagt aggacttgcc 6361 ttgg SEQ ID NO: 201 Mouse SMARCA4 Amino Acid Sequence isoform 3 (NP_001167550.1) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpmptqg 61 pggypqdnmh qmhkpmesmh ekgmpddpry nqmkgmgmrs gahtgmappp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgsdpq algqqnrgpt pfnqnqlhql 181 raqimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt gspggpagpa plvplhqkqs ritpiqkprg 361 ldpveilqer eyrlgariah rigelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqg kiegerkrrq khqeylnsil 481 qhakdfreyh rsvtgklqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanitelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqpaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sqalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvinth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqgnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdeee 1261 devpddetvn qmiarheeef dlfmrmdldr rreearnpkr kprlmeedel pswiikddae 1321 verltceeee ekmfgrgsrh rkevdysdsl tekqwlkaie egtleeieee vrqkkssrkr 1381 krdseagsst pttstrsrdk deeskkqkkr grppaeklsp nppnitkkmk kivdavikyk 1441 dssgrqlsev fiqlpsrkel peyyelirkp vdfkkikeri rnhkyrslnd lekdvmllcq 1501 naqtfnlegs liyedsivlq svftsvrqki ekeddsegee seeeeegeee gsesesrsvk 1561 vkiklgrkek aqdrlkggrr rpsrgsrakp vvsdddseee qeedrsgsgs eed SEQ ID NO: 202 Mouse SMARCA4 cDNA Sequence variant 4 (NM_001357764.1; CDS: 261-5204) 1 ggcaagtgga gcgggtagac agggaggcgg gggcgcgcgg cgggcgcgtg cggtgggggg 61 gggtggcctg gcgaagccca gcgggcgcgc gcgcgaggct ttcccactcg cttggcagcg 121 gcggagacgg cttctttgtt tcctgaggag aagcgagacg cccactctgt ccccgacccc 181 tcgtggaggg ttgggggcgg cgccaggaag gttacggcgc cgttacctcc aggagaccag 241 tgcctgtagc tccagtaaag atgtctactc cagacccacc cttgggtggg actcctcggc 301 ctggtccttc cccaggccct ggtccttcac ctggtgcaat gctgggtcct agccctggcc 361 cctcaccagg ttctgcccac agcatgatgg ggccaagccc aggacctcct tcagcaggac 421 atcccatgcc cacccagggg cctggagggt acccccagga caacatgcat cagatgcaca 481 agcctatgga gtccatgcac gagaagggca tgcctgatga cccacgatac aaccagatga 541 aagggatggg catgcggtca ggggcccaca caggcatggc acctccacct agtcccatgg 601 accagcattc tcaaggttac ccctcacccc tcggcggctc tgaacatgcc tccagtcctg 661 tcccagccag tggcccatct tcaggccccc agatgtcctc tgggccagga ggggccccac 721 tagatggttc tgatccccag gccttgggac agcaaaacag aggcccaacc ccatttaacc 781 agaaccagct gcatcaactc agagctcaga taatggccta caagatgttg gccaggggcc 841 agccattgcc cgaccacctg cagatggccg tgcaaggcaa gcggccgatg cctggaatgc 901 agcaacagat gccaacacta cctccaccct cagtgtccgc cacaggaccc ggacctggac 961 ccggccctgg ccctggccct ggcccaggac cagcccctcc aaattacagt agaccccatg 1021 gtatgggagg gcccaacatg cctcccccag gaccctcagg tgtgcccccc gggatgcctg 1081 gtcagccgcc tggagggcct cccaagccat ggcctgaagg acccatggcc aatgctgctg 1141 cccccacaag caccccacag aagctgattc ctccgcaacc aacaggccgt ccttcacctg 1201 cacctcctgc tgtcccgcct gctgcctcac ctgtaatgcc accacaaaca cagtccccag 1261 ggcagccagc ccagcctgct ccattggtgc cactgcacca gaagcagagc cgaatcaccc 1321 ccatccagaa gccccgaggc cttgaccctg tggagatcct acaagagcgg gagtacaggc 1381 ttcaggctcg aatcgcacac agaattcagg aacttgaaaa cctccctggg tccctggctg 1441 gggaccttcg aaccaaagca accatcgaac tcaaggccct taggttgctg aacttccaga 1501 ggcagctgcg ccaggaggtg gtggtgtgca tgcgaagaga cacagccctg gagacagccc 1561 tcaatgccaa ggcctacaag cgcagcaaac gtcagtcact acgggaggcc cgcatcactg 1621 agaagttgga gaagcagcag aagattgaac aggagcgcaa gcgccgccag aagcaccagg 1681 agtacctcaa cagcattctg cagcatgcca aggacttcag ggagtatcac agatcagtca 1741 caggcaaact ccagaaactc accaaggctg tggccaccta ccatgccaac actgagcggg 1801 agcagaagaa agaaaatgag cgcattgaga aggagcgaat gcggaggctt atggctgaag 1861 atgaggaggg ctaccgcaaa ctcattgacc agaagaagga caagcgcctg gcctaccttc 1921 tgcagcagac agatgagtat gtggccaacc tcacagagct ggtgcggcag cacaaagctg 1981 cccaggttgc caaggagaag aagaagaaaa agaaaaagaa gaaggcagaa aatgctgaag 2041 gacagacacc tgctattgga ccagatggtg agcctctgga tgagaccagc cagatgagtg 2101 acctccctgt gaaggtgatc cacgtggaga gtggcaagat cctcactggc acagatgccc 2161 caaaagccgg gcagctggaa gcctggcttg aaatgaaccc agggtatgaa gtagccccca 2221 ggtcagacag tgaagaaagt ggctctgaag aggaggagga ggaggaggaa gaggagcagc 2281 ctcagcccgc acagccccct acactgcctg tggaagaaaa gaagaagatt ccagacccag 2341 acagcgatga tgtctctgag gtggacgccc gacacattat tgagaacgcc aagcaagatg 2401 tggacgatga gtacggtgtg tcccaggccc ttgctcgtgg cctgcagtct tactatgctg 2461 tggcccatgc agtcacagag agagtagata agcagtccgc cctcatggtc aacggtgtcc 2521 tcaaacagta ccagatcaag ggtttggagt ggctggtgtc cctgtacaac aacaacctga 2581 atggcatcct ggctgatgag atggggctgg ggaagaccat ccagaccatc gcgctcatca 2641 catacctcat ggagcacaag cgcatcaacg ggcctttcct catcatcgtg cctctctcga 2701 cactgtcaaa ctgggcgtat gaatttgaca agtgggcccc ctctgtggtg aaggtttctt 2761 acaagggctc tccagctgca aggcgagctt ttgtcccaca gcttcgcagt gggaagttca 2821 acgtcttact gaccacctat gaatatatca tcaaagacaa gcatatccta gccaagatcc 2881 gctggaagta catgattgtg gatgaaggcc accgcatgaa aaaccaccac tgcaagttga 2941 cgcaggtcct taacacacac tacgtggccc ctcggcgcct gcttcttaca ggcacaccac 3001 tgcagaacaa gctaccggag ctctgggccc tgcttaactt cctgctcccc actatcttca 3061 agagctgcag caccttcgaa cagtggttca atgcaccctt tgccatgact ggagaaaagg 3121 tggacctgaa tgaagaggag actatcctca ttattcgtcg cctacacaaa gttctgcggc 3181 ccttcctgct gcggcggctc aagaaggaag ttgaagccca gctccctgag aaggtagagt 3241 atgtcatcaa atgcgacatg tcagccctgc agcgtgtgct gtaccgtcac atgcaggcca 3301 aaggtgtgct gctgactgac ggctccgaga aggacaagaa gggcaaaggt ggcaccaaga 3361 cactgatgaa cactattatg caactgcgta agatctgcaa ccacccctac atgttccagc 3421 acatcgagga gtccttttct gagcacttgg ggttcaccgg cggcatcgtg caaggattgg 3481 acctttaccg tgcctcaggg aaatttgaac ttcttgatag aattctaccc aaactccgtg 3541 caacgaacca taaagtgctc ctcttttgcc aaatgacctc cctcatgacc atcatggaag 3601 actactttgc ataccgtggc ttcaaatacc tcaggcttga tggaaccaca aaagcagaag 3661 accggggcat gctgttgaaa acctttaatg aacctggctc tgagtatttc attttcctgc 3721 tcagtacccg tgctgggggg ctgggcctga atctgcagtc agctgacact gtgatcatct 3781 ttgacagtga ctggaatccc caccaggacc tgcaagcaca ggatcgagcc catcgcattg 3841 gacagcagaa tgaggtgcgt gttcttcgcc tgtgcacggt caacagtgtg gaagagaaga 3901 tactggctgc tgccaaatac aaactcaatg tggatcagaa ggtgatccag gcaggcatgt 3961 tcgaccagaa gtcgtccagc catgagaggc gtgccttcct gcaggccatc ctggagcacg 4021 aggagcagga tgagagcaga cactgcagca cgggcagcgg cagtgccagc ttcgcccaca 4081 ctgcccctcc gccagcgggc gtcaaccccg acttggagga gccacctcta aaggaggaag 4141 atgaggtgcc tgatgatgag accgtcaacc agatgattgc ccggcacgaa gaagagtttg 4201 acctcttcat gcgcatggac ttggaccgcc ggcgtgaaga agcccgcaac cccaagcgga 4261 agccacgcct gatggaagag gatgagctcc catcctggat catcaaggat gatgccgagg 4321 tggagcggct gacatgtgaa gaggaagagg agaagatgtt cggccgtggt tctcgccacc 4381 gcaaggaggt agactacagc gactcactga cagagaagca gtggctcaag gctatcgagg 4441 agggcacgct ggaggagatc gaagaggagg tccggcagaa gaaatcttca cgtaagcgta 4501 agcgagacag cgaggccggc tcctccaccc cgaccaccag cacccgcagc cgtgacaagg 4561 atgaggagag caagaagcag aagaaacgtg ggcggccacc tgctgagaag ctgtccccaa 4621 acccacctaa cctcaccaag aagatgaaga agatcgtgga tgctgtgatc aagtacaaag 4681 acagcagcag tggacgtcag ctcagcgagg tgttcatcca gctcccctct cgcaaggagc 4741 ttcctgagta ctatgagctc atccgaaagc ctgtggactt caagaagatc aaggaacgca 4801 tccgaaacca caagtaccgc agcctcaatg acctggagaa ggatgtgatg ctgctgtgcc 4861 agaacgctca gacgttcaac ctcgagggtt ccctgatcta tgaggactcc atcgtcctgc 4921 agtctgtctt caccagcgta cggcagaaga ttgagaagga ggacgacagt gaaggcgagg 4981 aaagcgagga ggaggaggag ggcgaggagg aaggctccga gtctgagtcc cgctccgtca 5041 aggtgaagat caagctgggc cgcaaggaga aggcccagga ccgactcaag gggggccgcc 5101 ggcggccaag ccggggatcc cgggccaagc cggttgtgag tgacgatgac agtgaggagg 5161 agcaggagga ggaccgctca ggaagtggca gtgaggaaga ctgaaccaga cattcctgag 5221 tcctgacccc gaggcgctcg tcccagccaa gatggagtag cccttagcag tgatgggtag 5281 caccagatgt agtttcgaac ttggagaact gtacacatgc aatcttccac atttttaggc 5341 agagaagtat aggcctgtct gtcggccctg gcctggcctc gagtctctac cagcattaac 5401 tgtctagaga ggggacctcc tgggagcacc atccacctcc ccaggcccca gtcactgtag 5461 ctcagtggat gcatgcgcgt gccggccgct ccttgtactg tatcttactg gacagggcca 5521 gctctccagg aggctcacag gcccagcggg tatgtcagtg tcactggagt cagacagtaa 5581 taaattaaag caatgacaag ccaccactgg ctccctggac tccttgctgt cagcagtggc 5641 tccggggcca cagagaagaa agaaagactt ttaggaactg ggtctaactt atgggcaaag 5701 tacttgcctt gccaggtgta tgggttttgc attcccatca cccacacacc ctaaacaagc 5761 caagtcagtg agcttcaagt tagagcctcc acctcaatgt gtacgtggaa agcaatcaaa 5821 gatgatgcct agcatccacc tctggccctc atgtgcagat gtacacacac tgaattacat 5881 acacgggaca cacacatcca cacggaggca gtccatgact tgcactgggg agatggtacc 5941 ataggcgaaa gtgccacagg cacagggcca ggctaattta gtcctgcagt cctgtgctct 6001 taagatgaag gcacaaagag gaaccccagg cgctccaact agcatgccag gcagtgacaa 6061 gaccctgctt caaatgaatc agagcccaca ttcagtattg ccctcttacc cgatgcgatg 6121 cccatgccct cacatatgaa tgtgtatata tacatacata cgtaaaataa ttctttttta 6181 aattatagac atttttgtgt gaatgttttg cctgaatgtg tgtgtgtgtg tgtgtgtgtg 6241 tgtgtgtgtg tgtgtgtgtg tatcaagtac attcctagag cctacagagg tcaagggagg 6301 gcattggatc tggaactgga gtcacatgag gctgtgagca actgtgtggg ttcctgggcc 6361 tttgcaacag cagttagtac tcttcaccac tgagccattt ctccaatctc aaaaagaagc 6421 attcttttaa atgaagactg aaataaataa gtaggacttg ccttgg SEQ ID NO: 203 Mouse SMARCA4 Amino Acid Sequence isoform 4 (NP_001344693.1) 1 mstpdpplgg tprpgpspgp gpspgamlgp spgpspgsah smmgpspgpp saghpmptqg 61 pggypqdnmh qmhkpmesmh ekgmpddpry nqmkgmgmrs gahtgmappp spmdqhsqgy 121 psplggseha sspvpasgps sgpqmssgpg gapldgsdpq algqqnrgpt pfnqnqlhql 181 raqimaykml argqplpdhl qmavqgkrpm pgmqqqmptl pppsysatgp gpgpgpgpgp 241 gpgpappnys rphgmggpnm pppgpsgvpp gmpgqppggp pkpwpegpma naaaptstpq 301 klippqptgr pspappavpp aaspvmppqt gspggpagpa plvplhqkqs ritpiqkprg 361 ldpveilqer eyrlqariah riqelenlpg slagdlrtka tielkalrll nfqrqlrgev 421 vvcmrrdtal etalnakayk rskrqslrea riteklekqq kiegerkrrq khqeylnsil 481 qhakdfreyh rsvtgklqkl tkavatyhan tereqkkene riekermrrl maedeegyrk 541 lidqkkdkrl ayllqqtdey vanitelvrq hkaaqvakek kkkkkkkkae naegqtpaig 601 pdgepldets qmsdlpvkvi hvesgkiltg tdapkagqle awlemnpgye vaprsdsees 661 gseeeeeeee eeqpqpaqpp tlpveekkki pdpdsddvse vdarhiiena kqdvddeygv 721 sqalarglqs yyavahavte rvdkqsalmv ngvlkqyqik glewlvslyn nnlngilade 781 mglgktiqti alitylmehk ringpfliiv plstlsnway efdkwapsvv kvsykgspaa 841 rrafvpqlrs gkfnvlltty eyiikdkhil akirwkymiv deghrmknhh ckltqvinth 901 yvaprrlllt gtplqnklpe lwallnfllp tifkscstfe qwfnapfamt gekvdlneee 961 tiliirrlhk vlrpfllrrl kkeveaqlpe kveyvikcdm salqrvlyrh mqakgvlltd 1021 gsekdkkgkg gtktlmntim qlrkicnhpy mfqhieesfs ehlgftggiv qgldlyrasg 1081 kfelldrilp klratnhkvl lfcgmtslmt imedyfayrg fkylrldgtt kaedrgmllk 1141 tfnepgseyf ifllstragg lglnlqsadt viifdsdwnp hqdlqaqdra hrigqqnevr 1201 vlrlctvnsv eekilaaaky klnvdqkviq agmfdqksss herraflqai leheeqdesr 1261 hcstgsgsas fahtapppag vnpdleeppl keedevpdde tvnqmiarhe eefdlfmrmd 1321 ldrrreearn pkrkprlmee delpswiikd daeverltce eeeekmfgrg srhrkevdys 1381 dsltekqwlk aieegtleei eeevrqkkss rkrkrdseag sstpttstrs rdkdeeskkq 1441 kkrgrppaek lspnppnitk kmkkivdavi kykdsssgrq lsevfiqlps rkelpeyyel 1501 irkpvdfkki kerirnhkyr slndlekdvm llcgnaqtfn legsliyeds ivlqsvftsv 1561 rqkiekedds egeeseeeee geeegseses rsvkvkiklg rkekaqdrlk ggrrrpsrgs 1621 rakpvvsddd seeeqeedrs gsgseed SEQ ID NO: 204 Mouse SMARCA4 cDNA Sequence variant 1 (NM_001174078.1; 261-5114) 1 ggcaagtgga gcgggtagac agggaggcgg gggcgcgcgg cgggcgcgtg cggtgggggg 61 gggtggcctg gcgaagccca gcgggcgcgc gcgcgaggct ttcccactcg cttggcagcg 121 gcggagacgg cttctttgtt tcctgaggag aagcgagacg cccactctgt ccccgacccc 181 tcgtggaggg ttgggggcgg cgccaggaag gttacggcgc cgttacctcc aggagaccag 241 tgcctgtagc tccagtaaag atgtctactc cagacccacc cttgggtggg actcctcggc 301 ctggtccttc cccaggccct ggtccttcac ctggtgcaat gctgggtcct agccctggcc 361 cctcaccagg ttctgcccac agcatgatgg ggccaagccc aggacctcct tcagcaggac 421 atcccatgcc cacccagggg cctggagggt acccccagga caacatgcat cagatgcaca 481 agcctatgga gtccatgcac gagaagggca tgcctgatga cccacgatac aaccagatga 541 aagggatggg catgcggtca ggggcccaca caggcatggc acctccacct agtcccatgg 601 accagcattc tcaaggttac ccctcacccc tcggcggctc tgaacatgcc tccagtcctg 661 tcccagccag tggcccatct tcaggccccc agatgtcctc tgggccagga ggggccccac 721 tagatggttc tgatccccag gccttgggac agcaaaacag aggcccaacc ccatttaacc 781 agaaccagct gcatcaactc agagctcaga taatggccta caagatgttg gccaggggcc 841 agccattgcc cgaccacctg cagatggccg tgcaaggcaa gcggccgatg cctggaatgc 901 agcaacagat gccaacacta cctccaccct cagtgtccgc cacaggaccc ggacctggac 961 ccggccctgg ccctggccct ggcccaggac cagcccctcc aaattacagt agaccccatg 1021 gtatgggagg gcccaacatg cctcccccag gaccctcagg tgtgcccccc gggatgcctg 1081 gtcagccgcc tggagggcct cccaagccat ggcctgaagg acccatggcc aatgctgctg 1141 cccccacaag caccccacag aagctgattc ctccgcaacc aacaggccgt ccttcacctg 1201 cacctcctgc tgtcccgcct gctgcctcac ctgtaatgcc accacaaaca cagtccccag 1261 ggcagccagc ccagcctgct ccattggtgc cactgcacca gaagcagagc cgaatcaccc 1321 ccatccagaa gccccgaggc cttgaccctg tggagatcct acaagagcgg gagtacaggc 1381 ttcaggctcg aatcgcacac agaattcagg aacttgaaaa cctccctggg tccctggctg 1441 gggaccttcg aaccaaagca accatcgaac tcaaggccct taggttgctg aacttccaga 1501 ggcagctgcg ccaggaggtg gtggtgtgca tgcgaagaga cacagccctg gagacagccc 1561 tcaatgccaa ggcctacaag cgcagcaaac gtcagtcact acgggaggcc cgcatcactg 1621 agaagttgga gaagcagcag aagattgaac aggagcgcaa gcgccgccag aagcaccagg 1681 agtacctcaa cagcattctg cagcatgcca aggacttcag ggagtatcac agatcagtca 1741 caggcaaact ccagaaactc accaaggctg tggccaccta ccatgccaac actgagcggg 1801 agcagaagaa agaaaatgag cgcattgaga aggagcgaat gcggaggctt atggctgaag 1861 atgaggaggg ctaccgcaaa ctcattgacc agaagaagga caagcgcctg gcctaccttc 1921 tgcagcagac agatgagtat gtggccaacc tcacagagct ggtgcggcag cacaaagctg 1981 cccaggttgc caaggagaag aagaagaaaa agaaaaagaa gaaggcagaa aatgctgaag 2041 gacagacacc tgctattgga ccagatggtg agcctctgga tgagaccagc cagatgagtg 2101 acctccctgt gaaggtgatc cacgtggaga gtggcaagat cctcactggc acagatgccc 2161 caaaagccgg gcagctggaa gcctggcttg aaatgaaccc agggtatgaa gtagccccca 2221 ggtcagacag tgaagaaagt ggctctgaag aggaggagga ggaggaggaa gaggagcagc 2281 ctcagcccgc acagccccct acactgcctg tggaagaaaa gaagaagatt ccagacccag 2341 acagcgatga tgtctctgag gtggacgccc gacacattat tgagaacgcc aagcaagatg 2401 tggacgatga gtacggtgtg tcccaggccc ttgctcgtgg cctgcagtct tactatgctg 2461 tggcccatgc agtcacagag agagtagata agcagtccgc cctcatggtc aacggtgtcc 2521 tcaaacagta ccagatcaag ggtttggagt ggctggtgtc cctgtacaac aacaacctga 2581 atggcatcct ggctgatgag atggggctgg ggaagaccat ccagaccatc gcgctcatca 2641 catacctcat ggagcacaag cgcatcaacg ggcctttcct catcatcgtg cctctctcga 2701 cactgtcaaa ctgggcgtat gaatttgaca agtgggcccc ctctgtggtg aaggtttctt 2761 acaagggctc tccagctgca aggcgagctt ttgtcccaca gcttcgcagt gggaagttca 2821 acgtcttact gaccacctat gaatatatca tcaaagacaa gcatatccta gccaagatcc 2881 gctggaagta catgattgtg gatgaaggcc accgcatgaa aaaccaccac tgcaagttga 2941 cgcaggtcct taacacacac tacgtggccc ctcggcgcct gcttcttaca ggcacaccac 3001 tgcagaacaa gctaccggag ctctgggccc tgcttaactt cctgctcccc actatcttca 3061 agagctgcag caccttcgaa cagtggttca atgcaccctt tgccatgact ggagaaaagg 3121 tggacctgaa tgaagaggag actatcctca ttattcgtcg cctacacaaa gttctgcggc 3181 ccttcctgct gcggcggctc aagaaggaag ttgaagccca gctccctgag aaggtagagt 3241 atgtcatcaa atgcgacatg tcagccctgc agcgtgtgct gtaccgtcac atgcaggcca 3301 aaggtgtgct gctgactgac ggctccgaga aggacaagaa gggcaaaggt ggcaccaaga 3361 cactgatgaa cactattatg caactgcgta agatctgcaa ccacccctac atgttccagc 3421 acatcgagga gtccttttct gagcacttgg ggttcaccgg cggcatcgtg caaggattgg 3481 acctttaccg tgcctcaggg aaatttgaac ttcttgatag aattctaccc aaactccgtg 3541 caacgaacca taaagtgctc ctcttttgcc aaatgacctc cctcatgacc atcatggaag 3601 actactttgc ataccgtggc ttcaaatacc tcaggcttga tggaaccaca aaagcagaag 3661 accggggcat gctgttgaaa acctttaatg aacctggctc tgagtatttc attttcctgc 3721 tcagtacccg tgctgggggg ctgggcctga atctgcagtc agctgacact gtgatcatct 3781 ttgacagtga ctggaatccc caccaggacc tgcaagcaca ggatcgagcc catcgcattg 3841 gacagcagaa tgaggtgcgt gttcttcgcc tgtgcacggt caacagtgtg gaagagaaga 3901 tactggctgc tgccaaatac aaactcaatg tggatcagaa ggtgatccag gcaggcatgt 3961 tcgaccagaa gtcgtccagc catgagaggc gtgccttcct gcaggccatc ctggagcacg 4021 aggagcagga tgaggaggaa gatgaggtgc ctgatgatga gaccgtcaac cagatgattg 4081 cccggcacga agaagagttt gacctcttca tgcgcatgga cttggaccgc cggcgtgaag 4141 aagcccgcaa ccccaagcgg aagccacgcc tgatggaaga ggatgagctc ccatcctgga 4201 tcatcaagga tgatgccgag gtggagcggc tgacatgtga agaggaagag gagaagatgt 4261 tcggccgtgg ttctcgccac cgcaaggagg tagactacag cgactcactg acagagaagc 4321 agtggctcaa gaccctgaag gctatcgagg agggcacgct ggaggagatc gaagaggagg 4381 tccggcagaa gaaatcttca cgtaagcgta agcgagacag cgaggccggc tcctccaccc 4441 cgaccaccag cacccgcagc cgtgacaagg atgaggagag caagaagcag aagaaacgtg 4501 ggcggccacc tgctgagaag ctgtccccaa acccacctaa cctcaccaag aagatgaaga 4561 agatcgtgga tgctgtgatc aagtacaaag acagcagcag tggacgtcag ctcagcgagg 4621 tgttcatcca gctcccctct cgcaaggagc ttcctgagta ctatgagctc atccgaaagc 4681 ctgtggactt caagaagatc aaggaacgca tccgaaacca caagtaccgc agcctcaatg 4741 acctggagaa ggatgtgatg ctgctgtgcc agaacgctca gacgttcaac ctcgagggtt 4801 ccctgatcta tgaggactcc atcgtcctgc agtctgtctt caccagcgta cggcagaaga 4861 ttgagaagga ggacgacagt gaaggcgagg aaagcgagga ggaggaggag ggcgaggagg 4921 aaggctccga gtctgagtcc cgctccgtca aggtgaagat caagctgggc cgcaaggaga 4981 aggcccagga ccgactcaag gggggccgcc ggcggccaag ccggggatcc cgggccaagc 5041 cggttgtgag tgacgatgac agtgaggagg agcaggagga ggaccgctca ggaagtggca 5101 gtgaggaaga ctgaaccaga cattcctgag tcctgacccc gaggcgctcg tcccagccaa 5161 gatggagtag cccttagcag tgatgggtag caccagatgt agtttcgaac ttggagaact 5221 gtacacatgc aatcttccac atttttaggc agagaagtat aggcctgtct gtcggccctg 5281 gcctggcctc gagtctctac cagcattaac tgtctagaga ggggacctcc tgggagcacc 5341 atccacctcc ccaggcccca gtcactgtag ctcagtggat gcatgcgcgt gccggccgct 5401 ccttgtactg tatcttactg gacagggcca gctctccagg aggctcacag gcccagcggg 5461 tatgtcagtg tcactggagt cagacagtaa taaattaaag caatgacaag ccaccactgg 5521 ctccctggac tccttgctgt cagcagtggc tccggggcca cagagaagaa agaaagactt 5581 ttaggaactg ggtctaactt atgggcaaag tacttgcctt gccaggtgta tgggttttgc 5641 attcccatca cccacacacc ctaaacaagc caagtcagtg agcttcaagt tagagcctcc 5701 acctcaatgt gtacgtggaa agcaatcaaa gatgatgcct agcatccacc tctggccctc 5761 atgtgcagat gtacacacac tgaattacat acacgggaca cacacatcca cacggaggca 5821 gtccatgact tgcactgggg agatggtacc ataggcgaaa gtgccacagg cacagggcca 5881 ggctaattta gtcctgcagt cctgtgctct taagatgaag gcacaaagag gaaccccagg 5941 cgctccaact agcatgccag gcagtgacaa gaccctgctt caaatgaatc agagcccaca 6001 ttcagtattg ccctcttacc cgatgcgatg cccatgccct cacatatgaa tgtgtatata 6061 tacatacata cgtaaaataa ttctttttta aattatagac atttttgtgt gaatgttttg 6121 cctgaatgtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tatcaagtac 6181 attcctagag cctacagagg tcaagggagg gcattggatc tggaactgga gtcacatgag 6241 gctgtgagca actgtgtggg ttcctgggcc tttgcaacag cagttagtac tcttcaccac 6301 tgagccattt ctccaatctc aaaaagaagc attcttttaa atgaagactg aaataaataa 6361 gtaggacttg ccttgg SEQ ID NO: 205 Human SS18 cDNA Sequence variant 1 (NM_001007559.2; CDS: 79-1335) 1 gagaggccgg cgtctctccc ccagtttgcc gttcacccgg agcgctcggg acttgccgat 61 agtggtgacg gcggcaacat gtctgtggct ttcgcggccc cgaggcagcg aggcaagggg 121 gagatcactc ccgctgcgat tcagaagatg ttggatgaca ataaccatct tattcagtgt 181 ataatggact ctcagaataa aggaaagacc tcagagtgtt ctcagtatca gcagatgttg 241 cacacaaact tggtatacct tgctacaata gcagattcta atcaaaatat gcagtctctt 301 ttaccagcac cacccacaca gaatatgcct atgggtcctg gagggatgaa tcagagcggc 361 cctcccccac ctccacgctc tcacaacatg ccttcagatg gaatggtagg tgggggtcct 421 cctgcaccgc acatgcagaa ccagatgaac ggccagatgc ctgggcctaa ccatatgcct 481 atgcagggac ctggacccaa tcaactcaat atgacaaaca gttccatgaa tatgccttca 541 agtagccatg gatccatggg aggttacaac cattctgtgc catcatcaca gagcatgcca 601 gtacagaatc agatgacaat gagtcaggga caaccaatgg gaaactatgg tcccagacca 661 aatatgagta tgcagccaaa ccaaggtcca atgatgcatc agcagcctcc ttctcagcaa 721 tacaatatgc cacagggagg cggacagcat taccaaggac agcagccacc tatgggaatg 781 atgggtcaag ttaaccaagg caatcatatg atgggtcaga gacagattcc tccctataga 841 cctcctcaac agggcccacc acagcagtac tcaggccagg aagactatta cggggaccaa 901 tacagtcatg gtggacaagg tcctccagaa ggcatgaacc agcaatatta ccctgatggt 961 cataatgatt acggttatca gcaaccgtcg tatcctgaac aaggctacga taggccttat 1021 gaggattcct cacaacatta ctacgaagga ggaaattcac agtatggcca acagcaagat 1081 gcataccagg gaccacctcc acaacaggga tatccacccc agcagcagca gtacccaggg 1141 cagcaaggtt acccaggaca gcagcagggc tacggtcctt cacagggtgg tccaggtcct 1201 cagtatccta actacccaca gggacaaggt cagcagtatg gaggatatag accaacacag 1261 cctggaccac cacagccacc ccagcagagg ccttatggat atgaccaggg acagtatgga 1321 aattaccagc agtgaaaaag tacttacatt ccagtagcca gtatctatta gcagccatat 1381 tgtcacctca gcactgtgga cacctccctg tgaagagatc cttccattcc atctagtttt 1441 tggaaaaacc ttgtggataa gtggctgttt catcagtaag cagcctttgt ggtttagtta 1501 taaaaggctt tagtagctca aaaatactct tgatttcaca tttctactct agatggcaac 1561 attggacaga aaatgcaatg acataaccaa tttgtaatga ttttggaact gtgtttcaaa 1621 tggactgtta cagactgaaa ggtgtgaaca gctttgtatg tttatgaagg gtaagggaat 1681 ttaatacttt tccacagatt tttttgtaag gggaagaggg aaatgtacac tttttacagc 1741 agcaatattt tgtatattat gtttatttca tgtggtgaat atgcaaggcg gtacactacg 1801 cactggacag catcagaaat cctctgttaa tgtggactgg aacatggtag atgcttgatt 1861 gttttggtct caaaatggtg tgctataaag ataaaggtga ggggaagaca aagcacacca 1921 tatgtccact gttctgttct catagaggaa attcaaatcc cttttatcta ttagataatc 1981 aagggcactg tgatacagtt ttgagtaaaa agacattttt taaaagcctt ccagttttgt 2041 ggattaaacc tttttataaa gatcatttat aatactgttt taaaatgtga ggcaataaga 2101 attactttgt gttggatctg aggaggcttt ggtaaaacag tttcatctaa atgaaagtgg 2161 taatcctctt ctaaaatagc aataactgaa aatgaaagtg ttaattttac cttgtttgag 2221 ttatcaggga acttagtaag taatatcaaa gcattttata aatgatatca aagaagagtc 2281 aacattgatc cagtcatttt attttgtaat attgagggat aattggttat taaactgaat 2341 agttcaggag actttacaaa cctttgtttc aactttctta tctggaaata atatcattta 2401 taaagggaca cttttatgtt tttccctttt ttatgttggt tgatataaca caaagagata 2461 tttaggaaaa tgcttattga tgaggtttat tctatctgtt tttaaagcac cgaggttgca 2521 ttctagataa ccttgtttat tagcatggca tattttaatc attatttgag actgtcctgt 2581 gcctgattat tttagctaaa ttcagggaga ttgcgtgggg caggaaagca tgcattgaaa 2641 aatttctaac cacggttatt taagcataat ctgaaaacat ctagcccaaa ggtaagttgc 2701 tattttcatc acagttgcct atgcccaggg aataagatgt attctttata attgaattgg 2761 tttttcccac gtctaactgg aaacaaaaca gaaggggcgt cataaatttg aataagcaga 2821 acatactgtt ctcaacatac tgtaatcaaa aggaggaatt tcagtgggtc tctgtgtgtg 2881 tatgagagag agagtgtgtg tttgtgtgtt tcaaggtcag aacaggtttt tttgtttttg 2941 ttttttgttc tttgtttttt tttttgagat ggagtcttgc tcttgtcgcc caggctggag 3001 tgcagtggcg caatctcagc tcactgcaac ctccgcctcc caggttcaag cagttctcct 3061 gcctcagcct cctgagtagc tgggatgaca ggcacccgcc accacaccca gctaattttt 3121 gtacttttag tagagacgag gtttcgccat gttggccagg ctggtctcga actcctgacc 3181 tcaggtgatc cacccgcctc ggccttccaa agtgctggga ttacaggcgt gagccaccgt 3241 gcctggccag aataggtttt ttctttcaac ttgatcagta gaaaatggac atcaagtttg 3301 aacagataaa tcatggacag ccttattgtg attgaaatgc ttgtaggttc tgtgccaatt 3361 ttccaccact gtgtactttg ttgctattta aaactgtatc aactctaacg gaagaataaa 3421 ttatttgtga ttttaaaaaa SEQ ID NO: 206 Human SS18 Amino Acid Sequence isoform 1 (NP_001007560.1) 1 msvafaaprq rgkgeitpaa igkmlddnnh liqcimdsqn kgktsecsqy qqmlhtnlvy 61 latiadsnqn mqsllpappt qnmpmgpggm nqsgpppppr shnmpsdgmv gggppaphmq 121 nqmngqmpgp nhmpmqgpgp nqlnmtnssm nmpssshgsm ggynhsvpss gsmpvqnqmt 181 msqgqpmgny gprpnmsmqp nqgpmmhqqp psqqynmpqg ggqhyqgqqp pmgmmgqvnq 241 qnhmmgqrqi ppyrppqqgp pqqysgqedy ygdqyshggq gppegmnqqy ypdghndygy 301 qqpsypeggy drpyedssqh yyeggnsqyg qqqdayggpp pqqgyppqqg qypgqqgypg 361 qqqgygpsqg gpgpqypnyp qgqgqqyggy rptqpgppqp pqqrpygydq gqygnyqq SEQ ID NO: 207 Human SS18 cEMA Sequence variant 2 (NM_0056373) 1 gagaggccgg cgtctctccc ccagtttgcc gttcacccgg agcgctcggg acttgccgat 61 agtggtgacg gcggcaacat gtctgtggct ttcgcggccc cgaggcagcg aggcaagggg 121 gagatcactc ccgctgcgat tcagaagatg ttggatgaca ataaccatct tattcagtgt 181 ataatggact ctcagaataa aggaaagacc tcagagtgtt ctcagtatca gcagatgttg 241 cacacaaact tggtatacct tgctacaata gcagattcta atcaaaatat gcagtctctt 301 ttaccagcac cacccacaca gaatatgcct atgggtcctg gagggatgaa tcagagcggc 361 cctcccccac ctccacgctc tcacaacatg ccttcagatg gaatggtagg tgggggtcct 421 cctgcaccgc acatgcagaa ccagatgaac ggccagatgc ctgggcctaa ccatatgcct 481 atgcagggac ctggacccaa tcaactcaat atgacaaaca gttccatgaa tatgccttca 541 agtagccatg gatccatggg aggttacaac cattctgtgc catcatcaca gagcatgcca 601 gtacagaatc agatgacaat gagtcaggga caaccaatgg gaaactatgg tcccagacca 661 aatatgagta tgcagccaaa ccaaggtcca atgatgcatc agcagcctcc ttctcagcaa 721 tacaatatgc cacagggagg cggacagcat taccaaggac agcagccacc tatgggaatg 781 atgggtcaag ttaaccaagg caatcatatg atgggtcaga gacagattcc tccctataga 841 cctcctcaac agggcccacc acagcagtac tcaggccagg aagactatta cggggaccaa 901 tacagtcatg gtggacaagg tcctccagaa ggcatgaacc agcaatatta ccctgatgga 961 aattcacagt atggccaaca gcaagatgca taccagggac cacctccaca acagggatat 1021 ccaccccagc agcagcagta cccagggcag caaggttacc caggacagca gcagggctac 1081 ggtccttcac agggtggtcc aggtcctcag tatcctaact acccacaggg acaaggtcag 1141 cagtatggag gatatagacc aacacagcct ggaccaccac agccacccca gcagaggcct 1201 tatggatatg accagggaca gtatggaaat taccagcagt gaaaaagtac ttacattcca 1261 gtagccagta tctattagca gccatattgt cacctcagca ctgtggacac ctccctgtga 1321 agagatcctt ccattccatc tagtttttgg aaaaaccttg tggataagtg gctgtttcat 1381 cagtaagcag cctttgtggt ttagttataa aaggctttag tagctcaaaa atactcttga 1441 tttcacattt ctactctaga tggcaacatt ggacagaaaa tgcaatgaca taaccaattt 1501 gtaatgattt tggaactgtg tttcaaatgg actgttacag actgaaaggt gtgaacagct 1561 ttgtatgttt atgaagggta agggaattta atacttttcc acagattttt ttgtaagggg 1621 aagagggaaa tgtacacttt ttacagcagc aatattttgt atattatgtt tatttcatgt 1681 ggtgaatatg caaggcggta cactacgcac tggacagcat cagaaatcct ctgttaatgt 1741 ggactggaac atggtagatg cttgattgtt ttggtctcaa aatggtgtgc tataaagata 1801 aaggtgaggg gaagacaaag cacaccatat gtccactgtt ctgttctcat agaggaaatt 1861 caaatccctt ttatctatta gataatcaag ggcactgtga tacagttttg agtaaaaaga 1921 cattttttaa aagccttcca gttttgtgga ttaaaccttt ttataaagat catttataat 1981 actgttttaa aatgtgaggc aataagaatt actttgtgtt ggatctgagg aggctttggt 2041 aaaacagttt catctaaatg aaagtggtaa tcctcttcta aaatagcaat aactgaaaat 2101 gaaagtgtta attttacctt gtttgagtta tcagggaact tagtaagtaa tatcaaagca 2161 ttttataaat gatatcaaag aagagtcaac attgatccag tcattttatt ttgtaatatt 2221 gagggataat tggttattaa actgaatagt tcaggagact ttacaaacct ttgtttcaac 2281 tttcttatct ggaaataata tcatttataa agggacactt ttatgttttt ccctttttta 2341 tgttggttga tataacacaa agagatattt aggaaaatgc ttattgatga ggtttattct 2401 atctgttttt aaagcaccga ggttgcattc tagataacct tgtttattag catggcatat 2461 tttaatcatt atttgagact gtcctgtgcc tgattatttt agctaaattc agggagattg 2521 cgtggggcag gaaagcatgc attgaaaaat ttctaaccac ggttatttaa gcataatctg 2581 aaaacatcta gcccaaaggt aagttgctat tttcatcaca gttgcctatg cccagggaat 2641 aagatgtatt ctttataatt gaattggttt ttcccacgtc taactggaaa caaaacagaa 2701 ggggcgtcat aaatttgaat aagcagaaca tactgttctc aacatactgt aatcaaaagg 2761 aggaatttca gtgggtctct gtgtgtgtat gagagagaga gtgtgtgttt gtgtgtttca 2821 aggtcagaac aggttttttt gtttttgttt tttgttcttt gttttttttt ttgagatgga 2881 gtcttgctct tgtcgcccag gctggagtgc agtggcgcaa tctcagctca ctgcaacctc 2941 cgcctcccag gttcaagcag ttctcctgcc tcagcctcct gagtagctgg gatgacaggc 3001 acccgccacc acacccagct aatttttgta cttttagtag agacgaggtt tcgccatgtt 3061 ggccaggctg gtctcgaact cctgacctca ggtgatccac ccgcctcggc cttccaaagt 3121 gctgggatta caggcgtgag ccaccgtgcc tggccagaat aggttttttc tttcaacttg 3181 atcagtagaa aatggacatc aagtttgaac agataaatca tggacagcct tattgtgatt 3241 gaaatgcttg taggttctgt gccaattttc caccactgtg tactttgttg ctatttaaaa 3301 ctgtatcaac tctaacggaa gaataaatta tttgtgattt taaaaaa SEQ ID NO: 208 Human SS18 Amino Acid Sequence isoform 2 (NP_005628.2) 1 msvafaaprq rgkgeitpaa igkmlddnnh liqcimdsqn kgktsecsqy qqmlhtnlvy 61 latiadsnqn mqsllpappt qnmpmgpggm nqsgpppppr shnmpsdgmv gggppaphmq 121 nqmngqmpgp nhmpmqgpgp nqlnmtnssm nmpssshgsm ggynhsvpss gsmpvqnqmt 181 msqggpmgny gprpnmsmqp nqgpmmhqqp psqqynmpqg ggqhyqgqqp pmgmmgqvnq 241 gnhmmgqrqi ppyrppqqgp pqqysgqedy ygdqyshggq gppegmnqqy ypdgnsqygq 301 qgdayggppp qqgyppqqqg ypgqqgypgq qqgygpsqgg pgpqypnypq gqgqqyggyr 361 ptqpgppqpp qqrpygydqg qygnyqg SEQ ID NO: 209 Human SS18 cDNA Sequence variant 3 (NM_001308201.1; CDS: 123-1310) 1 ccttccacct ctgccctatc tcggcagatg ctccacggat ttgcacgaac tcccgagtct 61 tgacctccct cccctctccg ggctgccggg acaactcggg gcggccactc ttgccaggag 121 gcatgttgga tgacaataac catcttattc agtgtataat ggactctcag aataaaggaa 181 agacctcaga gtgttctcag tatcagcaga tgttgcacac aaacttggta taccttgcta 241 caatagcaga ttctaatcaa aatatgcagt ctcttttacc agcaccaccc acacagaata 301 tgcctatggg tcctggaggg atgaatcaga gcggccctcc cccacctcca cgctctcaca 361 acatgccttc agatggaatg gtaggtgggg gtcctcctgc accgcacatg cagaaccaga 421 tgaacggcca gatgcctggg cctaaccata tgcctatgca gggacctgga cccaatcaac 481 tcaatatgac aaacagttcc atgaatatgc cttcaagtag ccatggatcc atgggaggtt 541 acaaccattc tgtgccatca tcacagagca tgccagtaca gaatcagatg acaatgagtc 601 agggacaacc aatgggaaac tatggtccca gaccaaatat gagtatgcag ccaaaccaag 661 gtccaatgat gcatcagcag cctccttctc agcaatacaa tatgccacag ggaggcggac 721 agcattacca aggacagcag ccacctatgg gaatgatggg tcaagttaac caaggcaatc 781 atatgatggg tcagagacag attcctccct atagacctcc tcaacagggc ccaccacagc 841 agtactcagg ccaggaagac tattacgggg accaatacag tcatggtgga caaggtcctc 901 cagaaggcat gaaccagcaa tattaccctg atggtcataa tgattacggt tatcagcaac 961 cgtcgtatcc tgaacaaggc tacgataggc cttatgagga ttcctcacaa cattactacg 1021 aaggaggaaa ttcacagtat ggccaacagc aagatgcata ccagggacca cctccacaac 1081 agggatatcc accccagcag cagcagtacc cagggcagca aggttaccca ggacagcagc 1141 agggctacgg tccttcacag ggtggtccag gtcctcagta tcctaactac ccacagggac 1201 aaggtcagca gtatggagga tatagaccaa cacagcctgg accaccacag ccaccccagc 1261 agaggcctta tggatatgac cagggacagt atggaaatta ccagcagtga aaaagtactt 1321 acattccagt agccagtatc tattagcagc catattgtca cctcagcact gtggacacct 1381 ccctgtgaag agatccttcc attccatcta gtttttggaa aaaccttgtg gataagtggc 1441 tgtttcatca gtaagcagcc tttgtggttt agttataaaa ggctttagta gctcaaaaat 1501 actcttgatt tcacatttct actctagatg gcaacattgg acagaaaatg caatgacata 1561 accaatttgt aatgattttg gaactgtgtt tcaaatggac tgttacagac tgaaaggtgt 1621 gaacagcttt gtatgtttat gaagggtaag ggaatttaat acttttccac agattttttt 1681 gtaaggggaa gagggaaatg tacacttttt acagcagcaa tattttgtat attatgttta 1741 tttcatgtgg tgaatatgca aggcggtaca ctacgcactg gacagcatca gaaatcctct 1801 gttaatgtgg actggaacat ggtagatgct tgattgtttt ggtctcaaaa tggtgtgcta 1861 taaagataaa ggtgagggga agacaaagca caccatatgt ccactgttct gttctcatag 1921 aggaaattca aatccctttt atctattaga taatcaaggg cactgtgata cagttttgag 1981 taaaaagaca ttttttaaaa gccttccagt tttgtggatt aaaccttttt ataaagatca 2041 tttataatac tgttttaaaa tgtgaggcaa taagaattac tttgtgttgg atctgaggag 2101 gctttggtaa aacagtttca tctaaatgaa agtggtaatc ctcttctaaa atagcaataa 2161 ctgaaaatga aagtgttaat tttaccttgt ttgagttatc agggaactta gtaagtaata 2221 tcaaagcatt ttataaatga tatcaaagaa gagtcaacat tgatccagtc attttatttt 2281 gtaatattga gggataattg gttattaaac tgaatagttc aggagacttt acaaaccttt 2341 gtttcaactt tcttatctgg aaataatatc atttataaag ggacactttt atgtttttcc 2401 cttttttatg ttggttgata taacacaaag agatatttag gaaaatgctt attgatgagg 2461 tttattctat ctgtttttaa agcaccgagg ttgcattcta gataaccttg tttattagca 2521 tggcatattt taatcattat ttgagactgt cctgtgcctg attattttag ctaaattcag 2581 ggagattgcg tggggcagga aagcatgcat tgaaaaattt ctaaccacgg ttatttaagc 2641 ataatctgaa aacatctagc ccaaaggtaa gttgctattt tcatcacagt tgcctatgcc 2701 cagggaataa gatgtattct ttataattga attggttttt cccacgtcta actggaaaca 2761 aaacagaagg ggcgtcataa atttgaataa gcagaacata ctgttctcaa catactgtaa 2821 tcaaaaggag gaatttcagt gggtctctgt gtgtgtatga gagagagagt gtgtgtttgt 2881 gtgtttcaag gtcagaacag gtttttttgt ttttgttttt tgttctttgt tttttttttt 2941 gagatggagt cttgctcttg tcgcccaggc tggagtgcag tggcgcaatc tcagctcact 3001 gcaacctccg cctcccaggt tcaagcagtt ctcctgcctc agcctcctga gtagctggga 3061 tgacaggcac ccgccaccac acccagctaa tttttgtact tttagtagag acgaggtttc 3121 gccatgttgg ccaggctggt ctcgaactcc tgacctcagg tgatccaccc gcctcggcct 3181 tccaaagtgc tgggattaca ggcgtgagcc accgtgcctg gccagaatag gttttttctt 3241 tcaacttgat cagtagaaaa tggacatcaa gtttgaacag ataaatcatg gacagcctta 3301 ttgtgattga aatgcttgta ggttctgtgc caattttcca ccactgtgta ctttgttgct 3361 atttaaaact gtatcaactc taacggaaga ataaattatt tgtgatttta aaaaa SEQ ID NO: 210 Human SS18 Amino Acid Sequence isoforrn 3 (NP_001295130.1) 1 mlddnnhliq cimdsqnkgk tsecsqyqqm lhtnlvylat iadsnqnmqs llpapptqnm 61 pmgpggmnqs gppppprshn mpsdgmvggg ppaphmqnqm ngqmpgpnhm pmqgpgpnql 121 nmtnssmnmp ssshgsmggy nhsvpssqsm pvqnqmtmsq gqpmgnygpr pnmsmqpnqg 181 pmmhqqppsq qynmpqgggq hyqgqqppmg mmgqvnqgnh mmgqrgippy rppqqgppqg 241 ysgqedyygd qyshggqgpp egmnqqyypd ghndygyqqp sypeqgydrp yedssqhyye 301 ggnsqygqqg dayggpppqg gyppqqqqyp gqqgypgqqg gygpsqggpg pqypnypqgq 361 gqqyggyrpt qpgppqppqg rpygydqgqy gnyqq SEQ ID NO: 211 Mouse SS18 Amino Acid Sequence isoform 1 (NP_033306.2) 1 msvafaaprq rgkgeitpaa igkmldennh liqcimdyqn kgkasecsqy qqilhtnlvy 61 latiadsnqn mqsllpappt qtmpmgpggm sqsgpppppr shnmpsdgmv gggppaphmq 121 nqmngqmpgp nhmpmqgpgp sqlsmtnssm nmpssshgsm ggynhsvpss qsmpvqnqmt 181 msqggpmgny gprpnmnmqp nqgpmmhqqp psqqynmppg gaqhyggqqa pmglmgqvnq 241 gshmmgqrqm ppyrppqqgp pqqysgqedy ygdqyshggq gppegmnqqy ypdghndygy 301 qqpsypeggy drpyedssqh yyeggnsqyg qqqdayggpp pqqgyppqqg qypgqqgypg 361 qqqsygpsqg gpgpqypnyp qgqgqqyggy rptqpgppqp pqqrpygydq gqygnyqq SEQ ID NO: 212 Mouse SS18 cDNA Sequence variant 1 (NM_009280.2; CDS: 180-1436) 1 ccttgctggg agctgcggct cagcgttaag gccaagccgg ccagcgaggg acgcggcccg 61 ggagcatcct ccccccaccg cgcgccctaa ggtggaactg cccggaggcg ggcgtcgggc 121 ccccagctcc gcgggccctg gagcgctcgg gactcgctga tcgcgggctc ggcggcaaca 181 tgtctgtggc gttcgcagcc ccgaggcagc ggggcaaggg cgaaatcacg cccgccgcca 241 tccagaagat gctggatgaa aacaaccatc ttattcagtg tataatggac tatcagaaca 301 aagggaaggc ctcggagtgc tcgcagtatc agcagatatt gcatacaaac ctggtatacc 361 ttgctacaat agcagactct aatcaaaata tgcagtctct cttaccagca ccgcccacac 421 agactatgcc aatgggtcct ggagggatga gtcagagtgg ccctccaccc cctccccgct 481 ctcacaacat gccttcagat ggaatggtgg gtgggggccc tcctgcacca cacatgcaga 541 accagatgaa cggccagatg cctgggccta accatatgcc aatgcaggga cctggaccca 601 gtcagctcag catgacaaac agctccatga atatgccttc aagtagccat ggctccatgg 661 gaggttacaa ccattctgtg ccgtcatccc agagcatgcc cgtgcagaac cagatgacaa 721 tgagtcaggg gcagccaatg ggaaactatg gtcccagacc aaacatgaat atgcaaccaa 781 atcaagggcc gatgatgcac cagcagcctc cttctcagca gtacaatatg ccacctggag 841 gggcacagca ttaccaagga cagcaggcgc ccatggggct gatgggccaa gttaaccaag 901 gcagtcacat gatgggccag cgacagatgc ctccctacag acctccgcaa cagggcccac 961 cacagcagta ctcaggccag gaagactatt atggggacca atacagtcat ggtggacaag 1021 gtcctccaga aggcatgaac cagcaatatt accctgatgg tcataatgat tacggttatc 1081 agcaaccgtc gtatcctgaa caaggctacg ataggcctta tgaggattcc tcacaacatt 1141 actacgaagg aggaaactcc cagtatggcc aacagcaaga cgcttaccag ggaccacctc 1201 cacagcaagg atacccaccc cagcagcagc agtacccggg acagcaggga tacccagggc 1261 agcagcagag ctatggtcct tcgcagggcg gtccaggtcc tcagtatcct aattatcctc 1321 agggtcaagg tcagcagtat gggggctata gaccaacaca gccaggacca ccccagccac 1381 cccagcagag gccttatggg tacgaccagg gacagtatgg aaattaccag cagtgaaaat 1441 gtccttacat tccaatagcc agtacctatt agcaggcacg ttgtcacagc actgcaccat 1501 ggacaccccc ctgggaagac tccttccatt ccagctaggt ttttgggaaa acctttggct 1561 aagtggctgc ttcgtcagca agtagctgtt atggtttagt ttgtaaaggc ttcgtagcta 1621 ccgatgcacc tgatttcacg tttctactct agatggcaac attggacaga aaatgcattg 1681 acgtgaggag tttgcagcgg tttcagaact gtgctgcaaa tggactgtca cagcctgaaa 1741 ggtgtgagca gctgggtgtg tgttcgcgga gcttcagggg gtttcatact tttccaccga 1801 ttattttgta aggggaaggg ggaaatgtac actttttaca gcagcaatat tttgtctatt 1861 atgtttattt catgtgataa atatgcaaag cggtacacta cacactgggc agaatcagaa 1921 cccctgttaa tgtggagtgt ggtagatgct cggtgctgtg gtgctctgaa gacaggcgag 1981 gggaggcaga agcccaccac aggcccgctg ttagttctta gaggaaactc ctctctctct 2041 tatctaccag attagcaagg gcgctgtgat acagtttttt gagtacaaag acatttttta 2101 aaaagccttc cagttttgtg cattaaaacc tttttgtaaa tatggtttat aatactgttt 2161 tcaaacgcaa ggcaataatt atgttgcatc tgtgaacttt ggcaggtttg tgtaaaagga 2221 gggaagcctc tcttaaaaca gcaataacag aaaaggagga agcgggatgt ttttaccttg 2281 tcttgtaatc agggagctct caccacgtca gagaggaggc agcattggtc tcaccttact 2341 gttttttaca ttaccatgat tggttcatgg agcagggagg agtccacgag acttcacacg 2401 cttgtgcttt aactttctta actgggcaca agcaaagggc gccttcgtgt tcctctcttc 2461 atcttagtta atgcgcgagg aaaatgcttt gatggccatt tctcattcgc actgaaagcc 2521 gagaggtgac attttacggt ttcttgtttt taagcacgac atacttaatc attatttgag 2581 actgattatt ttagctaaat ttggggatat gccatggggc aagaaaacat gtactgagag 2641 atttctaaac acatctattt aagcatactt taaaaatatc tagcccaaag gtaagttgct 2701 gtatcctcac agttgtctgc atccagggaa tatgactgaa tataacatat ctttgtaatt 2761 gaattagttt ttgccacttc taactgaaaa cagaacagaa ggagtgccat aaatgcaaag 2821 aagcaaagtg tactgttgtc aacatactgt aatcagagga ggggtttcaa tgtgtctgga 2881 tgagagtgtg tgtgtttaag gtcagagtat agggtgttct tcaacttgga cagtagaaaa 2941 taggcatcaa gtgtgaaccg gtgaggcgtg gacagccttc ttgtgactga gatgcttgta 3001 agttctgtgc caggttctcc accactgtgt actttattgc tatttaaaac tgtatcaact 3061 ctaacgaaag aataaattat ttgtgatttt aaaaaaaaaa aaaaaaaaaa SEQ ID NO: 213 Mouse SS18 Amino Acid Sequence isoform 2 (NP_001154841.1) 1 msvafaaprq rgkgeitpaa igkmldennh liqcimdyqn kgkasecsqy qqilhtnlvy 61 latiadsnqn mqsllpappt qtmpmgpggm sqsgpppppr shnmpsdgmv gggppaphmq 121 nqmngqmpgp nhmpmqgpgp sqlsmtnssm nmpssshgsm ggynhsvpss qsmpvqnqmt 181 msqggpmgny gprpnmnmqp nqgpmmhqqp psqqynmppg gaqhyggqqa pmglmgqvnq 241 gshmmgqrqm ppyrppqqgp pqqysgqedy ygdqyshggq gppegmnqqy ypdgnsqygq 301 qqdayggppp qqgyppqqqg ypgqqgypgq qqsygpsqgg pgpqypnypq gqgqqyggyr 361 ptqpgppqpp qqrpygydqg qygnyqg SEQ ID NO: 214 Mouse SS18 cDNA Sequence variant 2 (NM_001161369.1; CDS: 180-1343) 1 ccttgctggg agctgcggct cagcgttaag gccaagccgg ccagcgaggg acgcggcccg 61 ggagcatcct ccccccaccg cgcgccctaa ggtggaactg cccggaggcg ggcgtcgggc 121 ccccagctcc gcgggccctg gagcgctcgg gactcgctga tcgcgggctc ggcggcaaca 181 tgtctgtggc gttcgcagcc ccgaggcagc ggggcaaggg cgaaatcacg cccgccgcca 241 tccagaagat gctggatgaa aacaaccatc ttattcagtg tataatggac tatcagaaca 301 aagggaaggc ctcggagtgc tcgcagtatc agcagatatt gcatacaaac ctggtatacc 361 ttgctacaat agcagactct aatcaaaata tgcagtctct cttaccagca ccgcccacac 421 agactatgcc aatgggtcct ggagggatga gtcagagtgg ccctccaccc cctccccgct 481 ctcacaacat gccttcagat ggaatggtgg gtgggggccc tcctgcacca cacatgcaga 541 accagatgaa cggccagatg cctgggccta accatatgcc aatgcaggga cctggaccca 601 gtcagctcag catgacaaac agctccatga atatgccttc aagtagccat ggctccatgg 661 gaggttacaa ccattctgtg ccgtcatccc agagcatgcc cgtgcagaac cagatgacaa 721 tgagtcaggg gcagccaatg ggaaactatg gtcccagacc aaacatgaat atgcaaccaa 781 atcaagggcc gatgatgcac cagcagcctc cttctcagca gtacaatatg ccacctggag 841 gggcacagca ttaccaagga cagcaggcgc ccatggggct gatgggccaa gttaaccaag 901 gcagtcacat gatgggccag cgacagatgc ctccctacag acctccgcaa cagggcccac 961 cacagcagta ctcaggccag gaagactatt atggggacca atacagtcat ggtggacaag 1021 gtcctccaga aggcatgaac cagcaatatt accctgatgg aaactcccag tatggccaac 1081 agcaagacgc ttaccaggga ccacctccac agcaaggata cccaccccag cagcagcagt 1141 acccgggaca gcagggatac ccagggcagc agcagagcta tggtccttcg cagggcggtc 1201 caggtcctca gtatcctaat tatcctcagg gtcaaggtca gcagtatggg ggctatagac 1261 caacacagcc aggaccaccc cagccacccc agcagaggcc ttatgggtac gaccagggac 1321 agtatggaaa ttaccagcag tgaaaatgtc cttacattcc aatagccagt acctattagc 1381 aggcacgttg tcacagcact gcaccatgga cacccccctg ggaagactcc ttccattcca 1441 gctaggtttt tgggaaaacc tttggctaag tggctgcttc gtcagcaagt agctgttatg 1501 gtttagtttg taaaggcttc gtagctaccg atgcacctga tttcacgttt ctactctaga 1561 tggcaacatt ggacagaaaa tgcattgacg tgaggagttt gcagcggttt cagaactgtg 1621 ctgcaaatgg actgtcacag cctgaaaggt gtgagcagct gggtgtgtgt tcgcggagct 1681 tcagggggtt tcatactttt ccaccgatta ttttgtaagg ggaaggggga aatgtacact 1741 ttttacagca gcaatatttt gtctattatg tttatttcat gtgataaata tgcaaagcgg 1801 tacactacac actgggcaga atcagaaccc ctgttaatgt ggagtgtggt agatgctcgg 1861 tgctgtggtg ctctgaagac aggcgagggg aggcagaagc ccaccacagg cccgctgtta 1921 gttcttagag gaaactcctc tctctcttat ctaccagatt agcaagggcg ctgtgataca 1981 gttttttgag tacaaagaca ttttttaaaa agccttccag ttttgtgcat taaaaccttt 2041 ttgtaaatat ggtttataat actgttttca aacgcaaggc aataattatg ttgcatctgt 2101 gaactttggc aggtttgtgt aaaaggaggg aagcctctct taaaacagca ataacagaaa 2161 aggaggaagc gggatgtttt taccttgtct tgtaatcagg gagctctcac cacgtcagag 2221 aggaggcagc attggtctca ccttactgtt ttttacatta ccatgattgg ttcatggagc 2281 agggaggagt ccacgagact tcacacgctt gtgctttaac tttcttaact gggcacaagc 2341 aaagggcgcc ttcgtgttcc tctcttcatc ttagttaatg cgcgaggaaa atgctttgat 2401 ggccatttct cattcgcact gaaagccgag aggtgacatt ttacggtttc ttgtttttaa 2461 gcacgacata cttaatcatt atttgagact gattatttta gctaaatttg gggatatgcc 2521 atggggcaag aaaacatgta ctgagagatt tctaaacaca tctatttaag catactttaa 2581 aaatatctag cccaaaggta agttgctgta tcctcacagt tgtctgcatc cagggaatat 2641 gactgaatat aacatatctt tgtaattgaa ttagtttttg ccacttctaa ctgaaaacag 2701 aacagaagga gtgccataaa tgcaaagaag caaagtgtac tgttgtcaac atactgtaat 2761 cagaggaggg gtttcaatgt gtctggatga gagtgtgtgt gtttaaggtc agagtatagg 2821 gtgttcttca acttggacag tagaaaatag gcatcaagtg tgaaccggtg aggcgtggac 2881 agccttcttg tgactgagat gcttgtaagt tctgtgccag gttctccacc actgtgtact 2941 ttattgctat ttaaaactgt atcaactcta acgaaagaat aaattatttg tgattttaaa 3001 aaaaaaaaaa aaaaaaa SEQ ID NO: 215 Mouse SS18 Amino Acid Sequence isoform 3 (NP_001154842.1) 1 msvafaaprq rgkgeitpaa igkmldennh liqcimdyqn kgkasecsqy gqilhtnlvy 61 latiadsnqn mqsllpappt qtmpmgpggm sqsgpppppr shnmpsdgmv gggppaphmq 121 nqmngqmpgp mmhqqppsqq ynmppggaqh yqgqqapmgl mgqvnggshm mgqrqmppyr 181 ppqqgppqqy sgqedyygdg yshggqgppe gmnqqyypdg hndygyqqps ypeqgydrpy 241 edssqhyyeg gnsqygqqqd ayggpppqqg yppqqqqypg qqgypgqqqs ygpsqggpgp 301 qypnypqgqg qqyggyrptq pgppqppqqr pygydqgqyg nyqq SEQ ID NO: 216 Mouse SS18 cDNA Sequence variant 3 (NM_001161370.1; CDS: 180-1214) 1 ccttgctggg agctgcggct cagcgttaag gccaagccgg ccagcgaggg acgcggcccg 61 ggagcatcct ccccccaccg cgcgccctaa ggtggaactg cccggaggcg ggcgtcgggc 121 ccccagctcc gcgggccctg gagcgctcgg gactcgctga tcgcgggctc ggcggcaaca 181 tgtctgtggc gttcgcagcc ccgaggcagc ggggcaaggg cgaaatcacg cccgccgcca 241 tccagaagat gctggatgaa aacaaccatc ttattcagtg tataatggac tatcagaaca 301 aagggaaggc ctcggagtgc tcgcagtatc agcagatatt gcatacaaac ctggtatacc 361 ttgctacaat agcagactct aatcaaaata tgcagtctct cttaccagca ccgcccacac 421 agactatgcc aatgggtcct ggagggatga gtcagagtgg ccctccaccc cctccccgct 481 ctcacaacat gccttcagat ggaatggtgg gtgggggccc tcctgcacca cacatgcaga 541 accagatgaa cggccagatg cctgggccga tgatgcacca gcagcctcct tctcagcagt 601 acaatatgcc acctggaggg gcacagcatt accaaggaca gcaggcgccc atggggctga 661 tgggccaagt taaccaaggc agtcacatga tgggccagcg acagatgcct ccctacagac 721 ctccgcaaca gggcccacca cagcagtact caggccagga agactattat ggggaccaat 781 acagtcatgg tggacaaggt cctccagaag gcatgaacca gcaatattac cctgatggtc 841 ataatgatta cggttatcag caaccgtcgt atcctgaaca aggctacgat aggccttatg 901 aggattcctc acaacattac tacgaaggag gaaactccca gtatggccaa cagcaagacg 961 cttaccaggg accacctcca cagcaaggat acccacccca gcagcagcag tacccgggac 1021 agcagggata cccagggcag cagcagagct atggtccttc gcagggcggt ccaggtcctc 1081 agtatcctaa ttatcctcag ggtcaaggtc agcagtatgg gggctataga ccaacacagc 1141 caggaccacc ccagccaccc cagcagaggc cttatgggta cgaccaggga cagtatggaa 1201 attaccagca gtgaaaatgt ccttacattc caatagccag tacctattag caggcacgtt 1261 gtcacagcac tgcaccatgg acacccccct gggaagactc cttccattcc agctaggttt 1321 ttgggaaaac ctttggctaa gtggctgctt cgtcagcaag tagctgttat ggtttagttt 1381 gtaaaggctt cgtagctacc gatgcacctg atttcacgtt tctactctag atggcaacat 1441 tggacagaaa atgcattgac gtgaggagtt tgcagcggtt tcagaactgt gctgcaaatg 1501 gactgtcaca gcctgaaagg tgtgagcagc tgggtgtgtg ttcgcggagc ttcagggggt 1561 ttcatacttt tccaccgatt attttgtaag gggaaggggg aaatgtacac tttttacagc 1621 agcaatattt tgtctattat gtttatttca tgtgataaat atgcaaagcg gtacactaca 1681 cactgggcag aatcagaacc cctgttaatg tggagtgtgg tagatgctcg gtgctgtggt 1741 gctctgaaga caggcgaggg gaggcagaag cccaccacag gcccgctgtt agttcttaga 1801 ggaaactcct ctctctctta tctaccagat tagcaagggc gctgtgatac agttttttga 1861 gtacaaagac attttttaaa aagccttcca gttttgtgca ttaaaacctt tttgtaaata 1921 tggtttataa tactgttttc aaacgcaagg caataattat gttgcatctg tgaactttgg 1981 caggtttgtg taaaaggagg gaagcctctc ttaaaacagc aataacagaa aaggaggaag 2041 cgggatgttt ttaccttgtc ttgtaatcag ggagctctca ccacgtcaga gaggaggcag 2101 cattggtctc accttactgt tttttacatt accatgattg gttcatggag cagggaggag 2161 tccacgagac ttcacacgct tgtgctttaa ctttcttaac tgggcacaag caaagggcgc 2221 cttcgtgttc ctctcttcat cttagttaat gcgcgaggaa aatgctttga tggccatttc 2281 tcattcgcac tgaaagccga gaggtgacat tttacggttt cttgttttta agcacgacat 2341 acttaatcat tatttgagac tgattatttt agctaaattt ggggatatgc catggggcaa 2401 gaaaacatgt actgagagat ttctaaacac atctatttaa gcatacttta aaaatatcta 2461 gcccaaaggt aagttgctgt atcctcacag ttgtctgcat ccagggaata tgactgaata 2521 taacatatct ttgtaattga attagttttt gccacttcta actgaaaaca gaacagaagg 2581 agtgccataa atgcaaagaa gcaaagtgta ctgttgtcaa catactgtaa tcagaggagg 2641 ggtttcaatg tgtctggatg agagtgtgtg tgtttaaggt cagagtatag ggtgttcttc 2701 aacttggaca gtagaaaata ggcatcaagt gtgaaccggt gaggcgtgga cagccttctt 2761 gtgactgaga tgcttgtaag ttctgtgcca ggttctccac cactgtgtac tttattgcta 2821 tttaaaactg tatcaactct aacgaaagaa taaattattt gtgattttaa aaaaaaaaaa 2881 aaaaaaaa SEQ ID NO: 217 Mouse SS18 Amino Acid Sequence isoform 4 (NP_001154843.1) 1 msvafaaprq rgkgeitpaa igkmldennh liqcimdyqn kgkasecsqy qqilhtnlvy 61 latiadsnqn mqsllpappt qtmpmgpggm sqsgpppppr shnmpsdgmv gggppaphmq 121 nqmngqmpgp mmhqqppsqq ynmppggaqh yqgqqapmgl mgqvnggshm mgqrqmppyr 181 ppqqgppqqy sgqedyygdg yshggqgppe gmnqqyypdg nsqygqqqda yqgpppqqgy 241 ppqqqqypgq qgypgqqqsy gpsqggpgpq ypnypqgqgq qyggyrptqp gppqppqqrp 301 ygydqgqygn yqq SEQ ID NO: 218 Mouse SS18 cDNA Sequence variant 4 (NM_001161371.1; CDS: 180-1121) 1 ccttgctggg agctgcggct cagcgttaag gccaagccgg ccagcgaggg acgcggcccg 61 ggagcatcct ccccccaccg cgcgccctaa ggtggaactg cccggaggcg ggcgtcgggc 121 ccccagctcc gcgggccctg gagcgctcgg gactcgctga tcgcgggctc ggcggcaaca 181 tgtctgtggc gttcgcagcc ccgaggcagc ggggcaaggg cgaaatcacg cccgccgcca 241 tccagaagat gctggatgaa aacaaccatc ttattcagtg tataatggac tatcagaaca 301 aagggaaggc ctcggagtgc tcgcagtatc agcagatatt gcatacaaac ctggtatacc 361 ttgctacaat agcagactct aatcaaaata tgcagtctct cttaccagca ccgcccacac 421 agactatgcc aatgggtcct ggagggatga gtcagagtgg ccctccaccc cctccccgct 481 ctcacaacat gccttcagat ggaatggtgg gtgggggccc tcctgcacca cacatgcaga 541 accagatgaa cggccagatg cctgggccga tgatgcacca gcagcctcct tctcagcagt 601 acaatatgcc acctggaggg gcacagcatt accaaggaca gcaggcgccc atggggctga 661 tgggccaagt taaccaaggc agtcacatga tgggccagcg acagatgcct ccctacagac 721 ctccgcaaca gggcccacca cagcagtact caggccagga agactattat ggggaccaat 781 acagtcatgg tggacaaggt cctccagaag gcatgaacca gcaatattac cctgatggaa 841 actcccagta tggccaacag caagacgctt accagggacc acctccacag caaggatacc 901 caccccagca gcagcagtac ccgggacagc agggataccc agggcagcag cagagctatg 961 gtccttcgca gggcggtcca ggtcctcagt atcctaatta tcctcagggt caaggtcagc 1021 agtatggggg ctatagacca acacagccag gaccacccca gccaccccag cagaggcctt 1081 atgggtacga ccagggacag tatggaaatt accagcagtg aaaatgtcct tacattccaa 1141 tagccagtac ctattagcag gcacgttgtc acagcactgc accatggaca cccccctggg 1201 aagactcctt ccattccagc taggtttttg ggaaaacctt tggctaagtg gctgcttcgt 1261 cagcaagtag ctgttatggt ttagtttgta aaggcttcgt agctaccgat gcacctgatt 1321 tcacgtttct actctagatg gcaacattgg acagaaaatg cattgacgtg aggagtttgc 1381 agcggtttca gaactgtgct gcaaatggac tgtcacagcc tgaaaggtgt gagcagctgg 1441 gtgtgtgttc gcggagcttc agggggtttc atacttttcc accgattatt ttgtaagggg 1501 aagggggaaa tgtacacttt ttacagcagc aatattttgt ctattatgtt tatttcatgt 1561 gataaatatg caaagcggta cactacacac tgggcagaat cagaacccct gttaatgtgg 1621 agtgtggtag atgctcggtg ctgtggtgct ctgaagacag gcgaggggag gcagaagccc 1681 accacaggcc cgctgttagt tcttagagga aactcctctc tctcttatct accagattag 1741 caagggcgct gtgatacagt tttttgagta caaagacatt ttttaaaaag ccttccagtt 1801 ttgtgcatta aaaccttttt gtaaatatgg tttataatac tgttttcaaa cgcaaggcaa 1861 taattatgtt gcatctgtga actttggcag gtttgtgtaa aaggagggaa gcctctctta 1921 aaacagcaat aacagaaaag gaggaagcgg gatgttttta ccttgtcttg taatcaggga 1981 gctctcacca cgtcagagag gaggcagcat tggtctcacc ttactgtttt ttacattacc 2041 atgattggtt catggagcag ggaggagtcc acgagacttc acacgcttgt gctttaactt 2101 tcttaactgg gcacaagcaa agggcgcctt cgtgttcctc tcttcatctt agttaatgcg 2161 cgaggaaaat gctttgatgg ccatttctca ttcgcactga aagccgagag gtgacatttt 2221 acggtttctt gtttttaagc acgacatact taatcattat ttgagactga ttattttagc 2281 taaatttggg gatatgccat ggggcaagaa aacatgtact gagagatttc taaacacatc 2341 tatttaagca tactttaaaa atatctagcc caaaggtaag ttgctgtatc ctcacagttg 2401 tctgcatcca gggaatatga ctgaatataa catatctttg taattgaatt agtttttgcc 2461 acttctaact gaaaacagaa cagaaggagt gccataaatg caaagaagca aagtgtactg 2521 ttgtcaacat actgtaatca gaggaggggt ttcaatgtgt ctggatgaga gtgtgtgtgt 2581 ttaaggtcag agtatagggt gttcttcaac ttggacagta gaaaataggc atcaagtgtg 2641 aaccggtgag gcgtggacag ccttcttgtg actgagatgc ttgtaagttc tgtgccaggt 2701 tctccaccac tgtgtacttt attgctattt aaaactgtat caactctaac gaaagaataa 2761 attatttgtg attttaaaaa aaaaaaaaaa aaaaa SEQ ID NO: 219 Human SS18L1 cDNA Sequence variant 1 (NM_198935.2; CDS: 102-1292) 1 cttccccccc tccgcgactg cggataatga gcgcctcggg ccgcccagcg cagccggagt 61 atccacctcg atgaccacgg gctgagcccc gcgccgccac catgtccgtg gccttcgcgt 121 ctgcccggcc aagaggcaaa ggggaggtta cgcagcaaac catccagaag atgctggacg 181 agaaccacca cctgatccag tgcatcctgg agtaccagag caagggcaag acggccgagt 241 gcacgcagta ccagcagatc ctgcaccgga acctggtata cctggccacg atcgcagact 301 ccaaccagaa catgcagtcc ctgcttcctg ccccgcccac gcagaacatg aacctgggcc 361 ctggagccct gactcagagc ggctccagcc agggcctgca ctctcagggc agcctgagtg 421 acgccatcag cacgggcctg ccaccctcct ccctcctgca gggccagatt ggcaacgggc 481 cgagccacgt gtccatgcag cagacggcgc ctaacacgct gcccaccacc tccatgagca 541 tctctgggcc cggctacagc cacgcgggac ccgcctcgca gggcgtcccc atgcaggggc 601 aaggcaccat cggcaactac gtgtctcgga ccaacatcaa catgcagtcc aacccagtct 661 ccatgatgca gcagcaggcg gccacgtcgc actacagctc ggcgcagggc ggcagccagc 721 actaccaggg ccagtcgtcc atcgccatga tggggcaggg cagccagggg agcagcatga 781 tggggcagcg gcccatggcg ccctaccggc cctcccagca aggctcttcc cagcagtacc 841 tgggccagga ggagtactat ggcgagcagt acagccacag ccagggcgcc gcggagccca 901 tgggccagca gtactacccc gacggccatg gcgattacgc ctaccagcag tcatcctaca 961 cggagcagag ctacgaccgg tccttcgagg agtccacgca gcactactat gaggggggaa 1021 actcccagta cagccagcag caggccgggt accagcaggg tgccgcgcag cagcagacgt 1081 actcccagca gcagtacccc agccagcaga gctaccccgg gcagcagcag ggctacgggt 1141 ctgcccaggg agccccgtca cagtaccccg gctaccagca aggccaaggc cagcagtacg 1201 gaagctaccg agcaccgcag acagcgccgt ctgcccagca gcagcggccc tacggctatg 1261 aacagggcca gtatggaaat taccagcagt aagggacaca cattctggct ggagcccttg 1321 tggtagcgtg ttcatccagg ggccggatgg gctggcggca gctctggtga attgtgacat 1381 gttggttacc tgttcgccca gtgccacgtc tgcatgtgaa gcgtgctcat ttcatgctgg 1441 gtatgacgcc gagcgcacac cactggcgtg agacagcgct tggtggtgtg atacttttgg 1501 tgctgtgtat agtattgtat gtcggtacac ggagaggtat cctttttttg tcccccgccc 1561 ccttctcaat gtttctagct agctttgggg gtcattttgt catcagagca ttctgtgccc 1621 agggacagga cagatctcga ggacaccaca gtccacctgt tcccgtcaac agacgttagg 1681 tctcattttc ctcctcatgc agtgttgtag tgtgggttgt caacttttct ttaactggct 1741 acgccacagc tggacacaca tgcagcccct ggagggcagc ctcttcctgt gcctcgatgg 1801 ggtgggtggg agggcatctt ctgtgcgttg ggtcagtttc tgttacgtaa cgaaaaggat 1861 aaacatctcc cacgggagag gccacagatg gccacttcca gagcttgccc attgcctgtc 1921 tctcgccaat tccgtttatc caaaaaggta catgtttttg tattaaaaag taaacaggga 1981 tcagtgactg tattccaaat aaatatgaat ccctaagggc cgtggacaaa ttgcctaacc 2041 cagggccagc ggtattgctg aaggaaaggg gcagctctct gggaagtggg ccctcagaga 2101 ttactctggc tttgaccctt gtttagctga tggtcatttc tgggattgga atatttaata 2161 agcccaattc taagttgata ggtaatttta aatattcaaa ccaaatcttc ccaacagttg 2221 gcaagttgtt tattttatat tatttcttcc aggacctact tgctcagatc tccaagcaag 2281 catttctttt cttttaggga tgtctgaaag tcacatccag ttacattact gtgttctttc 2341 taatgaaaag taaaggtttt atatagagaa acttgagtaa tttttacatt tctaagacat 2401 taaatcccat ttaaattctg tgtgaacatt aaagacagca cacttgcaaa agtatggtca 2461 aaggaaaaaa atcccacatt tcaattaaca agtagcatgg acatttgatc aacctttagt 2521 tggaataata atattcatat ttgctatgaa tccttttaaa aaaatctttg gataaatgct 2581 gacagatttc caagaactac caagaaaata caagagatat ccaatgcttg atatatgagg 2641 cctagtaata acgatatttc tctttaattg atgttttgtt ttaaaagtta aaagtaattc 2701 ttggcgtggt ggttcacgcc tgtaatccca gcactttggg aggccgaagc gggcggatca 2761 cctgaggtcg ggagttcgag accagcctga ccaacatgga gaaaccccgt ccctactaaa 2821 aatacaaaat tagccaggta tggtggtgca tacctgtaat cccagctact cgggaacctg 2881 aggcaggaga atggcttgaa cccaggagac agaggttgtg gtggggcaag atcgcaccat 2941 tgcacccgag cctaggcaac aagagtgaaa ttccgtctca aaaaaataaa taaataaata 3001 aataaataag ttaaaattaa ttctttatcc agagtcgggt gctttagaat ttataagtca 3061 cttatgtgtt ttgcttgaat taattctgac agcccctatg aggaaatctg gaggcaggta 3121 acagttccca ttttagagat gaagaactga ggcacagatt aaaggacttg cctgtgttga 3181 ataccagtcc tgttctagga cattctcccc tctcctagga gacggatgtc acgcacaaat 3241 ggggagagaa gtgtttattt tgtaggcact aagggtttct aaaaccctta acactggtaa 3301 gggctcaaaa ataaacgtat gtgttcatat tcgatcaccg aaatgagagt tcttaattgc 3361 taattgacaa acgcgttagc aatttcagtt agggagtcat ctcccttgat tgtgttcttt 3421 tcctgtcaat tttcatagac ctaatttgca aactcaatcg gggactaaaa tttcccactg 3481 aaaatgttaa acattttaga taactgtgaa gatagtttat ttttattcct tgccaatctg 3541 ggaatatgcc ttttttgtgt gtttgtgtgt ttttttaagt gctgtattaa taatactttc 3601 tgaaagaaaa ggacacttac cccaaaactt caatctgaaa tgtcttacat taagaatatc 3661 ttgaatgttg tgtatatatt ttaaaaagca ctttgcaaaa tagtttgtac atttatttcc 3721 taatttatac atgatttttg gtgttaatat atttaatgat taataacaga atgtttattt 3781 aatgtgctgt ccatttttat gtaatattat ggggaaagtg atgccagcag ttccttttca 3841 ttattctatc ttctgtcata tgaatgttga gcaaagctta ggccaacatg aattgtttgt 3901 gaagtgtggt tgatggtgct ttgttttttt ctgactactt ctatggaagg ccagtgaaga 3961 agcaaaggaa gacatgaaaa ttgacgctca ttcttcttcc tattgttccc tgacatccag 4021 caaattgtga atttgaaaaa tgatggccag ttttcagaag tgctgacaaa ttcatattgg 4081 tatgcaaaag ctcatcaccc attaaggttt gttgttgaat caacagtact cagcatatta 4141 aaacagtaca tcagaactca tgccaacagt ctttatgatg ggattaaggt ggacaagatc 4201 tcctaagatc tgtgaatggg attaaggtgg acaagatctc ctaagatctg aaaagaaacc 4261 ttaatacgct catatggttg gagtgttaag tgaacctctg attttgtcag ggtttttcta 4321 cgtgtaggcg tgaatagggg gcaccccttc aaaactgtac aaagaagacg actgttttcc 4381 atttccattt aaacattttt agccacttca tttctattta ttgaacaggt caaatttgtc 4441 ttgttatttg tgagtacagt acatttaaaa aacatcctta tcggttattt ttttttcagt 4501 cggagtttga cgtataaatt gtttatgctt ttggtgtaat ctcttaataa actggttctt 4561 caaaaatcat cctataaagt gagttttcat gaagaaaaaa aaaaaaaaaa aa SEQ ID NO: 220 Human SS18L1 Amino Acid Sequence isoform 1 (NP_945173.1) 1 msvafasarp rgkgevtqqt igkmldenhh liqcileyqs kgktaectqy gqilhrnlvy 61 latiadsnqn mqsllpappt qnmnlgpgal tqsgssqglh sqgslsdais tglppssllq 121 gqigngpshv smqqtapntl pttsmsisgp gyshagpasq gvpmqgqgti gnyvsrtnin 181 mqsnpvsmmq qqaatshyss agggsqhygg qssiammgqg sqgssmmgqr pmapyrpsqq 241 gssqqylgqe eyygeqyshs ggaaepmgqg yypdghgdya yqqssyteqs ydrsfeestq 301 hyyeggnsqy sqqqagyqqg aaqqqtysqq qypsqqsypg qqqgygsaqg apsgypgyqg 361 gqgqqygsyr apqtapsaqq qrpygyeqgq ygnyqq SEQ ID NO: 221 Human SS18L1 cDNA Sequence variant 2 (NM_001301778.1; CDS: 600-1397) 1 cttccccccc tccgcgactg cggataatga gcgcctcggg ccgcccagcg cagccggagt 61 atccacctcg atgaccacgg gctgagcccc gcgccgccac catgtccgtg gccttcgcgt 121 ctgcccggcc aagaggcaaa ggggaggtta cgcagcaaac catccagaag tttttgaaga 181 atgccggcca gtcatcgagt gcccttggtt tgggtacaag gtgcgttttc ctaacttgcg 241 ggtctgaaag tgcgtccatt cccccttcac gcctggttgc ggtttcggcg gactagaatt 301 tctacgcaga agtctccctc aggatcagac cgtagccctt ccggaaacct ccatgatgct 361 ggacgagaac caccacctga tccagtgcat cctggagtac cagagcaagg gcaagacggc 421 cgagtgcacg cagtaccagc agatcctgca ccggaacctg gtatacctgg ccacgatcgc 481 agactccaac cagaacatgc agtccctgct tcctgcccct gagtgacgcc atcagcacgg 541 gcctgccacc ctcctccctc ctgcagggcc agattggcaa cgggccgagc cacgtgtcca 601 tgcagcagac ggcgcctaac acgctgccca ccacctccat gagcatctct gggcccggct 661 acagccacgc gggacccgcc tcgcagggcg tccccatgca ggggcaaggc accatcggca 721 actacgtgtc tcggaccaac atcaacatgc agtccaaccc agtctccatg atgcagcagc 781 aggcggccac gtcgcactac agctcggcgc agggcggcag ccagcactac cagggccagt 841 cgtccatcgc catgatgggg cagggcagcc aggggagcag catgatgggg cagcggccca 901 tggcgcccta ccggccctcc cagcaaggct cttcccagca gtacctgggc caggaggagt 961 actatggcga gcagtacagc cacagccagg gcgccgcgga gcccatgggc cagcagtact 1021 accccgacgg ccatggcgat tacgcctacc agcagtcatc ctacacggag cagagctacg 1081 accggtcctt cgaggagtcc acgcagcact actatgaggg gggaaactcc cagtacagcc 1141 agcagcaggc cgggtaccag cagggtgccg cgcagcagca gacgtactcc cagcagcagt 1201 accccagcca gcagagctac cccgggcagc agcagggcta cgggtctgcc cagggagccc 1261 cgtcacagta ccccggctac cagcaaggcc aaggccagca gtacggaagc taccgagcac 1321 cgcagacagc gccgtctgcc cagcagcagc ggccctacgg ctatgaacag ggccagtatg 1381 gaaattacca gcagtaaggg acacacattc tggctggagc ccttgtggta gcgtgttcat 1441 ccaggggccg gatgggctgg cggcagctct ggtgaattgt gacatgttgg ttacctgttc 1501 gcccagtgcc acgtctgcat gtgaagcgtg ctcatttcat gctgggtatg acgccgagcg 1561 cacaccactg gcgtgagaca gcgcttggtg gtgtgatact tttggtgctg tgtatagtat 1621 tgtatgtcgg tacacggaga ggtatccttt ttttgtcccc cgcccccttc tcaatgtttc 1681 tagctagctt tgggggtcat tttgtcatca gagcattctg tgcccaggga caggacagat 1741 ctcgaggaca ccacagtcca cctgttcccg tcaacagacg ttaggtctca ttttcctcct 1801 catgcagtgt tgtagtgtgg gttgtcaact tttctttaac tggctacgcc acagctggac 1861 acacatgcag cccctggagg gcagcctctt cctgtgcctc gatggggtgg gtgggagggc 1921 atcttctgtg cgttgggtca gtttctgtta cgtaacgaaa aggataaaca tctcccacgg 1981 gagaggccac agatggccac ttccagagct tgcccattgc ctgtctctcg ccaattccgt 2041 ttatccaaaa aggtacatgt ttttgtatta aaaagtaaac agggatcagt gactgtattc 2101 caaataaata tgaatcccta agggccgtgg acaaattgcc taacccaggg ccagcggtat 2161 tgctgaagga aaggggcagc tctctgggaa gtgggccctc agagattact ctggctttga 2221 cccttgttta gctgatggtc atttctggga ttggaatatt taataagccc aattctaagt 2281 tgataggtaa ttttaaatat tcaaaccaaa tcttcccaac agttggcaag ttgtttattt 2341 tatattattt cttccaggac ctacttgctc agatctccaa gcaagcattt cttttctttt 2401 agggatgtct gaaagtcaca tccagttaca ttactgtgtt ctttctaatg aaaagtaaag 2461 gttttatata gagaaacttg agtaattttt acatttctaa gacattaaat cccatttaaa 2521 ttctgtgtga acattaaaga cagcacactt gcaaaagtat ggtcaaagga aaaaaatccc 2581 acatttcaat taacaagtag catggacatt tgatcaacct ttagttggaa taataatatt 2641 catatttgct atgaatcctt ttaaaaaaat ctttggataa atgctgacag atttccaaga 2701 actaccaaga aaatacaaga gatatccaat gcttgatata tgaggcctag taataacgat 2761 atttctcttt aattgatgtt ttgttttaaa agttaaaagt aattcttggc gtggtggttc 2821 acgcctgtaa tcccagcact ttgggaggcc gaagcgggcg gatcacctga ggtcgggagt 2881 tcgagaccag cctgaccaac atggagaaac cccgtcccta ctaaaaatac aaaattagcc 2941 aggtatggtg gtgcatacct gtaatcccag ctactcggga acctgaggca ggagaatggc 3001 ttgaacccag gagacagagg ttgtggtggg gcaagatcgc accattgcac ccgagcctag 3061 gcaacaagag tgaaattccg tctcaaaaaa ataaataaat aaataaataa ataagttaaa 3121 attaattctt tatccagagt cgggtgcttt agaatttata agtcacttat gtgttttgct 3181 tgaattaatt ctgacagccc ctatgaggaa atctggaggc aggtaacagt tcccatttta 3241 gagatgaaga actgaggcac agattaaagg acttgcctgt gttgaatacc agtcctgttc 3301 taggacattc tcccctctcc taggagacgg atgtcacgca caaatgggga gagaagtgtt 3361 tattttgtag gcactaaggg tttctaaaac ccttaacact ggtaagggct caaaaataaa 3421 cgtatgtgtt catattcgat caccgaaatg agagttctta attgctaatt gacaaacgcg 3481 ttagcaattt cagttaggga gtcatctccc ttgattgtgt tcttttcctg tcaattttca 3541 tagacctaat ttgcaaactc aatcggggac taaaatttcc cactgaaaat gttaaacatt 3601 ttagataact gtgaagatag tttattttta ttccttgcca atctgggaat atgccttttt 3661 tgtgtgtttg tgtgtttttt taagtgctgt attaataata ctttctgaaa gaaaaggaca 3721 cttaccccaa aacttcaatc tgaaatgtct tacattaaga atatcttgaa tgttgtgtat 3781 atattttaaa aagcactttg caaaatagtt tgtacattta tttcctaatt tatacatgat 3841 ttttggtgtt aatatattta atgattaata acagaatgtt tatttaatgt gctgtccatt 3901 tttatgtaat attatgggga aagtgatgcc agcagttcct tttcattatt ctatcttctg 3961 tcatatgaat gttgagcaaa gcttaggcca acatgaattg tttgtgaagt gtggttgatg 4021 gtgctttgtt tttttctgac tacttctatg gaaggccagt gaagaagcaa aggaagacat 4081 gaaaattgac gctcattctt cttcctattg ttccctgaca tccagcaaat tgtgaatttg 4141 aaaaatgatg gccagttttc agaagtgctg acaaattcat attggtatgc aaaagctcat 4201 cacccattaa ggtttgttgt tgaatcaaca gtactcagca tattaaaaca gtacatcaga 4261 actcatgcca acagtcttta tgatgggatt aaggtggaca agatctccta agatctgtga 4321 atgggattaa ggtggacaag atctcctaag atctgaaaag aaaccttaat acgctcatat 4381 ggttggagtg ttaagtgaac ctctgatttt gtcagggttt ttctacgtgt aggcgtgaat 4441 agggggcacc ccttcaaaac tgtacaaaga agacgactgt tttccatttc catttaaaca 4501 tttttagcca cttcatttct atttattgaa caggtcaaat ttgtcttgtt atttgtgagt 4561 acagtacatt taaaaaacat ccttatcggt tatttttttt tcagtcggag tttgacgtat 4621 aaattgttta tgcttttggt gtaatctctt aataaactgg ttcttcaaaa atcatcctat 4681 aaagtgagtt ttcatgaaga aaaaaaaaaa aaaaaaa SEQ ID NO: 222 Human SS18L1 Amino Acid Sequence isoform 2 (NP_001288707.1) 1 mqqtapntlp ttsmsisgpg yshagpasqg vpmqgqgtig nyvsrtninm qsnpvsmmqg 61 qaatshyssa qggsqhyggq ssiammgqgs qgssmmgqrp mapyrpsqqg ssqqylgqee 121 yygegyshsq gaaepmgqqy ypdghgdyay qqssytegsy drsfeestqh yyeggnsqys 181 qqqagyqqga aqqqtysqqq ypsqqsypgq qqgygsagga psqypgyqqg qgqqygsyra 241 pqtapsaqqg rpygyeggqy gnyqq SEQ ID NO: 223 Mouse SS18L1 cDNA Sequence (NM_178750.5; CDS: 318-1526) 1 ggcacggcgg ggcggggcag ggcgggcgga accaccgaag ctcagcacag ggggcggtgt 61 accggctacc ggctggacga agagcgcagg ccgggtgcag ggggcctccg cgcggtatcc 121 tgacctggga ggcagtcgcg taaggcgtgg ggacgcgggg gactcgagcg cgcattggcg 181 acaggcaggc gggcgagccc acggcaccgc gccccccgtg tccccgcccc cgctctgcgg 241 agaatgggca cctcgggccg cggggcgcag ccggagaata aaccccaatg atcacgggct 301 gagtccgcgc caccaccatg tccgtggcct tcgcgtcggc gcggccgaga ggcaaagggg 361 aggtcactca gcagaccatc cagaagatgc tggatgagaa ccaccacctg atccagtgca 421 tcctggacta ccagagcaag ggcaagaccg ccgagtgcac gcagtaccag cagatcctgc 481 accggaacct ggtctaccta gccaccatag cagactccaa tcagaacatg cagtccctgc 541 ttcccgcgcc tccaacacag aacatgaacc tcgggcccgg agcactgagt cagagtggtt 601 ccagccaggg cctgcacccc cagggcagcc tcagcgatac cgtcagcaca ggcctgcccc 661 ccgcctccct catgcagggc cagatcggta acggtccaaa ccacgtgtcc atgcagcaga 721 cggctcagag cacactgccc acaacctcca tgagcttgtc aggcagtggc catggtactg 781 gccctgggta cagccactcg gggcctacct cgcagagtgt ccccatgcaa ggccaaggtg 841 ccatcagcaa ctatgtgtct cggaccaaca tcaacatgca gtctaaccca gtctccatga 901 tgcaccagca ggcagccacg tcccactaca actcagcaca gggtggaagc cagcattacc 961 agggccaggc acccattgcc atgatgggcc agggtggcca aggaggcagc atgatggggc 1021 agcggcccat ggcgccctac agaccctccc agcaaggctc ttcccagcag tacctgggcc 1081 aagaggagta ctacagcgaa cagtacagcc acagccaggg ctccgcagag cccatgagtc 1141 aacagtacta cccggatggc cacggtgact acgcctatca gcagtcgtcc tacacagagc 1201 agagctacga ccgctccttt gaggatccca cacagcacta ctacgagggg ggaaactccc 1261 agtacagtca gcagcaggct gggtaccagc agggcacagc acagcagcag acctactccc 1321 agcaacagta tcccaaccag cagagctacc cggggcagca gcagggctac ggtcctgccc 1381 agggagcccc ctcacagtac tcaagctacc agcaaggaca aggtcagcag tatggaagct 1441 acagaacatc gcagacggga ccttctgccc agcagcagcg gccttacggc tatgaacagg 1501 gccagtatgg aaattaccag caataaagaa caagcattgt ctttggaccc ttcatagtag 1561 tatgttctgg acaagccggt ggcagttctg atgagtagcg acatgttggt caccctctct 1621 gcccagtgcc gtgtctgcat gagaggcagg ctggtttcat gctgggcgtg atgctgtgtg 1681 caccactgac tgcgatatgg cgtgacatgt ctggtgctgt gtaaagtatt gtatatcggt 1741 acgatgggga ggttgtcctg tttgtgtccc ctgcccgctc cctgatgttc ttagctagct 1801 tggggggggg ttaccgtgtc atcacatgtt ctgtgcctgg tgatgagaca atgtctaaga 1861 gacatcatgg tccatgctgc tgtgaacaga ctcagtctgc cccctctcat accattgttg 1921 caaagtggac tgtaaatgtt tcttcaactg gcggctcata gcttgacata catacaccgc 1981 taggtgacca tttcttctgt gcctaagtag ggcttgagga caccttctgt gtcttgggtc 2041 atgtcactat aacaaggaag atgtgctttg tgtgcaagga ccatgagctg tcctttccag 2101 aacttaccaa ttgcctgtgt ctctccagtt tccatgatcc caaaggatgt ctttgtatta 2161 gcgagtaaag aaggatcgat gactattcca aatgacagtc ggtgagagtg tgggcatcgt 2221 gaggggagct ttcactaagg agggcgctgt ctgaagagca attcttgctg tctccgagct 2281 gcttgtgtgt agtatggctt tggcccttgg cgtcatctct aggatttgag tgtgcccaaa 2341 cctaagttta tagagaattt aaagtactca tgtttaattt tacaagcagt tggcaagtgt 2401 ttatattact tcttcaggac ctctgagttc agattgccaa gcagatgttc ctttgcgttt 2461 agggaagtct gaaatccaca ctgcattttt aatgaatcca aataacttta ttacgttctt 2521 tcaaatgaaa aggacaagtt ttatacagtg agaattgggt gatttttttt ttttttacat 2581 tcctaggatg tttaatctcg ttttaattct gtgcaaacat gagagacagc ctttttgaaa 2641 aggttctatc aaaggaaaac accgcatata atgcagcagg catatttttc agcatttatt 2701 tagataataa caatgttact atgagaagaa aagaacaacc ttgaagatga gtgctcagaa 2761 caaccaagaa catacaaaac catccccaag gatgcagggc ttggtacatc agacctgtcc 2821 accaggatgc ttttgcttta tttgtgtctt atatgtagcc cagactggcc tcaaactcac 2881 tacatagctg aggctgaact taatgatccc ccagcctcca ctcccgggta ctgagaccac 2941 gggcatgcac caccacatct gttttcagct gatagttttt aaaatataaa acttacctgt 3001 agctcagtag taaggcacct ttgtggagtt tgcttgaatt aatcttgaca gtcttgctgg 3061 aacttacagt gcaagctcca tttacttaca ggagaatcaa gggccggatc aaaggacttg 3121 tctgtgtcgg ctgccgtctt actctaggac attctccctc tccttgggac cattatcaac 3181 aaccatgggc atatgtgtct cataggcaca gggtttagga aacacacagg caagggctga 3241 ctacatgacg gctttaactt tacagaaaca agtttctgat cgctacatgg cagaagtatt 3301 agcaacttga ttttagggac tcatcatctc tttagctcct tccctttctg gcaattttta 3361 taaaactagc ctacaagctc acttgggggc taaatatccc attgaaaatg tcgaaacatt 3421 ttaagtaact gtgaaatggt ttttattcct tgccaatctg ggaatatgcc ttttatgtat 3481 gcatacatgt gcaagtgtgt acgtgtgtgt gtgtgtgtgt gtgtgtatgt atgtgtgtgt 3541 atgtgtgtat atatatgtgt gtatgttaaa gtgctgtatt agtgtgtatg tgtgtgtgta 3601 tatgtaaagt gctgtgttag tgtgtgttaa tactttttga aagaaaagaa cacttaaaat 3661 atgtatcacc ccaaaagttc aatttgaaat gtcttacatt aagaatttct tgaatgttgt 3721 gtatatattt ttaaaagcac tttgtgaaat agtttgtaca tttatttcct aatttatacc 3781 tgattttggt gttaatatat ttaatgatta atattgttta tttaatgttt tattgatttt 3841 tatgtaattt tgtgggggaa agtgatgcca gtctttttca ttgcctgtat tatagctttt 3901 cttctgtaac atgaatgttt gaaaagtcct aggctgaaat gaacccttcg tgcaggtgtg 3961 gttgactgtg ttttgttttc aatggttcct cctactgaag gccagaaaag atgcaaaggg 4021 agatttggaa atcgctgctc attcttcctc ctgtttccca gcatccgttc aatacttggt 4081 gaacttgacc actgaggact ggggttttca gatgtgctga ccactacgcg ctgcgcttgt 4141 caggggctat gggtggatgg acatctctgc agacttagca tatagcacag tgggagatgg 4201 gagatgtccg cagaggcact gggcagacac aggcctggcc cagaaaggag gtgttttcct 4261 ttcctgttgt acctgttctc agacgtgggc ttcagtgact gagtgtccgt tcaaacttgt 4321 aaaaagagga agactttcca tttccattaa aacacttttt tagccattaa aaaaaaaaaa 4381 aaaaaaaaaa aaaaa SEQ ID NO: 224 Mouse SS18L1 Amino Acid Sequence (NP_848865.4) 1 msvafasarp rgkgevtqqt igkmldenhh liqcildyqs kgktaectqy qqilhrnlvy 61 latiadsnqn mqsllpappt qnmnlgpgal sqsgssqglh pqgslsdtvs tglppaslmq 121 gqigngpnhv smqqtagstl pttsmslsgs ghgtgpgysh sgptsqsvpm qgqgaisnyv 181 srtninmqsn pvsmmhqqaa tshynsaqgg sqhyqgqapi ammgqggqgg smmgqrpmap 241 yrpsqqgssq qylgqeeyys eqyshsggsa epmsqqyypd ghgdyayqqs syteqsydrs 301 fedptqhyye ggnsgysqqq agyqqgtagq qtysqqqypn qqsypgqqqg ygpaqgapsq 361 yssyqqgqgq qygsyrtsqt gpsaqqqrpy gyeqgqygny qg SEQ ID NO: 225 Human GLTSCR1 cDNA Sequence (NM_015711.3; CDS: 195-4877) 1 gcgcggccag agcggccggg gacaggctcc gaggcaggcc cgacccgcct ccccggcgcc 61 gccgtggctc gacggagacc agctaggctg gcccccaaga ggaccctttc caagtcccca 121 gctgggggcc ctgtgtagac ctggagtgga cacgcccctc cttcccttca tgattcgttt 181 gtagcgcagt ggcgatggat gatgaggatg ggagatgctt actagacgtg atttgtgacc 241 cacaggccct caatgacttc ttgcatggat ccgagaagct tgacagtgat gacctcctgg 301 ataatcccgg ggaggcccaa agtgccttct atgaaggtcc tgggctccat gtgcaagaag 361 cttccggcaa ccacctgaac ccagagccca accagccggc ccccagtgtg gacctagact 421 tcctggaaga tgacatcctg ggctctcctg cgacaggggg cggcggcggg ggcagtgggg 481 gcgctgacca gccctgtgac atcctccagc agagcctcca agaggccaac atcacggagc 541 agacgctgga ggccgaggct gagctggacc tgggtccctt ccagctgccc accctgcagc 601 ctgcggatgg cggggcaggc ccgacgggcg ctggaggggc agcggccgtg gctgcggggc 661 cccaagccct cttcccaggc agcaccgacc tgctggggct gcagggcccg cctaccgtgc 721 tgacccacca ggccctggtg ccgccccagg acgtggtcaa caaggccctg agtgtgcagc 781 ccttcctgca gcctgtgggc ctgggcaatg tgacactgca gcccatcccg ggcctccaag 841 gcctgcccaa tggcagccct gggggtgcca cggcggccac actgggcctg gcgcccatcc 901 aggtggtggg ccagcccgtc atggcgctca acacgcccac ctcccagctc ctggccaagc 961 aggtgcccgt cagcggctac ctggcctcgg cggctggccc ctcggagccc gtgacgctgg 1021 cgtcggccgg tgtctcgcca cagggggctg gcctggtcat ccagaagaac ctctcggccg 1081 ctgtggccac cacgctcaat gggaactctg tgttcggagg cgcgggggcc gcctcggctc 1141 ccaccgggac gccctcggga cagccgctgg cggtggcccc aggcctcggc tcgtcgccac 1201 tggtcccggc gcccaacgtg atcctgcatc gcacacccac gcccatccag cccaagcccg 1261 cgggggtgct gccgcccaag ctctaccagc tgacgcccaa gccgtttgcg cccgcgggcg 1321 ccacgctcac catccagggc gagccggggg cgctcccgca gcagcccaag gccccgcaga 1381 acctgacgtt catggcggcg gggaaggcgg gccagaacgt ggtgctgtcg ggcttccccg 1441 cgcctgcgct gcaagcgaac gtcttcaagc agccaccggc caccaccacc ggagcggccc 1501 cgccgcagcc ccccggggcc ctgagcaaac ccatgagcgt ccacctcctg aaccaaggca 1561 gcagcatcgt catccccgcc cagcacatgc tgccgggcca gaaccagttc ctactgcctg 1621 gcgccccggc ggtccagctc ccgcagcagc tctcagccct gccggccaac gtgggcgggc 1681 agatcctggc ggccgctgcc ccccacacag gtggacagct catcgcgaac cccatcctca 1741 caaaccagaa cctggcgggc ccactgagcc tgggccccgt gttggccccc cactccgggg 1801 cccacagcgc gcacatcctc tccgccgctc ccatccaggt gggccagcct gcgctcttcc 1861 agatgcccgt gtcgctggcg gcgggcagcc tgcccacgca gagccagcca gcgcccgccg 1921 ggccggccgc caccactgtc ctccaggggg tcaccctgcc ccccagcgcc gtggccatgc 1981 tcaacacccc cgacggcctg gtgcagccgg ccacccctgc cgctgccacc ggggaggccg 2041 cgcctgtcct cacggtgcag cctgcccccc aggcgccccc cgcggtcagc acacccctgc 2101 ccctgggcct ccagcagccg caggcgcagc agcccccgca ggcccccacc ccacaggccg 2161 ccgccccgcc tcaggccacc accccccagc ccagccctgg cctggcgtct agcccggaga 2221 agatcgtcct ggggcagccg ccctctgcca cccccacggc catcctcact caggactccc 2281 tgcagatgtt cctgccccag gagaggagcc agcagcccct ctccgcagag ggcccccacc 2341 tctccgtgcc tgcctcggtc atagtcagcg ccccgcctcc cgcccaagac ccagccccag 2401 ccacccccgt cgccaaagga gctggcctcg gccctcaggc ccccgacagc caggcttccc 2461 cggctccggc cccccagatc ccggcagcgg ctccgctgaa gggcccaggc ccctcttcgt 2521 ccccgtcact acctcaccag gcccctctgg gggacagccc ccacctgccc tccccacacc 2581 ccacccggcc cccttcccgc ccaccctccc ggccacagag tgtgtcccgc cctccctcag 2641 agccaccctt gcacccttgc cccccacccc aggccccccc aactctgcct ggcatctttg 2701 tcatccaaaa ccagctaggc gttcccccgc ctgccagcaa cccggcccct actgccccag 2761 gcccgccgca gccgcctctc cgcccccagt cccagccgcc tgagggaccg ctgcccccag 2821 ccccccacct ccctccatcc tccacctcct ctgctgtggc ctcctcctct gagacgtcct 2881 ccaggttgcc agcccctacg ccatccgact tccagctcca gttcccaccc agccaggggc 2941 cccacaagtc ccccactccc cctccaaccc tccacctggt ccctgagccg gcagcacccc 3001 ccccaccgcc tcctcggacc ttccagatgg tgaccacccc cttcccagcg ctgccccagc 3061 cgaaggctct tctcgagaga tttcaccagg tgccgtccgg aatcatcctc cagaacaagg 3121 ctgggggggc ccctgccgcc ccgcagacct ccaccagcct ggggcccctc accagccccg 3181 ctgcgtctgt gctggtcagt gggcaggccc catctgggac ccccactgcc cccagccacg 3241 cccccgcccc ggcacccatg gccgccacag gcctccctcc tctgcttcca gccgagaaca 3301 aggcttttgc cagcaacctc ccgaccctga atgtggccaa ggccgcttcc tccgggccag 3361 ggaagccctc cgggctgcag tatgagagca aactgagtgg cctgaagaag ccccccacgc 3421 ttcagcccag caaggaagcc tgtttcctgg agcatttgca caaacaccag ggctccgtcc 3481 tgcaccccga ctacaagacg gccttcccct cctttgagga cgccctgcat cgcctcctgc 3541 cctaccatgt ctaccagggc gccctcccct cccccagtga ctaccacaaa gtggacgagg 3601 agtttgagac ggtctccacg cagctgctga aacgcaccca ggccatgctc aataaatatc 3661 ggctcctgct cctggaggag tcccggaggg tgagcccctc agcggagatg gtaatgatcg 3721 accgaatgtt cattcaggag gagaagacca cccttgcctt ggataaacag ctggccaagg 3781 agaagccgga cgagtacgtg tcttcctccc gctcgctcgg cctccccatc gcagcctctt 3841 ccgagggtca tcggcttccc ggccacggcc ccctgtcgtc ttcagctccc ggggcctcca 3901 cccagccccc tccacacctg cccaccaagc ttgtgatccg gcacggcggg gcaggcggct 3961 ccccttcggt cacctgggcc cgggcgtcct cctccctgtc ctcctcttcc tcctcctcct 4021 ctgccgcctc ctccttggac gccgacgagg acggccccat gccctcccgc aaccgcccgc 4081 ccatcaagac ctacgaggcc cggagccgca tcgggctcaa gctcaagatc aagcaggaag 4141 ccgggctcag caaggtcgtg cacaacacgg ccctggaccc cgtgcaccag cccccgccac 4201 cccccgctac cctcaaggtg gccgagcccc cgccacggcc gccaccacca ccgccgccca 4261 cgggccagat gaacggcacg gtggaccacc cgccgcctgc cgcccccgag cgcaagcccc 4321 tgggcaccgc cccgcactgc ccgcgcctgc cactgcgcaa gacctaccgc gagaacgtgg 4381 ggggccctgg cgcgccggag gggacgcccg caggcagggc acggggaggc agcccggcgc 4441 cgctgcccgc caaagtggac gaggccacca gcgggctcat ccgcgagctg gcggccgtgg 4501 aggacgagct gtaccagcgt atgctgaagg gccccccgcc agagcccgca gccagcgccg 4561 cccaaggcac cggggacccc gactgggagg cgcccgggct gccccctgcc aagcggcgca 4621 agtccgagtc gcccgacgtg gaccaggcca gcttctccag cgacagcccg caggatgaca 4681 cgctcaccga gcacctgcag agcgccatcg acagcatcct gaacctgcag caggcccccg 4741 gccggacgcc cgcgccctcg tacccccacg ctgcctcggc cggcaccccc gcatccccgc 4801 cgcccctgca caggcccgag gcctacccac cctccagtca caacggtggc ctcggcgcca 4861 ggacgttgac cagataacac cgggccgcct ccccttcccc gtcccctcct cccgaagacg 4921 ccgggacagt cgggtgtccg ccctcagcct cctggggact cgagccgggg atcccctgac 4981 ggtttttctt gcctaagtta tttgagtcac aaaggcctcc ttccctgccg cctgcttcag 5041 ctgggttgct ggggggtggg cgtggattta gggagggggc tgtgatgtaa aacgtctccc 5101 ctgccaaagg aggggcaaag tgctgtgtca gttcctgttt cttcccattt cctggcacac 5161 tctgcccctc tgtccggggg acacgcgcat gtgtttgcca gggatggggc caccgggttg 5221 atgccaacgc tccgggtgcc tgtcttgtct gtgtggcttc tcagatggtg gagggtgctg 5281 ggagctggca gggtccttcc agacagtctc agcctctccc cgccgccccc aacaggctgt 5341 caaacaaaac cggagagggg gtgggggagc cagcctccca gcgtgctgtg cccgcaggca 5401 cccgtgtgac atccgcacgt ccagctccgt gacctgtgtg tgtgtgtgtg tgcacaagtg 5461 agtgagagat ttcgaacgcc cacccctcga ctttgaaatc tgagcaaaac aagaaactgg 5521 ggtcttcctc tcccccgaac ctctccccag ctagtcttcc ctctgttctt cctgcctcca 5581 gccgcccgcg ccagattttg aaatctcgga gacaaaacta gtactgtaag ataaattttt 5641 ttgtactgta tttattgtgt ataacgattt ttttaaagga gaattctgta catttagaac 5701 tcttgtaaat taaaaaccga tccttttttt aaaactgtaa a SEQ ID NO: 226 Human GLTSCR1 Amino Acid Sequence (NP_056526.3) 1 mddedgrcll dvicdpqaln dflhgsekld sddlldnpge aqsafyegpg lhvgeasgnh 61 lnpepngpap svdldfledd ilgspatggg gggsggadqp cdilqqslqe aniteqtlea 121 eaeldlgpfq lptlqpadgg agptgaggaa avaagpqalf pgstdllglq gpptvlthqa 181 lvppqdvvnk alsvqpflqp vglgnvtlqp ipglqglpng spggataatl glapiqvvgq 241 pvmalntpts qllakqvpvs gylasaagps epvtlasagv spqgaglviq knlsaavatt 301 lngnsvfgga gaasaptgtp sgqplavapg lgssplvpap nvilhrtptp iqpkpagvlp 361 pklyqltpkp fapagatlti qgepgalpqg pkapqnitfm aagkagqnvv lsgfpapalq 421 anvfkqppat ttgaappqpp galskpmsvh llnqgssivi paqhmlpgqn qfllpgapav 481 qlpqqlsalp anvggqilaa aaphtgggli anpiltnqnl agplslgpvl aphsgahsah 541 ilsaapiqvg qpalfqmpvs laagslptqs qpapagpaat tvlqgvtlpp savamlntpd 601 glvqpatpaa atgeaapvlt vqpapqappa vstplplglq qpqaqqppqa ptpqaaappq 661 attpqpspgl asspekivlg qppsatptai ltqdslqmfl pgersqqpls aegphlsvpa 721 svivsapppa qdpapatpva kgaglgpqap dsqaspapap qipaaaplkg pgpssspslp 781 hqaplgdsph lpsphptrpp srppsrpqsv srppsepplh pcpppqappt lpgifvignq 841 lgvpppasnp aptapgppqp plrpqsqppe gplppaphlp psstssavas ssetssrlpa 901 ptpsdfqlqf ppsqgphksp tppptlhlvp epaapppppp rtfqmvttpf palpqpkall 961 erfhqvpsgi ilqnkaggap aapqtstslg pltspaasvl vsgqapsgtp tapshapapa 1021 pmaatglppl lpaenkafas nlptlnvaka assgpgkpsg lgyesklsgl kkpptlqpsk 1081 eacflehlhk hqgsvlhpdy ktafpsfeda lhrllpyhvy qgalpspsdy hkvdeefetv 1141 stql1krtqa mlnkyrllll eesrrvspsa emvmidrmfi qeekttlald kqlakekpde 1201 yvsssrslgl piaasseghr lpghgplsss apgastqppp hlptklvirh ggaggspsvt 1261 warassslss ssssssaass ldadedgpmp srnrppikty earsriglkl kikqeaglsk 1321 vvhntaldpv hqpppppatl kvaeppprpp ppppptgqmn gtvdhpppaa perkplgtap 1381 hcprlplrkt yrenvggpga pegtpagrar ggspaplpak vdeatsglir elaavedely 1441 qrmlkgpppe paasaaqgtg dpdweapglp pakrrksesp dvdgasfssd spqddtlteh 1501 lqsaidsiln lqqapgrtpa psyphaasag tpasppplhr peayppsshn gglgartltr SEQ ID NO: 227 Mouse GLTSCR1 cDNA Sequence (NM_001081418.1; CDS: 108-4844) 1 gctggcccca caaaggacat tatcaaagtc cccagcctgg ggccctgtgt agacctggag 61 tggccaccgc acccttccct tcatgattcg ttcatagcac agtggaaatg gatgatgagg 121 atgggagatg cttactagac gtgatttgtg atcctcaggc cctcaatgat ttcttgcatg 181 gatccgagaa gctggacagc gatgacctcc tggatgcccc tgtggaggcc caaagtgcct 241 tctatgaagg tcctgggctc catgtgcagg aagctgccgc caaccaccta aaccctgagc 301 ccagccagcc tgcccccagc gtggacctgg acttcctaga agatgatatc ttgggctccc 361 ctgcagcagg aggaggtgga gggggcggcg gggccccaga ccagccctgt gacatccttc 421 agcagagtct tcaggaggcc aacatcacag aacagaccct ggaggctgag gctgaactgg 481 acctgggccc cttccagctg cccaccctac agcccgctga caatggggca ggtgctactg 541 gagccgcagg agccacggca gtgactgcag gaccccaggc tctcttccca ggcagcgcgg 601 atctgctggg gctgcaagcc ccgcccactg tactgaccca ccaggccctg gtgccacccc 661 aggatgtggt caacaaggcc ttgagcgtcc agcccttcct gcagcctgtg ggcctgggca 721 atgtgaccct tcagcccatt tcaggcctcc agggccttcc caatggcagt cctgggaatg 781 ctgcagcagc caccttgggt ctgacaccta ttcaagtggt gggccagccc gtcatggctc 841 tcaacccacc cacctcccag ctcttggcaa agcaggtacc tgtcagtggc tacctggcct 901 cagcagctgg tccttcagag ccagtgacac tggcatctgc cggcgtgtcc ccccagggag 961 ccggcctggt catccagaaa aatcttccag ccgcagtgac caccacactc aacgggaact 1021 cggtgtttgc cgggacaggg gctgccactg cagcagccag tggggcaccc tcgggacagc 1081 cgctggcggt ggccccgggc cttggcacat caccactggt acaagcaccc agtgtgattt 1141 tacacagaac ccctacgcct atccagccca agcctacagg ggtcctgccc tccaaactct 1201 accagctgac acccaagccc tttcccccta ccggagccac ccttaccatc cagggtgaac 1261 caggcacctt gccccagcag cctaaggccc cccagaacct gacttttatg gccacgggca 1321 aagctggcca gaatgtggtg ctgtctggct tcccggcacc ggctttgcag gcgaatgtgt 1381 tcaagcagcc accagtcacc accacgggga cagccccgcc acagccacca ggggccctca 1441 gcaaacccat gagcgtccac ctcctcaatc aaggcagcag catcgtgatc ccagcccagc 1501 acatgctgcc tggccagaac cagttcttgc tgccaggcac cccagccgta caactccctc 1561 agtcactctc tgcactgcct gccaacgtgg gaggccagat cctcacagct gcagcaccac 1621 acgcaggtgg acagctcatt gccaacccta tcctcaccaa ccagaacctg gcaggcccac 1681 tgagtctggg cccagtgctg gcaccccact ctggggcaca cagcgctgca cacatcctct 1741 ctgcagctcc catccaggtg ggccagcctg ccctcttcca gatgcctgtg tcactggcca 1801 ctggcagcct gcctactcag agccagccgg ctcccactgg ccccacagcc accaccgtcc 1861 tccagggcgt caccctgcct cccagtgctg tggccatgct taacacgcct gatgggctag 1921 tgcaaccctc cactccagct gccaccactg gggaggccac accagttctg gccgttcagc 1981 ctgcaaccca ggtgccccct gctgtcacca caccactgcc tatgggtctc caacagccac 2041 aggcacagca gcctccacag gtccctactc cacaggcggc cacccagcct caggccaccc 2101 ctcctcaggc cagcccaagc ctggcttcca gcccagagaa gatagtcctg gggcaggcgc 2161 cccctgcggc cacaacggcc atcctcactc aggattccct acagatgttc ctgccccagg 2221 agaggagcca gcagcccctc tctacagagg gtccccacct ctcggtgcct gcctccgtca 2281 tagtcagcgc cccgcctcct gcccaagacc cagccctggc cacgcccgtc accaaaggag 2341 ctggcctcgg cgctcagacc ccggacagcc gggcttcccc agctccggct ccccagatcc 2401 ctgcagctgc tccactgaaa gcccctggcc ccgcctcctc cccctcacta cctcaccagg 2461 cccccctggg agacagtccc cacatgccct ccccacaccc tgccaggccc ccttcccgcc 2521 caccctcaag accccactca cgccctccat cccagcccca gagcctgacc tgcccaccct 2581 ctgagcccac cctgcaccct tgccctccac cccagggtcc cccaactcta cctggcatct 2641 ttgtcatcca gaatcaattg ggcgccccac caccagccag caccccagcc tccacagccc 2701 cgggcccacc ccagcctcct ctgcgacccc catcccagcc tccagagggc ccactgcccc 2761 cagcctccca cctccctcct gcctccaccc cctcggccgt ggcctcctcc tctgagcctt 2821 ctgccaggtt gccggtcccc acaccccctg acttccaact ccagttccca ccgagccagg 2881 gaccccataa gtcccctact ccgccaccag ccctccacat ggtccctgag cccacggcac 2941 cccctcctcc accacctcgg accttccaga tggtaaccgc ccccttccca gcgttgcccc 3001 agccaaaagc acttctggaa cgattccacc aggtgccatc tgggattatt ctccagaata 3061 aggctggggg tactcccacc accccacaga catccaccac cctggggacc ctcaccggtc 3121 ctactgcctc tgtgctagtc agtggacagg caccacctgg gactcctgcc gcctctagcc 3181 atgtcccagc ctccacacct atggccacca caggcctccc tcctctactt cctgccgaaa 3241 acaaagcttt tgccagcaac cttccaaccc tgagtgtggc caaagctacc gtgtctgggc 3301 cagggaagcc cccagcaatt cagtatgaca gcaagttgtg tagcttgaag aaacagcccc 3361 tactgcaacc cagcaaagaa gcctgcttcc tggagcatct gcacaaacac cagggctctg 3421 tcctgcaccc cgattacaag acagccttcc cctcctttga ggacgccctc catcgcctcc 3481 tgccctacca tgtctaccaa ggcgccctcc cctcccccaa cgactaccat aaagtggatg 3541 aagaatttga gactgtctct acgcagctgc tcaaacgcac ccaggccatg ctcaataaat 3601 atcggctttt gcttctggaa gagtccagga gagtcagtcc ttctgcggag atggttatga 3661 tcgaccgaat gttcattcag gaggagaaga ccacccttgc cttggataag cagcttgcca 3721 aggagaagcc tgatgagtac gtgtcttcct cccgctccct tggcttccct gtcccagtgt 3781 cttccgaggg ccaccggctc cccagccatg gccagtcgtc ttcatcctcc acatctggaa 3841 cgtctgccca gccccctcct catctgccca ccaagctagt gatccggcac ggtggggccg 3901 gcggctctcc ctcagtgacc tgggcccggg catcctcctc cttgtcatcc acttcctcat 3961 cctcctcctc atcctctgct gcctcatccc tggacgcaga tgaggacggc cccatgccca 4021 cccgtaaccg gccacccatc aagacctatg aggcccggag ccgcattggt ctcaaactca 4081 agatcaaaca agaggcgggg ctcagcaagg tggtgcacaa cactgcactg gatcctgtgc 4141 atcagccctt gccggctcca accccagcga aaggggcgga gcctccgcca cacccagctc 4201 cgcccccact ccctcctgct acccaggcgc agatgaatgg cactctggac catcccccac 4261 ccgcagtacg caaacccacg gtgcctgcgt cctgcccacg tctaccacta cgcaagacct 4321 accgagaaaa catgggcaat cctggtgccg ccgagggtgc acagggacgg ccgcggggtg 4381 cgggcagccc caccccactg cccaccaagg tagacgaagc caccagtggg ctgatccggg 4441 agctggcagc ggtggaggat gaactatatc agcgggttct gaagggcggc ccaccacccc 4501 cggagactcc agcctccgct accagccagg gccccactga acccagttgg gaagcacccg 4561 tgctaccccc agccaaacga cgcaagtctg agtccccgga cgtggaccag gccagcttct 4621 ctagtgacag cccgcaggat gatacactta ctgagcattt gcagagtgcc atcgacagca 4681 tccttaacct gcagcaggcc cccggccgga cacccgcagg cccatacccc catacggggc 4741 ccacgcctgg cacccccaca tccccagcgc ccctgcacag gcctgacgcc ttcccaccct 4801 ctagtcacaa tggtggcctc ggtgccagga cgttgaacag ataacaccgg gctgcttctg 4861 cagccctcat agagtgcccc caaccccact tccaggagag cagcctgacc gccgacctcc 4921 acctctaagg ggcactaacc cagttcccct gacaattctt gcctaagtta ttttgagtca 4981 caaaggcctc cccaccttcc tgcttccacg ttggctagag atttggaatg gggcgtgggt 5041 tttctagggg aaggtgggct ataaggtaca acgtccccct ggcacaagcc aggacagggg 5101 atacatgagt gttgcctagg actgggcttc taggttgatg cactggtaac atctgaaaac 5161 aaggtcttgt ctgattggct tcgtggatca ctgtccgggg cactcagagc cgggagagat 5221 cttctgaaag gctcaactct catcctgttg cccacagagc ctgaaagatt aggaagcaag 5281 gactcaagcc agtgtcccaa agtacctaca tcccatccat acgtgcactc accggagtca 5341 tcctgtgtat gtgtgcgtgc SEQ ID NO: 228 Mouse GLTSCR1 Amino Acid Sequence (NP_001074887.1) 1 mddedgrcll dvicdpqaln dflhgsekld sddlldapve aqsafyegpg lhvqeaaanh 61 lnpepsgpap svdldfledd ilgspaaggg gggggapdqp cdilqqslqe aniteqtlea 121 eaeldlgpfq lptlqpadng agatgaagat avtagpqalf pgsadllglq apptvlthqa 181 lvppqdvvnk alsvqpflqp vglgnvtlqp isglqglpng spgnaaaatl gltpiqvvgq 241 pvmalnppts qllakqvpvs gylasaagps epvtlasagv spqgaglviq knlpaavttt 301 lngnsvfagt gaataaasga psgqplavap glgtsplvqa psvilhrtpt piqpkptgvl 361 psklyqltpk pfpptgatlt iqgepgtlpq qpkapqnitf matgkagqnv vlsgfpapal 421 qanvfkqppv tttgtappqp pgalskpmsv hllnqgssiv ipaqhmlpgq nqfllpgtpa 481 vqlpgslsal panvggqilt aaaphaggql ianpiltnqn lagplslgpv laphsgahsa 541 ahilsaapiq vgqpalfqmp vslatgslpt qsqpaptgpt attvlqgvtl ppsavamlnt 601 pdglvqpstp aattgeatpv lavgpatqvp pavttplpmg lqqpqaqqpp qvptpqaatq 661 pqatppqasp slasspekiv lgqappaatt ailtqdslqm flpqersqqp lstegphlsv 721 pasvivsapp paqdpalatp vtkgaglgaq tpdsraspap apqipaaapl kapgpassps 781 lphqaplgds phmpsphpar ppsrppsrph srppsqpqsl tcppseptlh pcpppqgppt 841 lpgifvignq lgapppastp astapgppqp plrppsqppe gplppashlp pastpsavas 901 ssepsarlpv ptppdfqlqf ppsqgphksp tpppalhmvp eptapppppp rtfqmvtapf 961 palpqpkall erfhqvpsgi ilqnkaggtp ttpqtsttlg tltgptasvl vsgqappgtp 1021 aasshvpast pmattglppl lpaenkafas nlptlsvaka tvsgpgkppa igydsklcsl 1081 kkqpllqpsk eacflehlhk hqgsvlhpdy ktafpsfeda lhrllpyhvy qgalpspndy 1141 hkvdeefetv stqllkrtqa mlnkyrllll eesrrvspsa emvmidrmfi qeekttlald 1201 kqlakekpde yvsssrslgf pvpvsseghr lpshgqssss stsgtsaqpp phlptklvir 1261 hggaggspsv twarasssls stssssssss aassldaded gpmptrnrpp iktyearsri 1321 glklkikqea glskvvhnta ldpvhqplpa ptpakgaepp phpappplpp atqaqmngtl 1381 dhpppavrkp tvpascprlp lrktyrenmg npgaaegaqg rprgagsptp lptkvdeats 1441 glirelaave delyqrvlkg gppppetpas atsqgpteps weapvlppak rrksespdvd 1501 qasfssdspq ddtltehlqs aidsilnlqq apgrtpagpy phtgptpgtp tspaplhrpd 1561 afppsshngg lgartlnr SEQ ID NO: 229 Human GLTSCR1L cDNA Sequence variant 1 (NM_001318819.1; CDS: 431-3670) 1 ccctgccctc cccgagctcg gtcccggcca ctccctccgc agctgggcgt cgccggccgc 61 gctggggcga gaaccgaagt ttggaggtag acgagcaggc gagcggtttg cccgggcgca 121 gagcatgaag gccgggcggg cgcggggagc ggcgccccgg cccggcgcgg gggtgagcga 181 gagagagagc ggagcgcgtg tggccggcgc cgctcggccg ggagctcccg cgctccggcc 241 cccggccccg cgcccgccgc cgccgccgcc gccgcccctg ttgcgatggc gcagaaaccc 301 cgttgacaag gcactgcttt ttcatgacgc aaaacgtcat attatttcac aaaaagccca 361 gcgatttcac ctgaagaagc ttgggaactc ctgccaaaaa ttgtagcact tctcacattg 421 caatgttgtc atggatgatg atgatgactc gtgtctcctt gatcttattg gagacccaca 481 agcattgaac tattttctac atggacctag taataaatct agcaatgatg acttgactaa 541 tgcaggatat tctgcagcca attcaaattc aattttcgcc aactctagta atgctgatcc 601 taagtcatcc ctcaaaggtg taagcaacca gcttggagaa gggcccagtg atggactgcc 661 actttcaagt agcctccagt ttcttgaaga tgaactcgag tcttctcctc ttcctgatct 721 cactgaggac caacctttcg acattcttca gaaatccttg caagaggcca atatcactga 781 acagacattg gcagaagagg catatttgga tgccagtata ggttcaagcc aacagtttgc 841 acaagctcag cttcatcctt cttcatcagc atcctttact caggcttcta atgtttctaa 901 ttactcaggt cagacgctgc agcctatagg ggtgacgcat gtgcctgttg gagcatcgtt 961 tgcaagcaat acagtgggtg tacaacatgg ctttatgcaa catgtgggga tcagtgttcc 1021 cagccagcat ttgtctaata gcagtcagat tagtggttct ggtcaaatac agttaattgg 1081 gtcatttggt aatcatcctt ccatgatgac tattaataac ctagatggat ctcaaatcat 1141 attaaagggc agcgggcagc aagccccatc aaatgtgagt ggagggctcc tggttcatag 1201 acagactcct aatggcaact ccttgtttgg gaactctagt tccagtccag tagcacagcc 1261 tgttaccgtt ccatttaaca gcacaaattt tcaaacatct ttacctgtgc ataacatcat 1321 catacaaagg ggtcttgcac caaattcaaa taaagtccca attaatatac agccaaagcc 1381 tatccagatg ggtcagcaaa atacatacaa tgtgaacaat ttgggaattc agcagcacca 1441 cgtacaacaa gggatctctt ttgcttctgc aagctcaccc cagggctcag tagttggtcc 1501 acacatgtct gtgaacattg taaaccaaca gaacacaaga aagccagtca cctcacaggc 1561 agtgagcagc actgggggca gtattgttat tcattccccc atgggccaac ctcacgcacc 1621 ccaaagtcag ttccttatac ctacaagcct ttctgtcagt tccaactcgg tacaccacgt 1681 ccagactata aatgggcaac ttcttcaaac tcaaccctct cagctcattt ctggccaagt 1741 ggcctcagag catgtcatgt tgaacagaaa ctcttccaac atgctcagga ccaaccaacc 1801 atatactgga ccgatgctta acaaccagaa tactgctgtc cacttagtgt ctgggcagac 1861 atttgctgcc tctggaagtc cagtgatagc caatcatgcc tctcctcagc ttgtgggtgg 1921 acagatgccc ttgcagcagg catccccaac tgtattacac ctgtcacctg ggcagagcag 1981 cgtttcccaa ggaagacctg gcttcgccac catgccatcg gtgacaagca tgtcaggacc 2041 tagtcggttc cctgctgtca gctcagccag cactgcccat cctagtcttg ggtctgcagt 2101 tcagtctggt tcatcaggat caaactttac aggagatcag ctgacccagc caaacaggac 2161 tccagtacca gtcagtgtgt ctcatcgtct tccagtttct tcttccaagt ctaccagcac 2221 cttcagtaac acacctggaa caggaaccca gcaacaattc ttctgccagg ctcagaaaaa 2281 atgtctgaat cagacttccc ccatttctgc tcccaagacc acagacggcc tgaggcaagc 2341 acagatccct gggctcttga gcaccacact gccagggcag gattctggaa gcaaagttat 2401 atccgcatcc ttaggaaccg cacaaccaca gcaggaaaaa gtagttggat catctcctgg 2461 ccatccagct gtgcaggtgg agagtcattc gggaggacaa aaaaggcctg ctgcgaaaca 2521 gctaacgaaa ggagctttca ttctccagca gttgcagagg gaccaagccc acactgtgac 2581 accagacaaa agtcacttcc gatcactaag tgatgcggta cagagactgc tctcctacca 2641 cgtgtgccag ggctccatgc ccactgaaga agacttgaga aaagtggaca atgaatttga 2701 gacagttgcc actcagctcc taaaaaggac ccaagctatg cttaacaaat acagatgcct 2761 gctcctagaa gatgccatgc gaatcaatcc ctctgctgag atggtgatga tcgataggat 2821 gttcaaccag gaggaaagag cttccctgtc ccgagacaag cgtttggcac ttgtagaccc 2881 tgagggtttt caggctgatt tctgttgttc cttcaaactt gataaagctg ctcatgagac 2941 acagtttggc cggagtgacc agcatggcag taaagcaagc agctctctgc aaccgccagc 3001 caaggcccaa ggcagagacc gagccaaaac cggtgtgacg gaacccatga atcatgacca 3061 gtttcatcta gtgcctaatc acatcgtggt ctctgcagaa ggaaacattt ctaaaaaaac 3121 agaatgcctt ggcagagcac tgaaatttga caaagtgggc ttagtgcagt accagagcac 3181 gtctgaagag aaggccagcc ggagagagcc tctgaaggcc agtcagtgct ctcccggccc 3241 tgaggggcac cggaaaacct catccagatc ggatcatggt actgagagca aactgtcaag 3301 catcctagca gattcgcact tggagatgac gtgtaacaat tccttccagg acaaaagtct 3361 gaggaattct ccaaagaatg aagttttaca cacagacatc atgaaagggt caggcgaacc 3421 ccagccagat ctccagctga caaagagctt ggaaaccaca tttaagaaca tcttggaact 3481 caaaaaggcg ggacggcagc cccagagtga ccccacggtt agcggctctg ttgagttaga 3541 tttccccaac ttttctccta tggcttcaca ggaaaactgc ctggaaaagt tcatcccgga 3601 ccacagtgaa ggtgttgtag aaactgactc cattttagaa gcagctgtaa atagtatcct 3661 agagtgttaa tagcagcagt cctcccccta ccccgccccg agaccccacc ccgagacccc 3721 accccggacc agttacattc gttcctggca aaagcaaatg gaaatggtct cctgtctcca 3781 gcctgcttga tctttcatca caggttattc tttctaatct caatcctgtt ctttgtttaa 3841 gagcaatact tgtcgtgatt acagggagat cctttagtaa aattaatcct tggcagaaag 3901 cagtctgata ggccccactc atttcaagtg ttatgaaagt gcttataggc attttgttta 3961 tttgttttgt tttttaaaaa cactgtaact caatgagacc acagtatact tggcccttgg 4021 taaaattttg acaatcataa gtcatttgaa aagaacagac ttactaaaat caaacgagac 4081 ggatagaagc tactttttaa agaatatccc actgcatctg caaatttagt tttgggtttt 4141 tttattatta ttattttgag tttttttgtg tgtgttttgt tgttattgtt gaggggaaga 4201 ccacatggtt cttccccctc agccatcttt gagcagtaaa ttgctggctg tgctgccagg 4261 gacccgcagc cctggtggaa aagccagtag cacatacgca gggcattgca gggcttccct 4321 attgatggtt caagtgcttt tctgatgctt ccggagcaaa acctcatgct tttaggcata 4381 tctatgttga atttcaccta gggaatgttc tgttcttagt tacagcagca aaatttgaaa 4441 taatttcacc aggctaaata aaggaaaatg gaaaccagtt aagaggcaca gtgtacagag 4501 gaggccggga tagagccatg agggttataa tattaatatg tatatatgta aaagcatata 4561 tatgttaact attgagaaaa aacaagtttt gcattttata attggatata gtcaacatat 4621 aatgtatgtt tttgtttgtt gctggatttt gtttcattta acctctcttt gcaccctctc 4681 ccacaacaaa taccaagcat caaaagcact ttcatttgaa aattattatg ttgtaatttt 4741 tcagtttaaa ctttaaggag actctggcct tgtttatgct tcttgtctga gaacagtagt 4801 gacccctggc agcaattcat taccaaaaca cagacaaacc aaaggtaacc agctagccca 4861 ccactgaaag gaaagatctg agacatggga ttcccatttg agagccaaag gatatgccct 4921 gtcatggttt ctgtttggcc tgtgttcata ttagtgagca tggcttactg ctttatttat 4981 ttttatttct tgtcagggag tattctccgt tttcctttct cgtatacctg ccccaggtta 5041 tcccatttct gttgttacct ttattcttaa tgtcattgta accatcactt atctcctctc 5101 attgggaaag ctacatgata gtatttttat gcactcttct cccacacata cacacacgtg 5161 catgtatctg agctgctcgg atccagaggt catttttgtt acagtgtgtg cacactcact 5221 ctccttctta gtgtgcatac tctctcattt attctgttta tctccctggc tctggaggtg 5281 cagccactgg tcttcacttt aatgtgttgc cagaatctgc ttctggctgt cgccaacatg 5341 gggatgaccc ccattgtcat catgttgggc atttcttttc cagattggcc tgtgatggaa 5401 aggaaggctt ctaattagaa aacacagcaa cagaagacct ataccccggt gcccctgtgt 5461 cccactacac acagaaaacc ctgtgagatg gccagtcttc ataatagcaa cgtaccttca 5521 ccccagccac atgccccagc caatacaaat tggaaaatct ggcccatttt agggttacca 5581 ttttttcctt atttgtgcca atgtccaagt tgcagatttc ccctttttcc tgtattgtaa 5641 catattagat aagttggtgt cgccagttgg tactttctgt ttgggtagtc ctagggtaac 5701 accctgccct aaactccatg atttcatagg cttttcttcc cttggggctc atgctcccct 5761 aattcctagc aagatgatcc ttcctaatca aattcttctc attgcagaac tttatccctg 5821 gaagccttca tgtgggctgc tagtgagtta cattaattac tgcaaatcag tggaattctc 5881 aagagacaag ataagcttca tgtacatttg tcacctctct ttcttcccta tcctgccctg 5941 ctgtcccaat cctagctttt ctatatacca tcctaaaggg tttttaagcc ctaacacttg 6001 tctagcaaat ggagagccta atttaccaaa atgaaacttg taaatttttg tgtcattgta 6061 tgtaagttta ctttttatgg aggaaggatt ctagataatg acaaatgaag attatgacat 6121 gtatttcact cctgtgatta ggttctacgc acatgggtca taactcgcat gtcgagcccc 6181 ctctagtgaa gggtaggaga gctcagcctc ggatggccaa cattcagttg ttcaggttca 6241 ttcgtcaaag ttaagtttta gaactatttg tactcagtaa caaaaatcat tttctttttt 6301 tttttttttt tctgttgtgg aaaagcgtga atttgttatt aagcatttga ttttctgtgt 6361 ccttaagtac ttcctgaaga tgaagcaaaa ttttaatctg gcaattatga aaaagaaata 6421 ttttagctct gaaggattta gtagattctg ttagattagg gaggccttac agactgactt 6481 tacttaaaga ggacgcgtca ctcgctgtca gtgtggtgtg ggctttattt gcttaaatac 6541 cttcatttgt atagtacgtc tcacttgaaa ttgctttgta tacattttgt aaaaatattt 6601 ataaaatgtt ttgtaaaaaa aaaaaaacta taacaaattg cagtttattt tgttatgttg 6661 gataaatact gttaaaagaa accagtcagt aactatattg ttaatccatg gttaggaaat 6721 gtttagttgg agattacaaa ttgaaacaac cattgcaata cagccaaaga tttgggaaaa 6781 tgtg SEQ ID NO: 230 Human GLTSCR1L cDNA Sequence variant 2 (NM_015349.2; CDS: 164-3403) 1 ggcatctttt caggatttca ttcctacgtc caactgccgt tcacaactgc cctttccaac 61 tgctccagaa ctcttggccc tggcattccg tgatgtaaat tattccacac atggctcaaa 121 agggtgtgaa gctgtgtgcc aggtgtcgga tcactagttt gtcatggatg atgatgatga 181 ctcgtgtctc cttgatctta ttggagaccc acaagcattg aactattttc tacatggacc 241 tagtaataaa tctagcaatg atgacttgac taatgcagga tattctgcag ccaattcaaa 301 ttcaattttc gccaactcta gtaatgctga tcctaagtca tccctcaaag gtgtaagcaa 361 ccagcttgga gaagggccca gtgatggact gccactttca agtagcctcc agtttcttga 421 agatgaactc gagtcttctc ctcttcctga tctcactgag gaccaacctt tcgacattct 481 tcagaaatcc ttgcaagagg ccaatatcac tgaacagaca ttggcagaag aggcatattt 541 ggatgccagt ataggttcaa gccaacagtt tgcacaagct cagcttcatc cttcttcatc 601 agcatccttt actcaggctt ctaatgtttc taattactca ggtcagacgc tgcagcctat 661 aggggtgacg catgtgcctg ttggagcatc gtttgcaagc aatacagtgg gtgtacaaca 721 tggctttatg caacatgtgg ggatcagtgt tcccagccag catttgtcta atagcagtca 781 gattagtggt tctggtcaaa tacagttaat tgggtcattt ggtaatcatc cttccatgat 841 gactattaat aacctagatg gatctcaaat catattaaag ggcagcgggc agcaagcccc 901 atcaaatgtg agtggagggc tcctggttca tagacagact cctaatggca actccttgtt 961 tgggaactct agttccagtc cagtagcaca gcctgttacc gttccattta acagcacaaa 1021 ttttcaaaca tctttacctg tgcataacat catcatacaa aggggtcttg caccaaattc 1081 aaataaagtc ccaattaata tacagccaaa gcctatccag atgggtcagc aaaatacata 1141 caatgtgaac aatttgggaa ttcagcagca ccacgtacaa caagggatct cttttgcttc 1201 tgcaagctca ccccagggct cagtagttgg tccacacatg tctgtgaaca ttgtaaacca 1261 acagaacaca agaaagccag tcacctcaca ggcagtgagc agcactgggg gcagtattgt 1321 tattcattcc cccatgggcc aacctcacgc accccaaagt cagttcctta tacctacaag 1381 cctttctgtc agttccaact cggtacacca cgtccagact ataaatgggc aacttcttca 1441 aactcaaccc tctcagctca tttctggcca agtggcctca gagcatgtca tgttgaacag 1501 aaactcttcc aacatgctca ggaccaacca accatatact ggaccgatgc ttaacaacca 1561 gaatactgct gtccacttag tgtctgggca gacatttgct gcctctggaa gtccagtgat 1621 agccaatcat gcctctcctc agcttgtggg tggacagatg cccttgcagc aggcatcccc 1681 aactgtatta cacctgtcac ctgggcagag cagcgtttcc caaggaagac ctggcttcgc 1741 caccatgcca tcggtgacaa gcatgtcagg acctagtcgg ttccctgctg tcagctcagc 1801 cagcactgcc catcctagtc ttgggtctgc agttcagtct ggttcatcag gatcaaactt 1861 tacaggagat cagctgaccc agccaaacag gactccagta ccagtcagtg tgtctcatcg 1921 tcttccagtt tcttcttcca agtctaccag caccttcagt aacacacctg gaacaggaac 1981 ccagcaacaa ttcttctgcc aggctcagaa aaaatgtctg aatcagactt cccccatttc 2041 tgctcccaag accacagacg gcctgaggca agcacagatc cctgggctct tgagcaccac 2101 actgccaggg caggattctg gaagcaaagt tatatccgca tccttaggaa ccgcacaacc 2161 acagcaggaa aaagtagttg gatcatctcc tggccatcca gctgtgcagg tggagagtca 2221 ttcgggagga caaaaaaggc ctgctgcgaa acagctaacg aaaggagctt tcattctcca 2281 gcagttgcag agggaccaag cccacactgt gacaccagac aaaagtcact tccgatcact 2341 aagtgatgcg gtacagagac tgctctccta ccacgtgtgc cagggctcca tgcccactga 2401 agaagacttg agaaaagtgg acaatgaatt tgagacagtt gccactcagc tcctaaaaag 2461 gacccaagct atgcttaaca aatacagatg cctgctccta gaagatgcca tgcgaatcaa 2521 tccctctgct gagatggtga tgatcgatag gatgttcaac caggaggaaa gagcttccct 2581 gtcccgagac aagcgtttgg cacttgtaga ccctgagggt tttcaggctg atttctgttg 2641 ttccttcaaa cttgataaag ctgctcatga gacacagttt ggccggagtg accagcatgg 2701 cagtaaagca agcagctctc tgcaaccgcc agccaaggcc caaggcagag accgagccaa 2761 aaccggtgtg acggaaccca tgaatcatga ccagtttcat ctagtgccta atcacatcgt 2821 ggtctctgca gaaggaaaca tttctaaaaa aacagaatgc cttggcagag cactgaaatt 2881 tgacaaagtg ggcttagtgc agtaccagag cacgtctgaa gagaaggcca gccggagaga 2941 gcctctgaag gccagtcagt gctctcccgg ccctgagggg caccggaaaa cctcatccag 3001 atcggatcat ggtactgaga gcaaactgtc aagcatccta gcagattcgc acttggagat 3061 gacgtgtaac aattccttcc aggacaaaag tctgaggaat tctccaaaga atgaagtttt 3121 acacacagac atcatgaaag ggtcaggcga accccagcca gatctccagc tgacaaagag 3181 cttggaaacc acatttaaga acatcttgga actcaaaaag gcgggacggc agccccagag 3241 tgaccccacg gttagcggct ctgttgagtt agatttcccc aacttttctc ctatggcttc 3301 acaggaaaac tgcctggaaa agttcatccc ggaccacagt gaaggtgttg tagaaactga 3361 ctccatttta gaagcagctg taaatagtat cctagagtgt taatagcagc agtcctcccc 3421 ctaccccgcc ccgagacccc accccgagac cccaccccgg accagttaca ttcgttcctg 3481 gcaaaagcaa atggaaatgg tctcctgtct ccagcctgct tgatctttca tcacaggtta 3541 ttctttctaa tctcaatcct gttctttgtt taagagcaat acttgtcgtg attacaggga 3601 gatcctttag taaaattaat ccttggcaga aagcagtctg ataggcccca ctcatttcaa 3661 gtgttatgaa agtgcttata ggcattttgt ttatttgttt tgttttttaa aaacactgta 3721 actcaatgag accacagtat acttggccct tggtaaaatt ttgacaatca taagtcattt 3781 gaaaagaaca gacttactaa aatcaaacga gacggataga agctactttt taaagaatat 3841 cccactgcat ctgcaaattt agttttgggt ttttttatta ttattatttt gagttttttt 3901 gtgtgtgttt tgttgttatt gttgagggga agaccacatg gttcttcccc ctcagccatc 3961 tttgagcagt aaattgctgg ctgtgctgcc agggacccgc agccctggtg gaaaagccag 4021 tagcacatac gcagggcatt gcagggcttc cctattgatg gttcaagtgc ttttctgatg 4081 cttccggagc aaaacctcat gcttttaggc atatctatgt tgaatttcac ctagggaatg 4141 ttctgttctt agttacagca gcaaaatttg aaataatttc accaggctaa ataaaggaaa 4201 atggaaacca gttaagaggc acagtgtaca gaggaggccg ggatagagcc atgagggtta 4261 taatattaat atgtatatat gtaaaagcat atatatgtta actattgaga aaaaacaagt 4321 tttgcatttt ataattggat atagtcaaca tataatgtat gtttttgttt gttgctggat 4381 tttgtttcat ttaacctctc tttgcaccct ctcccacaac aaataccaag catcaaaagc 4441 actttcattt gaaaattatt atgttgtaat ttttcagttt aaactttaag gagactctgg 4501 ccttgtttat gcttcttgtc tgagaacagt agtgacccct ggcagcaatt cattaccaaa 4561 acacagacaa accaaaggta accagctagc ccaccactga aaggaaagat ctgagacatg 4621 ggattcccat ttgagagcca aaggatatgc cctgtcatgg tttctgtttg gcctgtgttc 4681 atattagtga gcatggctta ctgctttatt tatttttatt tcttgtcagg gagtattctc 4741 cgttttcctt tctcgtatac ctgccccagg ttatcccatt tctgttgtta cctttattct 4801 taatgtcatt gtaaccatca cttatctcct ctcattggga aagctacatg atagtatttt 4861 tatgcactct tctcccacac atacacacac gtgcatgtat ctgagctgct cggatccaga 4921 ggtcattttt gttacagtgt gtgcacactc actctccttc ttagtgtgca tactctctca 4981 tttattctgt ttatctccct ggctctggag gtgcagccac tggtcttcac tttaatgtgt 5041 tgccagaatc tgcttctggc tgtcgccaac atggggatga cccccattgt catcatgttg 5101 ggcatttctt ttccagattg gcctgtgatg gaaaggaagg cttctaatta gaaaacacag 5161 caacagaaga cctatacccc ggtgcccctg tgtcccacta cacacagaaa accctgtgag 5221 atggccagtc ttcataatag caacgtacct tcaccccagc cacatgcccc agccaataca 5281 aattggaaaa tctggcccat tttagggtta ccattttttc cttatttgtg ccaatgtcca 5341 agttgcagat ttcccctttt tcctgtattg taacatatta gataagttgg tgtcgccagt 5401 tggtactttc tgtttgggta gtcctagggt aacaccctgc cctaaactcc atgatttcat 5461 aggcttttct tcccttgggg ctcatgctcc cctaattcct agcaagatga tccttcctaa 5521 tcaaattctt ctcattgcag aactttatcc ctggaagcct tcatgtgggc tgctagtgag 5581 ttacattaat tactgcaaat cagtggaatt ctcaagagac aagataagct tcatgtacat 5641 ttgtcacctc tctttcttcc ctatcctgcc ctgctgtccc aatcctagct tttctatata 5701 ccatcctaaa gggtttttaa gccctaacac ttgtctagca aatggagagc ctaatttacc 5761 aaaatgaaac ttgtaaattt ttgtgtcatt gtatgtaagt ttacttttta tggaggaagg 5821 attctagata atgacaaatg aagattatga catgtatttc actcctgtga ttaggttcta 5881 cgcacatggg tcataactcg catgtcgagc cccctctagt gaagggtagg agagctcagc 5941 ctcggatggc caacattcag ttgttcaggt tcattcgtca aagttaagtt ttagaactat 6001 ttgtactcag taacaaaaat cattttcttt tttttttttt ttttctgttg tggaaaagcg 6061 tgaatttgtt attaagcatt tgattttctg tgtccttaag tacttcctga agatgaagca 6121 aaattttaat ctggcaatta tgaaaaagaa atattttagc tctgaaggat ttagtagatt 6181 ctgttagatt agggaggcct tacagactga ctttacttaa agaggacgcg tcactcgctg 6241 tcagtgtggt gtgggcttta tttgcttaaa taccttcatt tgtatagtac gtctcacttg 6301 aaattgcttt gtatacattt tgtaaaaata tttataaaat gttttgtaaa aaaaaaaaaa 6361 ctataacaaa ttgcagttta ttttgttatg ttggataaat actgttaaaa gaaaccagtc 6421 agtaactata ttgttaatcc atggttagga aatgtttagt tggagattac aaattgaaac 6481 aaccattgca atacagccaa agatttggga aaatgtg SEQ ID NO: 231 Human GLTSCR1L Amino Acid Sequence (NP_001305748.1 and NP_056164.1) 1 mdddddscll dligdpqaln yflhgpsnks snddltnagy saansnsifa nssnadpkss 61 lkgvsnqlge gpsdglplss slqfledele ssplpdlted gpfdilqksl qeaniteqtl 121 aeeayldasi gssqqfaqaq lhpsssasft qasnvsnysg qtlqpigvth vpvgasfasn 181 tvgvqhgfmq hvgisvpsqh lsnssgisgs gqiqligsfg nhpsmmtinn ldgsqiilkg 241 sgqqapsnvs ggllvhrqtp ngnslfgnss sspvaqpvtv pfnstnfqts lpvhniiiqr 301 glapnsnkvp iniqpkpiqm gqqntynvnn lgiqqhhvgq gisfasassp qgsvvgphms 361 vnivnqqntr kpvtsgayss tggsivihsp mgqphapqsq fliptslsys snsvhhvqti 421 ngqllqtqps qlisgqvase hvmlnrnssn mlrtnqpytg pmlnnqntav hlvsgqtfaa 481 sgspvianha spqlvggqmp lqqasptvlh lspggssysq grpgfatmps vtsmsgpsrf 541 pavssastah pslgsavqsg ssgsnftgdq ltqpnrtpvp vsyshrlpvs sskststfsn 601 tpgtgtqqqf fcqaqkkcln qtspisapkt tdglrgagip gllsttlpgq dsgskvisas 661 lgtaqpqqek vvgsspghpa vgveshsggq krpaakqltk gafilqqlqr dqahtvtpdk 721 shfrslsdav qrllsyhvcq gsmpteedlr kvdnefetva tqllkrtqam lnkyrcllle 781 damrinpsae mvmidrmfnq eeraslsrdk rlalvdpegf qadfccsfkl dkaahetqfg 841 rsdqhgskas sslqppakaq grdraktgvt epmnhdqfhl vpnhivvsae gniskktecl 901 gralkfdkvg lvqyqstsee kasrreplka sqcspgpegh rktssrsdhg tesklssila 961 dshlemtcnn sfqdkslrns pknevlhtdi mkgsgepqpd lqltkslett fknilelkka 1021 grqpqsdptv sgsveldfpn fspmasqenc lekfipdhse gvvetdsile aavnsilec SEQ ID NO: 232 Mouse GLTSCR1L cDNA Sequence (NM_001100452.1; CDS: 423-3647) 1 ggggtctcat gtagcccagg ctggcctcaa ccttgtcatg taggcaaggg tagccttcac 61 ctcctgatcc tcctgtctct gccttccaac tcctgggatc aaggtgtttg ccagtgtgtc 121 tggcttgctt ggctatttgt ttatttactt atgagctgcg gtcttgctat tgtccaggct 181 gaccttgaac tcttggactc aagttccctt ccttactgag tcctacctga gtggccagga 241 ctactggcaa atgacactgt gcccaccagc cacaacattt ttcccatggt aggcttgata 301 ggtgactagg gaaagctccc gtgctgacag ttgtgtggag gctcagcgtg ctccactgca 361 tccatattgc tggccgccct gctccgactc actgcctccc tccctctctc cttgcagttg 421 tcatggatga tgacgatgac tcctgtctcc tcgatcttat tggagaccca caagcattga 481 actattttct gcacggacct agcagtaaat cgggcagcga tgatgtgacg aacgcagggt 541 attctgcagc caattctaat tcaattttcg ccaactccac gaacgctgac cctaaatcgg 601 ccctcaaagg tgtgagtgac cagcttgggg aggggcccag tgatgggctg ccgcttgcaa 661 gcagccttca gtttcttgaa gatgaacttg agtcttcacc tctccccgat ctcagcgagg 721 accaaccctt tgacattctt cagaaatcct tgcaggaggc taatatcact gaacagacat 781 tggcagaaga ggcgtacctg gatgccagta taggctcaag ccaacagttt gcacaagccc 841 agcttcatcc ttcttcatca gcatccttta ctcaggcttc taatgtttct aattactcag 901 gtcagacact gcagcctatc ggggtgactc acgtgcctgt tggagcatcg tttgcaagca 961 atacagtggg tgtgcagcat ggctttatgc aacacgtggg gatcagtgtt cccagccagc 1021 atttgcctaa cagcagccag attagtggct ccggtcagat acagttaatc gggtccttcg 1081 gtaatcagcc ttccatgatg actataaata acctcgatgg ctctcaaatc atactgaaag 1141 gcagtgggca gcaagcccca tctaatgtga gtggggggct tctggttcac agacagactc 1201 ctaacggcaa ctctctgttt gggaactcca cttccagtcc tgtagcacag cctgtcaccg 1261 ttccatttaa cagcacaaat ttccaggcat ctttacccgt gcataacatc attattcaaa 1321 ggggtcttgc accaaattca aataaagtcc caattaatat ccagccaaag ccggtccaga 1381 tgggtcagca gagcgcgtac aatgtgaaca accttgggat ccagcagcac catgcccagc 1441 aggggatctc cttcgccccc acaagctcgc cccagggctc cgtggttggg ccgcacatgt 1501 ctgtgaacat tgtcaaccaa cagaacacga gaaagcctgt cacctcgcag gcagtgagcg 1561 gcacaggggg cagcatcgtc atccattccc ccatgggcca gcctcacact ccccaaagtc 1621 agttccttat acccacaagc ctttctgtca gctccaactc ggtgcaccat gtccaggcta 1681 taaacgggca gctgcttcag actcagccct cccagctcat ctctggccaa gtggcctctg 1741 agcatgtcat gctgaacagg aattcctcta acatgctcag gaccaaccaa ccatattccg 1801 gacagatgct taataaccag aataccgccg tccagctggt gtctgggcag acttttgcca 1861 cctctggaag tccagtgata gtcaaccacg cctctcctca gatcgtcggg ggacagatgc 1921 ccttgcagca ggcctcaccc accgtgttac acctgtcacc tgggcagagc agtgtttccc 1981 agggaaggcc aggcttcgcc accatgcccg cggtgagcgg catggcagga cccgctcggt 2041 tccccgccgt cagctcagct agcactgctc atcctactct tgggcctacg gtgcagtcgg 2101 gggcaccggg atcaaacttt acgggagacc agctgacaca agccaacaga acgccagcgc 2161 ccgtcagtgt gtcccaccgt cttccagtct ctgcttccaa atcccccagc accttgagca 2221 acaccccggg gacacagcag cagttcttct gtcaggctca gaagaagtgt ttgaaccaga 2281 cctcccccat tcccacatcc aagaccacag acggcttgag gccatcacag atccctgggc 2341 tcttgagcac cgcactgcca ggacaggatt ctggaagcaa aattatgcca gcgaccttgg 2401 gggccacaca ggcacaacca gaaagctcag ttggatcatc cccgagccag acagctgtgc 2461 aggtggatag tcatccagga cagaaaaggc ctgctgccaa acagctgact aaaggagctt 2521 tcatcctcca gcagttacag agggaccaag cccatgctgt gacacccgac aaaagccagt 2581 tccggtcact aaatgacacg gtgcagagac tgctctccta ccacgtgtgc cagggctcca 2641 tgcccacgga ggaagacctg aggcaagtgg acaatgaatt tgaagaggtc gccactcagc 2701 tcctcaaaag gacccaagct atgctgaaca aatacagatt cctgctccta gaagacgcca 2761 tgaggatcaa cccctctgca gagatggtga tgattgacag gatgttcaac caggaggaaa 2821 gagcttccct gtcgagggac aagcgtctgg cgctcgtaga tcctgagggt tttcaggccg 2881 atttctgttg ttccttcaaa cttgacgaag ctgtacctga gaccccgctt gacaggagtg 2941 accagcatcg cagcaaaacc agctcgctcc atcaggtgcc cagggcccaa agcagagacc 3001 gagccaagcc aggcatggca gaagcaacga atcatgacca gtttcatcta gtgcctaacc 3061 acatcgtggt ctctgcagag ggaaacattt ctaaaaagtc agaaggccac agtagaacac 3121 tgaaatttga cagaggggtc ttaggccaat accggggtcc gcctgaggac aagggcggcc 3181 ggagggaccc tgccaaggtc agcaggtgct ctccgggccc cgagggccac cgcaaaagct 3241 tgcccaggcc agatcacggc tctgagagca agctccccgg cgtcctggcc agctcgcaca 3301 tggagatgcc ctgtctcgac tccttccagg acaaagcgct gaggaattcc ccaaagaatg 3361 aggttttaca cacagacatc atgaaagggt cgggtgagcc ccagccagat ctccagctca 3421 ccaagagcct agagaaaacc tttaagaaca tcctggaact caagaactcg gggcggccgc 3481 caagcgaccc tacggccagc ggtgcggcgg acctggactt ccccagcttt tctccaatgg 3541 cttcgcagga aaactgccta gaaaaattca tcccggacca cagtgaaggc gttgtagaaa 3601 cggactccat tttagaagca gctgtaaata gtattctaga gtgttaatag cagccgtcct 3661 cctccagacc ctgccccgga ccagttacac tctctcccag caaagcaaat ggaaacggct 3721 cccgtctgtc tccagcctgc ttggtcctcc atcacaggtt atcctttcta atctcaccct 3781 gttcttttga agagcaatac atgtcgtcat ggctgcgggg agacccctca gtacacccac 3841 ctctctctag aaagcagtcc gataggccct ccacatttca agtgttacga aagtgcttac 3901 ggccattgtt gttcgttaat ttgttttgtg gtttgtttct tagcactgtc gctcaagacc 3961 acagtacact tggccctggg taaaattttg acaatcataa gtcatttcaa aagaacagac 4021 ttattaaaga aaaatcaaac aggactgatt taaagacttt ctcactgcag ctccaaagta 4081 gtggtttggt tttgttctgt tccaggggga gagggtatct gcgtagggaa gactctccct 4141 gaccagcccg ctgagtggtg ggtagccggt gctctgcctg gaagcccacc gccctggcta 4201 agacgccagg agcacagcca cagagcatcc tcctgacatc cagtgctgtg cgatgctgca 4261 aaagcaaagc cttgtgtttg tcttcaacac attcgtgctg aattctgtct gagaatggtc 4321 tgttcttagc cccaggtgta cgccctgaaa ttctcacagg ctcactaggg aacagtggaa 4381 gtcagttgta aggcagcgag ttggggaggc accggggtct ccgtgtattc catcaactta 4441 aaagaggttt gcattttata attgggtgaa gtcaacataa cctatgttct ttattatcgc 4501 tgaattctgt tccattcaac ctcgttgtcc cctttccctc agcccttagc caagcatcaa 4561 aaggctttca cttaaaaact gtgttgtact ctttcagttg aggcttttga acgggactct 4621 ggccttgttc gtgagaatag tagtcaacag tatcagtcat tcattcccaa acacagtaaa 4681 ccaaaggtca caaccagcag gccactgaag gaaggaaccg aggcaggaga cagggggcca 4741 tgtcctggcc ccgcccccgc tgtgtgtggt ccagttcacc atagcgatcg agccttcctc 4801 tttattattt ttgttccttt ccgggagtgg ccctcatcct tccctctgtg cgggcctgca 4861 ccagggcgtg ttctgttgct acttgcttct tcctgtgtgg taatggccca cagtgctgtg 4921 tctgcaaccc tcctcccacg tctccatcaa cctctgggat ccagaggtag ctttgatgcc 4981 tgtgagggct tcctccctct gttcatcccc aggctgtgta aatgcatccg ttgatctcct 5041 ctgcttcgtt atacccccaa aatggagttg tccctatggt catcatgtag agtgtttctt 5101 ttccagattg gcctgcaatg gaaaggaagg cttttgattt tgatttttat ctttttttca 5161 cataacacag caacaatcta ggcatggtgg catacacctg taatcccaac agtcaggtga 5221 ctaaagcagg agagtcactg gttcaaggcc agcttgggct atataacaca cccctgcctc 5281 aaacacagaa ggagagaaat ttgagcaata gcagactgtg tgggcctttt ttacccctct 5341 gtccactaca caaaaaaact ctgtgagaca gccagtcttt gagagcgatg gaccttctcc 5401 cgcccacagc ccagccaacc aaactagaag agtctgggct gtcttcgagt tgtccttttc 5461 ttccttctct gtgccaatgt ccaagttgct gacttccttc ctgtattata acacattaga 5521 aagatgagtt gtttaccagt tagacctctg tctgggctgc cctgatctct ctgtcacagg 5581 ctcttctcat agccacatgg ttaccattca agatggcccc tggatgcctg cagcacatgg 5641 ctactaatga attactttaa ttattgcaaa tcagtggaat tctcaagaga caagaaagtc 5701 tcgtgtatat ttgttatctc ttccctccct ccccagcccc ggccctggcc ctagttttct 5761 ctcctgtgtg tcaggttaca gggcttctca ccatgacatt agtcccacac aaggagagcc 5821 tactgtacca aaatgaaact tgtaaatttt tgtgtccttg tatgtaagtt tactttttat 5881 ggaggaaaga ctctagataa tgacaaatga agattacaaa gtgtatttta ctcctgtgat 5941 taggttacac cacatgggtc ataactcact cccgagcccc cactgctgaa gggaagcgct 6001 ctgcctcagt ggccaacgtt ggtggttcag ggtcattagt cagttgagtt ctagaacgcg 6061 tgctcagtaa caaaaaaaaa aaatcacctt ttcttccctt tgtttttaat ccgtttgttg 6121 ttgtggaaaa gtatgaattt gttattacgc attgattttc tgtgtcctta agtactgcct 6181 aaagatgaag caaattttga actggcaatt acgataagga aaccctttag ttctggagac 6241 tttagtagac tctgttagat tagggaggcc tcacaggctg gccggctcca aggacggtca 6301 ctcactgtca gtgtggcgtg gctttatttg cttaaatacc ttcatttgta tagtatgtct 6361 cacttgaaat tgctttgtat acattttgta aaaatattta taaaatgttt tgtaaaaaaa 6421 aaaaaaagta taacaaattg cagtttattt tgttatgttg gataaatact gttaaaccag 6481 tcagtaccta tattgttaat ccatggttag ggtatgttca gttggagatt acaaaatgaa 6541 acaaccattg caatacagcc aaagatttgg gaaaacgtg SEQ ID NO: 233 Mouse GLTSCR1L Amino Acid Sequence (NP_001093922.1) 1 mdddddscll dligdpqaln yflhgpssks gsddvtnagy saansnsifa nstnadpksa 61 lkgvsdqlge gpsdglplas slqfledele ssplpdlsed gpfdilqksl qeanitegtl 121 aeeayldasi gssqqfaqaq lhpsssasft qasnvsnysg qtlqpigvth vpvgasfasn 181 tvgvqhgfmq hvgisvpsqh lpnssgisgs gqiqligsfg nqpsmmtinn ldgsqiilkg 241 sgqqapsnvs ggllvhrqtp ngnslfgnst sspvaqpvtv pfnstnfqas lpvhniiiqr 301 glapnsnkvp iniqpkpvqm gqqsaynvnn lgiqqhhaqq gisfaptssp qgsvvgphms 361 vnivnqqntr kpvtsgaysg tggsivihsp mgqphtpqsq fliptslsys snsvhhvqai 421 ngqllqtqps qlisgqvase hvmlnrnssn mlrtnqpysg qmlnnqntav qlvsgqtfat 481 sgspvivnha spqivggqmp lqqasptvlh lspggssysq grpgfatmpa vsgmagparf 541 pavssastah ptlgptvqsg apgsnftgdq ltqanrtpap vsyshrlpvs askspstlsn 601 tpgtqqqffc qaqkkclnqt spiptskttd glrpsqipgl lstalpgqds gskimpatlg 661 atqaqpessv gsspsqtavq vdshpgqkrp aakqltkgaf ilqqlqrdqa havtpdksqf 721 rslndtvqrl lsyhvcqgsm pteedlrqvd nefeevatql lkrtqamlnk yrfllledam 781 rinpsaemvm idrmfngeer aslsrdkrla lvdpegfqad fccsfkldea vpetpldrsd 841 qhrsktsslh qvpraqsrdr akpgmaeatn hdqfhlvpnh ivvsaegnis kkseghsrtl 901 kfdrgvlgqy rgppedkggr rdpakvsrcs pgpeghrksl prpdhgsesk lpgvlasshm 961 empcldsfqd kalrnspkne vlhtdimkgs gepqpdlqlt kslektfkni lelknsgrpp 1021 sdptasgaad ldfpsfspma sqenclekfi pdhsegvvet dsileaavns ilec SEQ ID NO: 234 Human BRD9 cDNA Sequence variant 1 (NM_023924.4; CDS: 168-1961) 1 ctgccgcggc cccgcctcgc cccgtttccg gcgcggccca gcgagctcgg caacctcggc 61 gcagcgagcg cgggcggcca gccagggcca gggggcggtg gcggccaagg tccgaccggg 121 tgccagctgt tcccagcccc cgcctcgggc ccgccgccgg cgccgccatg ggcaagaagc 181 acaagaagca caaggccgag tggcgctcgt cctacgagga ttatgccgac aagcccctgg 241 agaagcctct aaagctagtc ctgaaggtcg gaggaagtga agtgactgaa ctctcaggat 301 ccggccacga ctccagttac tatgatgaca ggtcagacca tgagcgagag aggcacaaag 361 aaaagaaaaa gaagaagaag aagaagtccg agaaggagaa gcatctggac gatgaggaaa 421 gaaggaagcg aaaggaagag aagaagcgga agcgagagag ggagcactgt gacacggagg 481 gagaggctga cgactttgat cctgggaaga aggtggaggt ggagccgccc ccagatcggc 541 cagtccgagc gtgccggaca cagccagccg aaaatgagag cacacctatt cagcaactcc 601 tggaacactt cctccgccag cttcagagaa aagatcccca tggatttttt gcttttcctg 661 tcacggatgc aattgctcct ggatattcaa tgataataaa acatcccatg gattttggca 721 ccatgaaaga caaaattgta gctaatgaat acaagtcagt tacggaattt aaggcagatt 781 tcaagctgat gtgtgataat gcaatgacat acaataggcc agataccgtg tactacaagt 841 tggcgaagaa gatccttcac gcaggcttta agatgatgag caaacaggca gctcttttgg 901 gcaatgaaga tacagctgtt gaggaacctg tccctgaagt tgtaccagta caagtagaaa 961 ctgccaagaa atccaaaaag ccgagtagag aagttatcag ctgcatgttt gagcctgaag 1021 ggaatgcctg cagcttgacg gacagtaccg cagaggagca cgtgctggcg ctggtggagc 1081 acgcagctga cgaagctcgg gacaggatca accggttcct cccaggcggc aagatgggct 1141 atctgaagag gaacggggac gggagcctgc tctacagcgt ggtcaacacg gccgagccgg 1201 acgctgatga ggaggagacc cacccggtgg acttgagctc gctctccagt aagctactcc 1261 caggcttcac cacgctgggc ttcaaagacg agagaagaaa caaagtcacc tttctctcca 1321 gtgccactac tgcgctttcg atgcagaata attcagtatt tggcgacttg aagtcggacg 1381 agatggagct gctctactca gcctacggag atgagacagg cgtgcagtgt gcgctgagcc 1441 tgcaggagtt tgtgaaggat gctgggagct acagcaagaa agtggtggac gacctcctgg 1501 accagatcac aggcggagac cactctagga cgctcttcca gctgaagcag agaagaaatg 1561 ttcccatgaa gcctccagat gaagccaagg ttggggacac cctaggagac agcagcagct 1621 ctgttctgga gttcatgtcg atgaagtcct atcccgacgt ttctgtggat atctccatgc 1681 tcagctctct ggggaaggtg aagaaggagc tggaccctga cgacagccat ttgaacttgg 1741 atgagacgac gaagctcctg caggacctgc acgaagcaca ggcggagcgc ggcggctctc 1801 ggccgtcgtc caacctcagc tccctgtcca acgcctccga gagggaccag caccacctgg 1861 gaagcccttc tcgcctgagt gtcggggagc agccagacgt cacccacgac ccctatgagt 1921 ttcttcagtc tccagagcct gcggcctctg ccaagaccta actctagacc accttcagct 1981 cttttatttt atttttttag ttttattttg cacgtgtaga gtttttgtca tcagacaagg 2041 actttgatcc tgtccccttt ggcatgcggg aagcagccgc ggggaggtaa tgaattgtct 2101 gtggtatcat gtcagcagag tctccaagcc ccacgaaccc tgaggagtgg agtcatacgc 2161 gaaggccata tggccatcgt gtcagcagag agagtctctg tacacagccc cgtgaaccct 2221 gaggagtgga gtcatacacg aagggcgtgt ggccatcgtg tcagcagaga gagtctctgt 2281 acacagcccc gtgaaccctg aggagtggag tcatacgcga agggtgtgtg gccaggctgc 2341 agagctgcgt gccgtttgtg tccgagcatc acgtgtggct ccagcccttg tttctgccag 2401 tgtagacacc tctgtctgcc ccactgtcct ggggtcgctc ttgggaggca caggcatggg 2461 tgtgtctggc ctcattctgt atcagtccag tgtgttcctg tcatagtttg tgtctcccag 2521 gcaggccatg gtaggggcct cgcaggggcc attggggagc acagggccag gctggggtga 2581 ggagagctcc cctgttttct gtttaattga tgagcctggg aaaggagtgt gttctgcctg 2641 cccgttacag tggagcgttc cgtgtccata aaacgttttc taactgggtg tttaaaaaa SEQ ID NO: 235 Human BRD9 Amino Acid Sequence isoform 1 (NP_076413.3) 1 mgkkhkkhka ewrssyedya dkplekplkl vlkvggsevt elsgsghdss yyddrsdher 61 erhkekkkkk kkksekekhl ddeerrkrke ekkrkrereh cdtegeaddf dpgkkvevep 121 ppdrpvracr tqpaenestp iqqllehflr qlqrkdphgf fafpvtdaia pgysmiikhp 181 mdfgtmkdki vaneyksvte fkadfklmcd namtynrpdt vyyklakkil hagfkmmskq 241 aallgnedta veepvpevvp vqvetakksk kpsreviscm fepegnacsl tdstaeehvl 301 alvehaadea rdrinrflpg gkmgylkrng dgsllysvvn taepdadeee thpvdlssls 361 skllpgfttl gfkderrnkv tflssattal smqnnsvfgd lksdemelly saygdetgvq 421 calslgefvk dagsyskkvv ddlldqitgg dhsrtlfqlk qrrnvpmkpp deakvgdtlg 481 dssssvlefm smksypdvsv dismlsslgk vkkeldpdds hlnldettkl lqdlheaqae 541 rggsrpssnl sslsnaserd qhhlgspsrl svgeqpdvth dpyeflqspe paasakt SEQ ID NO: 236 Human BRD9 cDNA Sequence variant 2 (NM_001009877.2; CDS: 154-1788) 1 acgggggagg agttccgggc acgcggacgg gggtcctggg caccgggcga gattatgccg 61 acaagcccct ggagaagcct ctaaagctag tcctgaaggt cggaggaagt gaagtgactg 121 aactctcagg atccggccac gactccagtt actatgatga caggtcagac catgagcgag 181 agaggcacaa agaaaagaaa aagaagaaga agaagaagtc cgagaaggag aagcatctgg 241 acgatgagga aagaaggaag cgaaaggaag agaagaagcg gaagcgagag agggagcact 301 gtgacacgga gggagaggct gacgactttg atcctgggaa gaaggtggag gtggagccgc 361 ccccagatcg gccagtccga gcgtgccgga cacagccagc cgaaaatgag agcacaccta 421 ttcagcaact cctggaacac ttcctccgcc agcttcagag atccccatgg attttttgct 481 tttcctgtca cggatgcaat tgctcctgga tattcaatga taataaaaca tcccatggat 541 tttggcacca tgaaagacaa aattgtagct aatgaataca agtcagttac ggaatttaag 601 gcagatttca agctgatgtg tgataatgca atgacataca ataggccaga taccgtgtac 661 tacaagttgg cgaagaagat ccttcacgca ggctttaaga tgatgagcaa acaggcagct 721 cttttgggca atgaagatac agctgttgag gaacctgtcc ctgaagttgt accagtacaa 781 gtagaaactg ccaagaaatc caaaaagccg agtagagaag ttatcagctg catgtttgag 841 cctgaaggga atgcctgcag cttgacggac agtaccgcag aggagcacgt gctggcgctg 901 gtggagcacg cagctgacga agctcgggac aggatcaacc ggttcctccc aggcggcaag 961 atgggctatc tgaagaggaa cggggacggg agcctgctct acagcgtggt caacacggcc 1021 gagccggacg ctgatgagga ggagacccac ccggtggact tgagctcgct ctccagtaag 1081 ctactcccag gcttcaccac gctgggcttc aaagacgaga gaagaaacaa agtcaccttt 1141 ctctccagtg ccactactgc gctttcgatg cagaataatt cagtatttgg cgacttgaag 1201 tcggacgaga tggagctgct ctactcagcc tacggagatg agacaggcgt gcagtgtgcg 1261 ctgagcctgc aggagtttgt gaaggatgct gggagctaca gcaagaaagt ggtggacgac 1321 ctcctggacc agatcacagg cggagaccac tctaggacgc tcttccagct gaagcagaga 1381 agaaatgttc ccatgaagcc tccagatgaa gccaaggttg gggacaccct aggagacagc 1441 agcagctctg ttctggagtt catgtcgatg aagtcctatc ccgacgtttc tgtggatatc 1501 tccatgctca gctctctggg gaaggtgaag aaggagctgg accctgacga cagccatttg 1561 aacttggatg agacgacgaa gctcctgcag gacctgcacg aagcacaggc ggagcgcggc 1621 ggctctcggc cgtcgtccaa cctcagctcc ctgtccaacg cctccgagag ggaccagcac 1681 cacctgggaa gcccttctcg cctgagtgtc ggggagcagc cagacgtcac ccacgacccc 1741 tatgagtttc ttcagtctcc agagcctgcg gcctctgcca agacctaact ctagaccacc 1801 ttcagctctt ttattttatt tttttagttt tattttgcac gtgtagagtt tttgtcatca 1861 gacaaggact ttgatcctgt cccctttggc atgcgggaag cagccgcggg gaggtaatga 1921 attgtctgtg gtatcatgtc agcagagtct ccaagcccca cgaaccctga ggagtggagt 1981 catacgcgaa ggccatatgg ccatcgtgtc agcagagaga gtctctgtac acagccccgt 2041 gaaccctgag gagtggagtc atacacgaag ggcgtgtggc catcgtgtca gcagagagag 2101 tctctgtaca cagccccgtg aaccctgagg agtggagtca tacgcgaagg gtgtgtggcc 2161 aggctgcaga gctgcgtgcc gtttgtgtcc gagcatcacg tgtggctcca gcccttgttt 2221 ctgccagtgt agacacctct gtctgcccca ctgtcctggg gtcgctcttg ggaggcacag 2281 gcatgggtgt gtctggcctc attctgtatc agtccagtgt gttcctgtca tagtttgtgt 2341 ctcccaggca ggccatggta ggggcctcgc aggggccatt ggggagcaca gggccaggct 2401 ggggtgagga gagctcccct gttttctgtt taattgatga gcctgggaaa ggagtgtgtt 2461 ctgcctgccc gttacagtgg agcgttccgt gtccataaaa cgttttctaa ctgggtgttt 2521 aaaaaa SEQ ID NO: 237 Human BRD9 Amino Acid Sequence isoform 2 (NP_001009877.2) 1 mmtgqtmser gtkkrkrrrr rsprrrsiwt mrkegserkr rsgsergstv trrerlttli 61 lgrrwrwsrp qigqseragh sqpkmrahlf snswntssas frdphgffaf pvtdaiapgy 121 smiikhpmdf gtmkdkivan eyksvtefka dfklmcdnam tynrpdtvyy klakkilhag 181 fkmmskqaal lgnedtavee pvpevvpvqv etakkskkps reviscmfep egnacsltds 241 taeehvlalv ehaadeardr inrflpggkm gylkrngdgs llysvvntae pdadeeethp 301 vdlsslsskl lpgfttlgfk derrnkvtfl ssattalsmq nnsvfgdlks demellysay 361 gdetgvqcal slqefvkdag syskkvvddl ldqitggdhs rtlfqlkgrr nvpmkppdea 421 kvgdtlgdss ssvlefmsmk sypdvsvdis mlsslgkvkk eldpddshln ldettkllqd 481 lheaqaergg srpssnlssl snaserdqhh lgspsrlsvg eqpdvthdpy eflqspepaa 541 sakt SEQ ID NO: 238 Human BRD9 cDNA Sequence variant 3 (NM_001317951.1; CDS: 635-2140) 1 ctgccgcggc cccgcctcgc cccgtttccg gcgcggccca gcgagctcgg caacctcggc 61 gcagcgagcg cgggcggcca gccagggcca gggggcggtg gcggccaagg tccgaccggg 121 tgccagctgt tcccagcccc cgcctcgggc ccgccgccgg cgccgccatg ggcaagaagc 181 acaagaagca caaggccgag tggcgctcgt cctacgagga ttatgccgac aagcccctgg 241 agaagcctct aaagctagtc ctgaaggtcg gaggaagtga agtgactgaa ctctcaggat 301 ccggccacga ctccagttac tatgatgaca ggtcagacca tgagcgagag aggcacaaag 361 aaaagaaaaa gaagaagaag aagaagtccg agaaggagaa gcatctggac gatgaggaaa 421 gaaggaagcg aaaggaagag aagaagcgga agcgagagag ggagcactgt gacacggagg 481 gagaggctga cgactttgat cctgggaaga aggtggaggt ggagccgccc ccagatcggc 541 cagtccgagc gtgccggaca cagccagttc tcggtggaac ttaaaatgct gtgagacacc 601 agacagacag atactgtgaa cttggagctc tctaatgaag ggataccaaa gtcttgtatt 661 caattttttt ttccttaaat tgtcagccga aaatgagagc acacctattc agcaactcct 721 ggaacacttc ctccgccagc ttcagagaaa agatccccat ggattttttg cttttcctgt 781 cacggatgca attgctcctg gatattcaat gataataaaa catcccatgg attttggcac 841 catgaaagac aaaattgtag ctaatgaata caagtcagtt acggaattta aggcagattt 901 caagctgatg tgtgataatg caatgacata caataggcca gataccgtgt actacaagtt 961 ggcgaagaag atccttcacg caggctttaa gatgatgagc aaagagcggc tgttagcttt 1021 gaagcgcagc atgtcgttta tgcaggacat ggatttttct cagcaggcag ctcttttggg 1081 caatgaagat acagctgttg aggaacctgt ccctgaagtt gtaccagtac aagtagaaac 1141 tgccaagaaa tccaaaaagc cgagtagaga agttatcagc tgcatgtttg agcctgaagg 1201 gaatgcctgc agcttgacgg acagtaccgc agaggagcac gtgctggcgc tggtggagca 1261 cgcagctgac gaagctcggg acaggatcaa ccggttcctc ccaggcggca agatgggcta 1321 tctgaagagg aacggggacg ggagcctgct ctacagcgtg gtcaacacgg ccgagccgga 1381 cgctgatgag gaggagaccc acccggtgga cttgagctcg ctctccagta agctactccc 1441 aggcttcacc acgctgggct tcaaagacga gagaagaaac aaagtcacct ttctctccag 1501 tgccactact gcgctttcga tgcagaataa ttcagtattt ggcgacttga agtcggacga 1561 gatggagctg ctctactcag cctacggaga tgagacaggc gtgcagtgtg cgctgagcct 1621 gcaggagttt gtgaaggatg ctgggagcta cagcaagaaa gtggtggacg acctcctgga 1681 ccagatcaca ggcggagacc actctaggac gctcttccag ctgaagcaga gaagaaatgt 1741 tcccatgaag cctccagatg aagccaaggt tggggacacc ctaggagaca gcagcagctc 1801 tgttctggag ttcatgtcga tgaagtccta tcccgacgtt tctgtggata tctccatgct 1861 cagctctctg gggaaggtga agaaggagct ggaccctgac gacagccatt tgaacttgga 1921 tgagacgacg aagctcctgc aggacctgca cgaagcacag gcggagcgcg gcggctctcg 1981 gccgtcgtcc aacctcagct ccctgtccaa cgcctccgag agggaccagc accacctggg 2041 aagcccttct cgcctgagtg tcggggagca gccagacgtc acccacgacc cctatgagtt 2101 tcttcagtct ccagagcctg cggcctctgc caagacctaa ctctagacca ccttcagctc 2161 ttttatttta tttttttagt tttattttgc acgtgtagag tttttgtcat cagacaagga 2221 ctttgatcct gtcccctttg gcatgcggga agcagccgcg gggaggtaat gaattgtctg 2281 tggtatcatg tcagcagagt ctccaagccc cacgaaccct gaggagtgga gtcatacgcg 2341 aaggccatat ggccatcgtg tcagcagaga gagtctctgt acacagcccc gtgaaccctg 2401 aggagtggag tcatacacga agggcgtgtg gccatcgtgt cagcagagag agtctctgta 2461 cacagccccg tgaaccctga ggagtggagt catacgcgaa gggtgtgtgg ccaggctgca 2521 gagctgcgtg ccgtttgtgt ccgagcatca cgtgtggctc cagcccttgt ttctgccagt 2581 gtagacacct ctgtctgccc cactgtcctg gggtcgctct tgggaggcac aggcatgggt 2641 gtgtctggcc tcattctgta tcagtccagt gtgttcctgt catagtttgt gtctcccagg 2701 caggccatgg taggggcctc gcaggggcca ttggggagca cagggccagg ctggggtgag 2761 gagagctccc ctgttttctg tttaattgat gagcctggga aaggagtgtg ttctgcctgc 2821 ccgttacagt ggagcgttcc gtgtccataa aacgttttct aactgggtgt ttaaaaaa SEQ ID NO: 239 Human BRD9 Amino Acid Sequence isoform 3 (NP_001304880.1) 1 mkgyqslvfn ffflklsaen estpiqqlle hflrqlqrkd phgffafpvt daiapgysmi 61 ikhpmdfgtm kdkivaneyk svtefkadfk lmcdnamtyn rpdtvyykla kkilhagfkm 121 mskerllalk rsmsfmqdmd fsqqaallgn edtaveepvp evvpvgveta kkskkpsrev 181 iscmfepegn acsltdstae ehvlalveha adeardrinr flpggkmgyl krngdgslly 241 svvntaepda deeethpvdl sslsskllpg fttlgfkder rnkvtflssa ttalsmqnns 301 vfgdlksdem ellysaygde tgvqcalslq efvkdagsys kkvvddlldq itggdhsrtl 361 fqlkgrrnvp mkppdeakvg dtlgdssssv lefmsmksyp dvsvdismls slgkvkkeld 421 pddshlnlde ttkllqdlhe aqaerggsrp ssnlsslsna serdqhhlgs psrlsvgeqp 481 dvthdpyefl qspepaasak t SEQ ID NO: 240 Mouse BRD9 Amino Acid Sequence isoform 1 (NP_001019679.2) 1 mgkkhkkhka ewrssyedyt dtplekplkl vlkvggsevt elsgsghdss yyddrsdher 61 erhrekkkkk kkksekekhl deeerrkrke ekkrkrekeh cdsegeadaf dpgkkvevep 121 ppdrpvracr tqpaenestp iqrllehflr qlqrkdphgf fafpvtdaia pgysmiikhp 181 mdfgtmkdki vaneyksvte fkadfklmcd namtynrpdt vyyklakkil hagfkmmskq 241 aallgsedpa aeepvpevvp vqvettkksk kpsreviscm fepegnacsl tdstaeehvl 301 alvehaadea rdrinrflpg gkmgylkklg dgsllysvvn apepdadeee thpvdlssls 361 skllpgfttl gfkderrnkv tflssastal smqnnsvfgd lksdemelly saygdetgvq 421 calslqefvk dagsyskkmv ddlldqitgg dhsrmifqlk qrrsipmrpa demkvgdplg 481 esggpvldfm smkgypdvsl dvsmlsslgk vkkeldheds hlnldetarl lqdlheagae 541 rggsrpssnl sslstasere hpppgspsrl svgeqpdvah dpyeflqspe paapakn SEQ ID NO: 241 Mouse BRD9 cDNA Sequence variant 1 (NM_001024508.3; CDS: 84-1877) 1 gcggtggcga aggcgctact tccgactggc gcaggtcgag ctaccggcag ccgcttctca 61 ccggatcccg tgctatctca gccatgggca aaaagcacaa gaagcacaag gcggaatggc 121 gctcgtccta cgaagattat acagacacgc cactggagaa gcctctgaag ctggtgctca 181 aggtgggagg aagtgaagtg acagagctct caggatctgg ccacgactcc agctactacg 241 acgatcgctc agaccacgaa cgggagagac acagagaaaa gaagaaaaag aagaagaaaa 301 agtcagagaa ggagaagcac ctcgatgagg aggagaggag gaagcggaag gaagagaaga 361 aacggaaacg ggagaaggaa cactgcgact cagaggggga ggctgatgct ttcgaccctg 421 gaaagaaggt ggaggtggag ccacccccag accgaccagt gagagcctgc cgaacacagc 481 cagctgagaa cgagagcaca cctatccaga ggcttctgga acacttcctc cgccagctac 541 agagaaaaga tcctcatgga ttttttgctt ttcctgttac ggatgcaatt gctcctgggt 601 attcaatgat aataaaacat cctatggact ttggcacgat gaaagacaag attgtagcta 661 atgaatataa atcagtcaca gaatttaagg cagatttcaa attaatgtgt gataatgcga 721 tgacgtacaa tagaccagac accgtgtact acaaattagc caagaagatc ctgcacgcgg 781 gctttaagat gatgagcaaa caggcagctc tcttgggcag tgaagaccca gcagctgagg 841 aacctgttcc cgaggttgtc ccagtgcaag tagaaactac caagaaatcc aaaaagccga 901 gtagagaagt tatcagctgc atgtttgagc ctgaagggaa tgcctgcagc ctgacagaca 961 gcacggcaga ggagcatgtg ctagccctgg tagagcacgc agctgatgag gctcgggaca 1021 ggattaaccg gtttctcccg ggtggcaaga tggggtacct gaagaagctt ggagatggaa 1081 gtctgctcta cagcgtggtg aacgcacctg agcctgatgc tgatgaggag gagacacacc 1141 ctgtggacct gagttcactg tctagcaagt tgctcccagg ttttacaaca ttgggtttca 1201 aagatgaaag aagaaataaa gtcacattcc tctccagtgc cagcactgca ctttcaatgc 1261 agaacaactc tgtgtttggg gacctgaagt cagatgagat ggagcttctg tattccgcct 1321 atggagatga gactggtgtg cagtgtgcac tgagcctgca ggaattcgtg aaggatgctg 1381 gaagctatag caagaagatg gtagatgacc tcctggacca aatcacaggt ggtgatcact 1441 caaggatgat cttccagctg aagcagagga ggagcatccc catgagacct gcagatgaga 1501 tgaaggttgg ggatccactg ggagagagtg gtggccctgt tctggacttc atgtcaatga 1561 aacagtatcc tgatgtctcc ctggatgtgt ccatgctcag ctctctcggg aaagtaaaga 1621 aggagctgga ccatgaagat agccacttga acttggatga gacagccagg ctcctgcagg 1681 acttacacga agcacaagca gagcgaggag gctctcggcc atcctccaac cttagctctc 1741 tgtccactgc ctctgagagg gagcatcctc ctccaggaag tccttctcgc cttagtgttg 1801 gggagcagcc ggatgtcgcc cacgaccctt atgaattcct tcagtctcca gaacctgcag 1861 ctcctgccaa gaactaactt gtggtgttcc cagatggttt attttatttt tctacatttt 1921 atttgataca gtttttgtca caagacagaa acttttgtct catcctctct ggcaagtagc 1981 agcctgagga agatgctggc ttgtctgtac cgtcacgtct gcagcagagg cccagtagca 2041 ccgaatggtg tccaataagc tctgagcagt ggcaatagaa tgtcaacgga ttgcaatcag 2101 atggctcaac tctgtgtctc ctgagcacca gcagccaagc ctgttcatga tgatgtgcac 2161 acagtcattc tacaggagct ttgcacagcc ttcctgcagt tctcaaaggg gagcctgcag 2221 actaggcctt cagagggttc cttctgtttc ctatttgggc actgagccag aggatggagt 2281 tgtctccctg acaaataatg aaccacccca ccttttagaa tgaagtataa atgaagtcat 2341 aaaatgtttc aatgttttgc tgagtacctg tttgtattta taaaaaacat gaacacaggt 2401 cctaataaag agatgcctaa ggcggtaaaa aaaaaaaaaa aaaaaaaa SEQ ID NO: 242 Mouse BRD9 Amino Acid Sequence isoform 2 (NP_001294970.1) 1 mgkkhkkhka ewrssyedyt dtplekplkl vlkvggsevt elsgsghdss yyddrsdher 61 erhrekkkkk kkksekekhl deeerrkrke ekkrkrekeh cdsegeadaf dpgkkvevep 121 ppdrpvracr tqpaenestp iqrllehflr qlqrkdphgf fafpvtdaia pgysmiikhp 181 mdfgtmkdki vaneyksvte fkadfklmcd namtynrpdt vyyklakkil hagfkmmska 241 allgsedpaa eepvpevvpv qvettkkskk psreviscmf epegnacslt dstaeehvla 301 lvehaadear drinrflpgg kmgylkklgd gsllysvvna pepdadeeet hpvdlsslss 361 kllpgfttlg fkderrnkvt flssastals mqnnsvfgdl ksdemellys aygdetgvqc 421 alslgefvkd agsyskkmvd dlldqitggd hsrmifqlkg rrsipmrpad emkvgdplge 481 sggpvldfms mkgypdvsld vsmlsslgkv kkeldhedsh lnldetarll qdlheagaer 541 ggsrpssnls slstasereh pppgspsrls vgeqpdvand pyeflqspep aapakn SEQ ID NO: 243 Mouse BRD9 cDNA Sequence variant 2 (NM_001308041.1; CDS: 84-1874) 1 gcggtggcga aggcgctact tccgactggc gcaggtcgag ctaccggcag ccgcttctca 61 ccggatcccg tgctatctca gccatgggca aaaagcacaa gaagcacaag gcggaatggc 121 gctcgtccta cgaagattat acagacacgc cactggagaa gcctctgaag ctggtgctca 181 aggtgggagg aagtgaagtg acagagctct caggatctgg ccacgactcc agctactacg 241 acgatcgctc agaccacgaa cgggagagac acagagaaaa gaagaaaaag aagaagaaaa 301 agtcagagaa ggagaagcac ctcgatgagg aggagaggag gaagcggaag gaagagaaga 361 aacggaaacg ggagaaggaa cactgcgact cagaggggga ggctgatgct ttcgaccctg 421 gaaagaaggt ggaggtggag ccacccccag accgaccagt gagagcctgc cgaacacagc 481 cagctgagaa cgagagcaca cctatccaga ggcttctgga acacttcctc cgccagctac 541 agagaaaaga tcctcatgga ttttttgctt ttcctgttac ggatgcaatt gctcctgggt 601 attcaatgat aataaaacat cctatggact ttggcacgat gaaagacaag attgtagcta 661 atgaatataa atcagtcaca gaatttaagg cagatttcaa attaatgtgt gataatgcga 721 tgacgtacaa tagaccagac accgtgtact acaaattagc caagaagatc ctgcacgcgg 781 gctttaagat gatgagcaaa gcagctctct tgggcagtga agacccagca gctgaggaac 841 ctgttcccga ggttgtccca gtgcaagtag aaactaccaa gaaatccaaa aagccgagta 901 gagaagttat cagctgcatg tttgagcctg aagggaatgc ctgcagcctg acagacagca 961 cggcagagga gcatgtgcta gccctggtag agcacgcagc tgatgaggct cgggacagga 1021 ttaaccggtt tctcccgggt ggcaagatgg ggtacctgaa gaagcttgga gatggaagtc 1081 tgctctacag cgtggtgaac gcacctgagc ctgatgctga tgaggaggag acacaccctg 1141 tggacctgag ttcactgtct agcaagttgc tcccaggttt tacaacattg ggtttcaaag 1201 atgaaagaag aaataaagtc acattcctct ccagtgccag cactgcactt tcaatgcaga 1261 acaactctgt gtttggggac ctgaagtcag atgagatgga gcttctgtat tccgcctatg 1321 gagatgagac tggtgtgcag tgtgcactga gcctgcagga attcgtgaag gatgctggaa 1381 gctatagcaa gaagatggta gatgacctcc tggaccaaat cacaggtggt gatcactcaa 1441 ggatgatctt ccagctgaag cagaggagga gcatccccat gagacctgca gatgagatga 1501 aggttgggga tccactggga gagagtggtg gccctgttct ggacttcatg tcaatgaaac 1561 agtatcctga tgtctccctg gatgtgtcca tgctcagctc tctcgggaaa gtaaagaagg 1621 agctggacca tgaagatagc cacttgaact tggatgagac agccaggctc ctgcaggact 1681 tacacgaagc acaagcagag cgaggaggct ctcggccatc ctccaacctt agctctctgt 1741 ccactgcctc tgagagggag catcctcctc caggaagtcc ttctcgcctt agtgttgggg 1801 agcagccgga tgtcgcccac gacccttatg aattccttca gtctccagaa cctgcagctc 1861 ctgccaagaa ctaacttgtg gtgttcccag atggtttatt ttatttttct acattttatt 1921 tgatacagtt tttgtcacaa gacagaaact tttgtctcat cctctctggc aagtagcagc 1981 ctgaggaaga tgctggcttg tctgtaccgt cacgtctgca gcagaggccc agtagcaccg 2041 aatggtgtcc aataagctct gagcagtggc aatagaatgt caacggattg caatcagatg 2101 gctcaactct gtgtctcctg agcaccagca gccaagcctg ttcatgatga tgtgcacaca 2161 gtcattctac aggagctttg cacagccttc ctgcagttct caaaggggag cctgcagact 2221 aggccttcag agggttcctt ctgtttccta tttgggcact gagccagagg atggagttgt 2281 ctccctgaca aataatgaac caccccacct tttagaatga agtataaatg aagtcataaa 2341 atgtttcaat gttttgctga gtacctgttt gtatttataa aaaacatgaa cacaggtcct 2401 aataaagaga tgcctaaggc ggtaaaaaaa aaaaaaaaaa aaaaa SEQ ID NO: 244 Human ARID1A C-terminal Amino Acid Sequence (aa1611-2285) 1561                                                        mkmqkagppv 1621 pashiapapv qppmirrdit fppgsveatq pvlkgrrrlt mkdigtpeaw rvmmslksgl 1681 laestwaldt inillyddns imtfnlsqlp gllellveyf rrclieifgi lkeyevgdpg 1741 qrtlldpgrf skvsspapme ggeeeeellg pkleeeeeee vvendeeiaf sgkdkpasen 1801 seekliskfd klpvkivqkn dpfvvdcsdk lgrvqefdsg llhwrigggd ttehiqthfe 1861 sktellpsrp hapcppaprk hvttaegtpg ttdgegpppd gppekritat mddmlstrss 1921 tltedgakss eaikesskfp fgispaqshr nikiledeph skdetplctl ldwqdslakr 1981 cvcvsntirs lsfvpgndfe mskhpgllli lgklillhhk hperkqaplt yekeeeqdqg 2041 vscnkvewww dclemlrent lvtlanisgq ldlspypesi clpvldgllh wavcpsaeaq 2101 dpfstlgpna vlspqrlvle tlsklsiqdn nvdlilatpp fsrleklyst mvrflsdrkn 2161 pvcremavvl lanlaggdsl aaraiavqkg signllgfle dslaatqfqq sgasllhmqn 2221 ppfeptsvdm mrraaralla lakvdenhse ftlyesrlld isysplmnsl vsqvicdvlf 2281 ligqs SEQ ID NO: 245 Human mARID2 Amino Acid Sequence (N-terminal aa1-626 fused to C-terminal aa1592-1835) 1 manstgkapp derrkglafl delrqfhhsr gspfkkipav ggkeldlhgl ytrvttlggf 61 akvseknqwg eiveefnfpr scsnaafalk qyylryleky ekvhhfgedd devppgnpkp 121 qlpigaipss ynyqqhsysd ylrqsyglsm dfnspndynk lvlsllsglp nevdfainvc 181 tllsneskhv mqlekdpkii tlllanagvf ddtlgsfstv fgeewkektd rdfvkfwkdi 241 vddnevrdli sdrnkshegt sgewiweslf hpprklgind ieggrvlqia vilrnlsfee 301 gnvkllaanr tclrflllsa hshfislrql gldtlgniaa ellldpvdfk tthlmfhtvt 361 kclmsrdrfl kmrgmeilgn lckaedngvl iceyvdqdsy reiichltlp dvllvistle 421 vlymltemgd vactkiakve ksidmlvclv smdiqmfgpd alaavklieh pssshqmlse 481 irpqaieqvq tqthvasapa sravvaqhva pppgiveids ekfacqwlna hfevnpdcsv 541 sraemyseyl stcsklargg iltstgfykc lrtvfpnhtv krvedsssng qahihvvgvk 601 rraiplpiqm yyqqqpvsts vvrvdsntpm ppspavqvqg qpnssqpspf sgssqpgdpm 661 rkpgqnfmcl wqsckkwfqt psqvfyhaat ehggkdvypg qclwegcepf qrqrfsfith 721 lqdkhcskda llaglkqdep gqagsqksst kqptvggtss tpraqkaivn hpsaalmalr 781 rgsrnlvfrd ftdekegpit khirltaali lknigkysec grrllkrhen nlsvlaisnm 841 easstlakcl yelnftvqsk eqekdsemlq * Included in Table 1 are RNA nucleic acid molecules (e.g., thymines replaced with uridines), nucleic acid molecules encoding orthologs of the encoded proteins, as well as DNA or RNA nucleic acid sequences comprising a nucleic acid sequence having at least 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, 99.5%, or more identity across their full length with the nucleic acid sequence of any SEQ ID NO listed in Table 1, or a portion thereof. Such nucleic acid molecules can have a function of the full-length nucleic acid as described further herein. * Included in Table 1 are orthologs of the proteins, as well as polypeptide molecules comprising an amino acid sequence having at least 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, 99.5%, or more identity across their full length with an amino acid sequence of any SEQ ID NO listed in Table 1, or a portion thereof. Such polypeptides can have a function of the full-length polypeptide as described further herein.

II. Isolated Modified Protein Complexes

The present invention relates, in part, to an isolated modified protein complex selected from the group consisting of protein complexes listed in Table 2 and Table 3, wherein the isolated modified protein complex comprises at least one subunit that is modified.

In certain embodiments, at least one subunit of a complex of the invention is a homolog, a derivative, e.g., a functionally active derivative, a fragment, e.g., a functionally active fragment, of a protein subunit of a complex of the invention. In certain embodiments of the invention, a homolog, derivative or fragment of a protein subunit of a complex of the invention is still capable of forming a complex with the other subunit(s). Complex-formation can be tested by any method known to the skilled artisan. Such methods include, but are not limited to, non-denaturing PAGE, FRET, and Fluorescence Polarization Assay.

Homologs (e.g., nucleic acids encoding subunit proteins from other species) or other related sequences (e.g., paralogs) which are members of a native cellular protein complex can be identified and obtained by low, moderate or high stringency hybridization with all or a portion of the particular nucleic acid sequence as a probe, using methods well known in the art for nucleic acid hybridization and cloning.

Exemplary moderately stringent hybridization conditions are as follows: prehybridization of filters containing DNA is carried out for 8 hours to overnight at 65° C. in buffer composed of 6×SSC, 50 mM Tris-HCl (pH 7.5), 1 mM EDTA, 0.02% PVP, 0.02% Ficoll, 0.02% BSA, and 500 μg/ml denatured salmon sperm DNA. Filters are hybridized for 48 hours at 65° C. in prehybridization mixture containing 100 μg/ml denatured salmon sperm DNA and 5-20×10⁶ cpm of ³²P-labeled probe. Washing of filters is done at 37° C. for 1 hour in a solution containing 2×SSC, 0.01% PVP, 0.01% Ficoll, and 0.01% BSA. This is followed by a wash in 0.1×SSC at 50° C. for 45 min before autoradiography. Alternatively, exemplary conditions of high stringency are as follows: e.g., hybridization to filter-bound DNA in 0.5 M NaHPO4, 7% sodium dodecyl sulfate (SDS), 1 mM EDTA at 65° C., and washing in 0.1×SSC/0.1% SDS at 68° C. (Ausubel et al., eds., 1989, Current Protocols in Molecular Biology, Vol. I, Green Publishing Associates, Inc., and John Wiley & sons, Inc., New York, at p. 2.10.3). Other conditions of high stringency which may be used are well known in the art. Exemplary low stringency hybridization conditions comprise hybridization in a buffer comprising 35% formamide, 5×SSC, 50 mM Tris-HCl (pH 7.5), 5 mM EDTA, 0.02% PVP, 0.02% Ficoll, 0.2% BSA, 100 μg/ml denatured salmon sperm DNA, and 10% (wt/vol) dextran sulfate for 18-20 hours at 40° C., washing in a buffer consisting of 2×SSC, 25 mM Tris-HCl (pH 7.4), 5 mM EDTA, and 0.1% SDS for 1.5 hours at 55° C., and washing in a buffer consisting of 2×SSC, 25 mM Tris-HCl (pH 7.4), 5 mM EDTA, and 0.1% SDS for 1.5 hours at 60° C.

In certain embodiments, a homolog of a subunit binds to the same proteins to which the subunit binds. In certain, more specific embodiments, a homolog of a subunit binds to the same proteins to which the subunit binds wherein the binding affinity between the homolog and the binding partner of the subunit is at least 10%, at least 20%, at least 30%, at least 40%, at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95% or at least 98% of the binding affinity between the subunit and the binding partner. Binding affinities between proteins can be determined by any method known to the skilled artisan.

In certain embodiments, a fragment of a protein subunit of the complex consists of at least 6 (continuous) amino acids, of at least 10, at least 20 amino acids, at least 30 amino acids, at least 40 amino acids, at least 50 amino acids, at least 75 amino acids, at least 100 amino acids, at least 150 amino acids, at least 200 amino acids, at least 250 amino acids, at least 300 amino acids, at least 400 amino acids, or at least 500 amino acids of the protein subunit of the naturally occurring protein complex. In specific embodiments. Such fragments are not larger than 40 amino acids, 50 amino acids, 75 amino acids, 100 amino acids, 150 amino acids, 200 amino acids, 250 amino acids, 300 amino acids, 400 amino acids, or than 500 amino acids. In more specific embodiments, the functional fragment is capable of forming a complex of the invention, i.e., the fragment can still bind to at least one other protein subunit to form a complex of the invention. In some embodiments, the fragment comprises at least one interacting domain provided in Table 4. In some embodiments, the fragment comprises all interacting domains of the subunit provided in Table 4. In a specific embodiment, fragments are provided herein, which share an identical region of 20, 30, 40, 50 or 60 contiguous amino acids of the interacting domains listed in Table 4.

Derivatives or analogs of subunit proteins include, but are not limited, to molecules comprising regions that are substantially homologous to the subunit proteins, in various embodiments, by at least 30%, 40%, 50%, 60%, 70%, 80%, 90% or 95% identity over an amino acid sequence of identical size or when compared to an aligned sequence in which the alignment is done by a computer homology program known in the art, or whose encoding nucleic acid is capable of hybridizing to a sequence encoding the subunit protein under stringent, moderately stringent, or nonstringent conditions.

Derivatives of a protein subunit include, but are not limited to, fusion proteins of a protein subunit of a complex of the invention to a heterologous amino acid sequence, mutant forms of a protein subunit of a complex of the invention, and chemically modified forms of a protein subunit of a complex of the invention. In a specific embodiment, the functional derivative of a protein subunit of a complex of the invention is capable of forming a complex of the invention, i.e., the derivative can still bind to at least one other protein subunit to form a complex of the invention.

In certain embodiments of the invention, at least two subunits of a complex of the invention are linked to each other via at least one covalent bond. A covalent bond between subunits of a complex of the invention increases the stability of the complex of the invention because it prevents the dissociation of the subunits. Any method known to the skilled artisan can be used to achieve a covalent bond between at least two subunits of the invention.

In specific embodiments, covalent cross-links are introduced between adjacent subunits. Such cross-links can be between the side chains of amino acids at opposing sides of the dimer interface. Any functional groups of amino acid residues at the dimer interface in combination with suitable cross-linking agents can be used to create covalent bonds between the protein subunits at the dimer interface. Existing amino acids at the dimer interface can be used or, alternatively, suitable amino acids can be introduced by site-directed mutagenesis.

In exemplary embodiments, cysteine residues at opposing sides of the dimer interface are oxidized to form disulfide bonds. See, e.g., Reznik et al., (1996) Nat Bio Technol 14:1007-1011, at page 1008. 1,3-dibromoacetone can also be used to create an irreversible covalent bond between two sulfhydryl groups at the dimer interface. In certain other embodiments, lysine residues at the dimer inter face are used to create a covalent bond between the protein subunits of the complex. Crosslinkers that can be used to create covalent bonds between the epsilon amino groups of lysine residues are, e.g., but are not limited to, bis(sulfosuccinimidyl)suberate; dimethyladipimidate-2HD1; disuccinimidyl glutarate; N-hydroxysuccinimidyl 2,3-dibromoproprionate.

In other specific embodiments, two or more interacting subunits, or homologues, derivatives or fragments thereof, are directly fused together, or covalently linked together through a peptide linker, forming a hybrid protein having a single unbranched polypeptide chain. Thus, the protein complex may be formed by “intramolecular interactions between two portions of the hybrid protein. In still another embodiment, at least one of the fused or linked interacting subunit in this protein complex is a homologue, derivative or fragment of a native protein.

In specific embodiments, at least one subunit, or a homologue, derivative or fragment thereof, may be expressed as fusion or chimeric protein comprising the subunit, homologue, derivative or fragment, joined via a peptide bond to a heterologous amino acid sequence.

As used herein, a “chimeric protein” or “fusion protein” comprises all or part (preferably a biologically active part) of a polypeptide corresponding to a subunit or a fragment, homologue or derivative thereof, operably linked to a heterologous polypeptide (i.e., a polypeptide other than the polypeptide corresponding to the subunit or a fragment, homologue or derivative thereof). Within the fusion protein, the term “operably linked” is intended to indicate that the polypeptide encompassed by the present invention and the heterologous polypeptide are fused in-frame to each other. The heterologous polypeptide can be fused to the amino-terminus or the carboxyl-terminus of the polypeptide encompassed by the present invention.

In one embodiment, the heterologous amino acid sequence comprises an affinity tag that can be used for affinity purification. In another embodiment, the heterologous amino acid sequence includes a fluorescent label. In still another embodiment, the fusion protein contains a heterologous signal sequence, immunoglobulin fusion protein, toxin, or other useful protein sequences.

A variety of peptide tags known in the art may be used to generate fusion proteins of the protein subunits of a complex of the invention, such as but not limited to the immunoglobulin constant regions, polyhistidine sequence (Petty, 1996, Metal-chelate affinity chromatography, in Current Protocols in Molecular Biology, Vol. 2, Ed. Ausubel et al., Greene Publish. Assoc. & Wiley Interscience), glutathione S-transferase (GST: Smith, 1993, Methods Mol. Cell Bio. 4:220-229), the E. coli maltose binding protein (Guan et al., 1987, Gene 67:21-30), and various cellulose binding domains (U.S. Pat. Nos. 5,496,934: 5,202,247; 5,137,819; Tomme et al., 1994, Protein Eng. 7:117-123), etc.

One possible peptide tags are short amino acid sequences to which monoclonal antibodies are available, such as but not limited to the following well known examples, the FLAG epitope, the myc epitope at amino acids 408-439, the influenza virus hemaglutinin (HA) epitope. Other peptide tags are recognized by specific binding partners and thus facilitate isolation by affinity binding to the binding partner, which is preferably immobilized and/or on a solid support. As will be appreciated by those skilled in the art, many methods can be used to obtain the coding region of the above-mentioned peptide tags, including but not limited to, DNA cloning, DNA amplification, and synthetic methods. Some of the peptide tags and reagents for their detection and isolation are available commercially.

In certain embodiments, a combination of different peptide tags is used for the purification of the protein subunits of a complex of the invention or for the purification of a complex. In certain embodiments, at least one subunit has at least two peptide tags, e.g., a FLAG tag and a His tag. The different tags can be fused together or can be fused in different positions to the protein subunit. In the purification procedure, the different peptide tags are used subsequently or concurrently for purification. In certain embodiments, at least two different subunits are fused to a peptide tag, wherein the peptide tags of the two subunits can be identical or different. Using different tagged subunits for the purification of the complex ensures that only complex will be purified and minimizes the amount of uncomplexed protein subunits, such as monomers or homodimers.

Various leader sequences known in the art can be used for the efficient secretion of a protein subunit of a complex of the invention from bacterial and mammalian cells (von Heijne, 1985, J. Mol. Biol. 184:99-105). Leader peptides are selected based on the intended host cell, and may include bacterial, yeast, viral, animal, and mammalian sequences. For example, the herpes virus glycoprotein D leader peptide is suitable for use in a variety of mammalian cells. A preferred leader peptide for use in mammalian cells can be obtained from the V-J2-C region of the mouse immunoglobulin kappa chain (Bernard et al., 1981. Proc. Natl. Acad. Sci. 78:5812-5816).

DNA sequences encoding desired peptide tag or leader peptide which are known or readily available from libraries or commercial suppliers are suitable in the practice of this invention.

In certain embodiments, the protein subunits of a complex of the invention are derived from the same species. In more specific embodiments, the protein subunits are all derived from human. In another specific embodiment, the protein subunits are all derived from a mammal.

In certain other embodiments, the protein subunits of a complex of the invention are derived from a non-human species, such as, but not limited to, cow, pig, horse, cat, dog, rat, mouse, a primate (e.g., a chimpanzee, a monkey Such as a cynomolgous monkey). In certain embodiments, one or more subunits are derived from human and the other subunits are derived from a mammal other than a human to give rise to chimeric complexes.

Included within the scope of the invention is an isolated modified protein complex in which the subunits, or homologs, derivatives, or fragments thereof, are differentially modified during or after translation, e.g., by glycosylation, acetylation, phosphorylation, amidation, derivatization by known protecting/blocking groups, proteolytic cleavage, linkage to an antibody molecule or other cellular ligand, etc. Any of numerous chemical modifications may be carried out by known techniques, including but not limited to specific chemical cleavage by cyanogen bromide, trypsin, chymotrypsin, papain, V8 protease, NaBH4, acetylation, formylation, oxidation, reduction, metabolic synthesis in the presence of tunicamycin, etc. In still another embodiment, the protein sequences are modified to have a heterofunctional reagent; such heterofunctional reagents can be used to crosslink the members of the complex.

The protein complexes encompassed by the present invention can also be in a modified form. For example, an antibody selectively immunoreactive with the protein complex can be bound to the protein complex. In another example, a non-antibody modulator capable of enhancing the interaction between the interacting partners in the protein complex may be included.

The above-described protein complexes may further include any additional components, e.g., other proteins, nucleic acids, lipid molecules, monosaccharides or polysaccharides, ions, etc.

TABLE 2 Protein complex Subunits of the protein complex BAF Subunit_1: SMARCC1 or SMARCC2 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: SMARCB1 Subunit_5: SMARCE1 Subunit_6: ARID1A or ARID1B Subunit_7: DPF1, DPF2, or DPF3 Subunit_8: ACTL6A Subunit_9: β-Actin Subunit_10: BCL7A, BCL7B, orBCL7C Subunit_11: SMARCA2 or SMARCA4 Subunit_12: SS18 or SS18Ll PBAF Subunit_1: SMARCC1 or SMARCC2 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: SMARCB1 Subunit_5: SMARCE1 Subunit_6: ARID2 Subunit_7: BRD7 Subunit_8: PHF10 Subunit_9: ACTL6A Subunit_10: β-Actin Subunit_11: BCL7A, BCL7B, or BCL7C Subunit_12: SMARCA2 or SMARCA4 Subunit_13: PBRM1 Subunit_14: PBRM1

TABLE 3 Protein complex Subunits of the protein complex SMARCC dimer Subunit_1: SMARCC1 or SMARCC2 Subunit_2: SMARCC1 or SMARCC2 Initial Subunit_1: SMARCC1 or SMARCC2 BAF Core Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 BAF Core Subunit_1: SMARCC1 or SMARCC2 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: SMARCB1 Subunit_5: SMARCE1 ARID/BAF Core Subunit_1: SMARCC1 or SMARCC2 intermediate_1 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: SMARCB1 Subunit_5: SMARCE1 Subunit_6: ARID1A or ARID1B ARID/BAF Core Subunit_1: SMARCC1 or SMARCC2 intermediate_2 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: SMARCB1 Subunit_5: SMARCE1 Subunit_6: ARID1A or ARID1B Subunit_7: DPF1, DPF2, or DPF3 ARID/PBAF Core Subunit_1: SMARCC1 or SMARCC2 intermediate_1 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: SMARCB1 Subunit_5: SMARCE1 Subunit_6: ARID2 Subunit_7: BRD7 ARID/PBAF Core Subunit_1: SMARCC1 or SMARCC2 intermediate_2 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: SMARCB1 Subunit_5: SMARCE1 Subunit_6: ARID2 Subunit_7: BRD7 Subunit_8: PHF10 Non canonical Subunit_1: SMARCC1 or SMARCC2 BAF (ncBAF) Core Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: GLTSCR1 or GLTSCR1L BRD9/ncBAF Core Subunit_1: SMARCC1 or SMARCC2 Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: GLTSCR1 or GLTSCR1L Subunit_5: BRD9 ATPase module Subunit_1: ACTL6A Subunit_2: β-Actin Subunit_3: BCL7A, BCL7B, or BCL7C Subunit_4: SMARCA2 or SMARCA4 SS18 ATPase Subunit_1: ACTL6A module Subunit_2: β-Actin Subunit_3: BCL7A, BCL7B, or BCL7C Subunit_4: SMARCA2 or SMARCA4 Subunit_4: SS18 or SS18L1 Non canonical Subunit_1: SMARCC1 or SMARCC2 BAF (ncBAF) Subunit_2: SMARCC1 or SMARCC2 Subunit_3: SMARCD1, SMARCD2, or SMARCD3 Subunit_4: GLTSCR1 or GLTSCR1L Subunit_5: BRD9 Subunit_6: ACTL6A Subunit_7: β-Actin Subunit_8: BCL7A, BCL7B, or BCL7C Subunit_9: SMARCA2 or SMARCA4 Subunit_10: SS18 or SS18Ll

TABLE 4 Interacting Domain Pair Pair Interacting Interacting No. Domain 1 Domain 2 1 SMARCC R3 (DR) SMARCC R3 (DR) 2 SMARCC R3 (DR) ARID R3 3 SMARCC R3 (DR) SMARCE1 CC 4 SMARCC R3 (DR) SMARCA R2 5 SMARCC R3 (DR) DPF2 R2 6 SMARCC R3 (DR) SMARCD R2 7 SMARCC R3 (DR) ACTL6A 8 SMARCC CAR SMARCD SWIB 9 SMARCC CAR ARID1 R3 10 SMARCC CAR SMARCE1 CC 11 SMARCC CAR SMARCD R1 12 SMARCC CAR ACTL6A 13 SMARCC CAR ARID1 CBRB 14 SMARCC CAR SMARCB1 CC 15 SMARCC R2 ARID1 R3 16 SMARCC R2 SMARCA R2 17 SMARCC R1 DPF2 R2 18 SMARCC R1 SMARCD R1 19 SMARCC R1 ACTL6A 20 SMARCC R1 SMARCC R1 21 SMARCA Bromo SMARCC R1 22 SMARCC SWIRM BCL7 BCL N 23 SMARCC R2 SMARCC R2 24 SMARCA R5 SMARCC R2 25 SMARCC SANT SMARCD R2 26 ARID1 CBR A SMARCD1 R1 27 ARID1 CBR A SMARCE1 R2 28 ARID1 CBR A SMARCA R2 29 ARID1 CBR A DPF2 R2 30 ARID1 R3 SMARCD R1 31 ARID1 R3 SMARCE CC 32 ARID1 R3 DPF2 Requiem 33 ARID1 R3 SMARCB1 WH 34 ARID1 CBR B SMARCD1 R1 35 ARID1 CBR B SMARCD1 R2 36 ARID1 CBR B SMARCA R2 37 ARID1 CBR B SMARCE1 R2 38 ARID1 CBR B SMARCC R1 39 ARID1 CBR B SMARCA R1 40 ARID1 R4 SMARCA R2 41 ARID1 R4 SMARCA HSA 42 ARID1 R4 SMARCE R2 43 ARID1 R4 ACTL6A 44 ARID1 R2 SMARCD R1 45 ARID1 R2 ACTL6A 46 ARID1 R2 SMARCC R3 47 ARID1 R1 SMARCD R1 48 ARID1 R1 SMARCC R1 49 ARID1 R1 ACTL6A 50 ARID1 ARID SMARCC R1 51 ARID1 ARID SMARCA R2 52 ARID2 CBR SMARCD R2 53 ARID2 CBR SMARCC R3 54 ARID2 R3 SMARCC R3 55 ARID2 R4 SMARCD R1 56 ARID2 R4 PHF10 R4 57 SMARCA HSA ACTL6A 58 SMARCA HSA BCL7 BCL N 59 SMARCA HSA ACTB 60 SMARCA HSA SMARCB1 WH 61 SMARCA HSA SMARCC R1 62 SMARCA HSA SMARCB1 R2 63 SMARCA R2 SMARCD R1 64 SMARCA R2 DPF2 R2 65 SMARCA R2 BRD7 DUF3512 66 SMARCA R2 SMARCE1 R2 67 SMARCA R2 PBRM1 R10 68 SMARCA R2 BCL7 BCL N 69 SMARCA R2 SMARCC R1 70 SMARCA R3 ACTB 71 SMARCA R3 SMARCC R1 72 SMARCA Hel ATP BCL7 BCL N 73 SMARCA Hel ATP ACTB 74 SMARCA Hel ATP ACTL6A 75 SMARCA Hel ATP SMARCC R1 76 SMARCA Hel ATP SMARCB1 R2 77 SMARCA Hel ATP PHF10 SAY 78 SMARCA Hel Cterm ACTL6A 79 SMARCA R4 SMARCC R2 80 SMARCA R5 ACTL6A 81 SMARCA R1 SMARCD R1 82 SMARCA QLQ SMARCC R2 83 SMARCA Bromo ACTL6A 84 SMARCA Bromo DPF2 R2 85 SMARCA R6 DPF2 R2 86 SMARCA R6 SMARCC R1 87 SMARCA R6 DPF2 PHD1 88 ACTB ACTL6A 89 SMARCA R1 SS18 N * Table 4 further encompasses any interacting domain pair described herein, which includes interacting domain pairs described in the Tables, the Examples, and the detailed description.

III. Methods of Preparing Protein Complexes

The protein complexes and subunit proteins encompassed by the present invention can be obtained by methods well known in the art for protein purification and recombinant protein expression, as well as the methods described in details in the Examples. For example, the protein complexes encompassed by the present invention can be isolated using the TAP method described in Section 5, infra, and in WO 00/09716 and Rigaut et al., 1999, Nature Biotechnol. 17:1030-1032, which are each incorporated by reference in their entirety. Additionally, the protein complexes can be isolated by immunoprecipitation of the subunit proteins and combining the immunoprecipitated proteins. The protein complexes can also be produced by recombinantly expressing the subunit proteins and combining the expressed proteins.

In certain embodiments, the complexes can be generated by co-expressing the subunits of the complex in a cell and subsequently purifying the complex. In certain, more specific embodiments, the cell expresses at least one subunit of the complex by recombinant DNA technology. In other embodiments, the cells normally express the subunits of the complex. In certain other embodiments, the subunits of the complex are expressed separately, wherein the subunits can be expressed using recombinant DNA technology or wherein at least one subunit is purified from a cell that normally expresses the subunit. The individual subunits of the complex are incubated in vitro under conditions conducive to the binding of the subunits of a complex of the invention to each other to generate a complex of the invention.

If one or more of the subunits is expressed by recombinant DNA technology, any method known to the skilled artisan can be used to produce the recombinant protein. The nucleic and amino acid sequences of the subunit proteins of the protein complexes encompassed by the present invention are provided herein, such as in Table 1, and can be obtained by any method known in the art, e.g., by PCR amplification using synthetic primers hybridizable to the 3′ and 5′ ends of each sequence, and/or by cloning from a cDNA or genomic library using an oligonucleotide specific for each nucleotide sequence.

For recombinant expression of one or more of the proteins, the nucleic acid containing all or a portion of the nucleotide sequence encoding the protein can be inserted into an appropriate expression vector, i.e., a vector that contains the necessary elements for the transcription and translation of the inserted protein coding sequence. The necessary transcriptional and translational signals can also be supplied by the native promoter of the subunit protein gene, and/or flanking regions.

A variety of host-vector systems may be utilized to express the protein coding sequence. These include but are not limited to mammalian cell systems infected with virus (e.g., vaccinia virus, adenovirus, etc.); insect cell systems infected with virus (e.g., baculovirus); microorganisms such as yeast containing yeast vectors; or bacteria transformed with bacteriophage, DNA, plasmid DNA, or cosmid DNA. The expression elements of vectors vary in their strengths and specificities. Depending on the host-vector system utilized, any one of a number of suitable transcription and translation elements may be used.

In a preferred embodiment, a complex encompassed by the present invention is obtained by expressing the entire coding sequences of the subunit proteins in the same cell, either under the control of the same promoter or separate promoters. In yet another embodiment, a derivative, fragment or homologue of a subunit protein is recombinantly expressed. Preferably the derivative, fragment or homologue of the protein forms a complex with the other subunits of the complex, and more preferably forms a complex that binds to an anti-complex antibody.

Any method available in the art can be used for the insertion of DNA fragments into a vector to construct expression vectors containing a chimeric gene consisting of appropriate transcriptional/translational control signals and protein coding sequences. These methods may include in vitro recombinant DNA and synthetic techniques and in vivo recombinant techniques (genetic recombination). Expression of nucleic acid sequences encoding a subunit protein, or a derivative, fragment or homologue thereof, may be regulated by a second nucleic acid sequence so that the gene or fragment thereof is expressed in a host transformed with the recombinant DNA molecule(s). For example, expression of the proteins may be controlled by any promoter/enhancer known in the art. In a specific embodiment, the promoter is not native to the gene for the subunit protein. Promoters that may be used can be selected from among the many known in the art, and are chosen so as to be operative in the selected host cell.

In a specific embodiment, a vector is used that comprises a promoter operably linked to nucleic acid sequences encoding a subunit protein, or a fragment, derivative or homologue thereof, one or more origins of replication, and optionally, one or more selectable markers (e.g., an antibiotic resistance gene).

In another specific embodiment, an expression vector containing the coding sequence, or a portion thereof, of a subunit protein, either together or separately, is made by subcloning the gene sequences into the EcoRI restriction site of each of the three pGEX vectors (glutathione S-transferase expression vectors; Smith and Johnson, 1988, Gene 7:31-40). This allows for the expression of products in the correct reading frame.

Expression vectors containing the sequences of interest can be identified by three general approaches: (a) nucleic acid hybridization, (b) presence or absence of “marker” gene function, and (c) expression of the inserted sequences. In the first approach, coding sequences can be detected by nucleic acid hybridization to probes comprising sequences homologous and complementary to the inserted sequences. In the second approach, the recombinant vector/host system can be identified and selected based upon the presence or absence of certain “marker” functions (e.g., resistance to antibiotics, occlusion body formation in baculovirus, etc.) caused by insertion of the sequences of interest in the vector. For example, if a subunit protein gene, or portion thereof, is inserted within the marker gene sequence of the vector, recombinants containing the encoded protein or portion will be identified by the absence of the marker gene function (e.g., loss of β-galactosidase activity). In the third approach, recombinant expression vectors can be identified by assaying for the subunit protein expressed by the recombinant vector. Such assays can be based, for example, on the physical or functional properties of the interacting species in in vitro assay systems, e.g., formation of a complex comprising the protein or binding to an anti-complex antibody.

Once recombinant subunit protein molecules are identified and the complexes or individual proteins isolated, several methods known in the art can be used to propagate them. Using a suitable host system and growth conditions, recombinant expression vectors can be propagated and amplified in quantity. As previously described, the expression vectors or derivatives which can be used include, but are not limited to, human or animal viruses such as vaccinia virus or adenovirus; insect viruses such as baculovirus, yeast vectors; bacteriophage vectors such as lambda phage; and plasmid and cosmid vectors.

In addition, a host cell strain may be chosen that modulates the expression of the inserted sequences, or modifies or processes the expressed proteins in the specific fashion desired. Expression from certain promoters can be elevated in the presence of certain inducers; thus expression of the genetically-engineered subunit proteins may be controlled. Furthermore, different host cells have characteristic and specific mechanisms for the translational and post-translational processing and modification (e.g., glycosylation, phosphorylation, etc.) of proteins. Appropriate cell lines or host systems can be chosen to ensure that the desired modification and processing of the foreign protein is achieved. For example, expression in a bacterial system can be used to produce an unglycosylated core protein, while expression in mammalian cells ensures“native” glycosylation of a heterologous protein. Furthermore, different vector/host expression systems may effect processing reactions to different extents.

In other specific embodiments, a subunit protein or a fragment, homologue or derivative thereof, may be expressed as fusion or chimeric protein product comprising the protein, fragment, homologue, or derivative joined via a peptide bond to a heterologous protein sequence of a different protein. Such chimeric products can be made by ligating the appropriate nucleic acid sequences encoding the desired amino acids to each other by methods known in the art, in the proper coding frame, and expressing the chimeric products in a suitable host by methods commonly known in the art. Alternatively, such a chimeric product can be made by protein synthetic techniques, e.g., by use of a peptide synthesizer. Chimeric genes comprising a portion of a subunit protein fused to any heterologous protein-encoding sequences may be constructed.

In particular, protein subunit derivatives can be made by altering their sequences by substitutions, additions or deletions that provide for functionally equivalent molecules. Due to the degeneracy of nucleotide coding sequences, other DNA sequences that encode substantially the same amino acid sequence as a subunit gene or cDNA can be used in the practice encompassed by the present invention. These include but are not limited to nucleotide sequences comprising all or portions of the subunit protein gene that are altered by the substitution of different codons that encode a functionally equivalent amino acid residue within the sequence, thus producing a silent change. Likewise, the derivatives of the invention include, but are not limited to, those containing, as a primary amino acid sequence, all or part of the amino acid sequence of a subunit protein, including altered sequences in which functionally equivalent amino acid residues are substituted for residues within the sequence resulting in a silent change. For example, one or more amino acid residues within the sequence can be substituted by another amino acid of a similar polarity that acts as a functional equivalent, resulting in a silent alteration. Substitutes for an amino acid within the sequence may be selected from other members of the class to which the amino acid belongs. For example, the nonpolar (hydrophobic) amino acids include alanine, leucine, isoleucine, valine, proline, phenylalanine, tryptophan and methionine. The polar neutral amino acids include glycine, serine, threonine, cysteine, tyrosine, asparagine, and glutamine. The positively charged (basic) amino acids include arginine, lysine and histidine. The negatively charged (acidic) amino acids include aspartic acid and glutamic acid.

In a specific embodiment, up to 1%, 2%, 5%, 10%, 15% or 20% of the total number of amino acids in the wild type protein are substituted or deleted; or 1, 2, 3, 4, 5, or 6 or up to 10 or up to 20 amino acids are inserted, substituted or deleted relative to the wild type protein.

The protein subunit derivatives and analogs of the invention can be produced by various methods known in the art. The manipulations which result in their production can occur at the gene or protein level. For example, the cloned gene sequences can be modified by any of numerous strategies known in the art (Sambrook et al., 1989, Molecular Cloning, A Laboratory Manual, 2d Ed., Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.). The sequences can be cleaved at appropriate sites with restriction endonuclease(s), followed by further enzymatic modification if desired, isolated, and ligated in vitro. In the production of the gene encoding a derivative, homologue or analog of a subunit protein, care should be taken to ensure that the modified gene retains the original translational reading frame, uninterrupted by translational stop signals, in the gene region where the desired activity is encoded.

Additionally, the encoding nucleic acid sequence can be mutated in vitro or in vivo, to create and/or destroy translation, initiation, and/or termination sequences, or to create variations in coding regions and/or form new restriction endonuclease sites or destroy pre-existing ones, to facilitate further in vitro modification. Any technique for mutagenesis known in the art can be used, including but not limited to, chemical mutagenesis and in vitro site-directed mutagenesis (Hutchinson et al., 1978, J. Bioi. Chern. 253:6551-6558), amplification with PCR primers containing a mutation, etc.

Once a recombinant cell expressing a subunit protein, or fragment or derivative thereof, is identified, the individual gene product or complex can be isolated and analyzed. This is achieved by assays based on the physical and/or functional properties of the protein or complex, including, but not limited to, radioactive labeling of the product followed by analysis by gel electrophoresis, immunoassay, cross-linking to marker-labeled product, etc.

The subunit proteins and complexes may be isolated and purified by standard methods known in the art (either from natural sources or recombinant host cells expressing the complexes or proteins) or methods described in the examples herein, including but not restricted to column chromatography (e.g., ion exchange, affinity, gel exclusion, reversed-phase high pressure, fast protein liquid, etc.), differential centrifugation, differential solubility, or by any other standard technique used for the purification of proteins. In some embodiment, the isolation methods include the density sedimentation-based approaches. Functional properties may be evaluated using any suitable assay known in the art.

Alternatively, once a subunit protein or its derivative, is identified, the amino acid sequence of the protein can be deduced from the nucleic acid sequence of the chimeric gene from which it was encoded. As a result, the protein or its derivative can be synthesized by standard chemical methods known in the art (e.g., Hunkapiller et al., 1984, Nature 310:105-111).

In addition, complexes of analogs and derivatives of subunit proteins can be chemically synthesized. For example, a peptide corresponding to a portion of a subunit protein, which comprises the desired domain or mediates the desired activity in vitro (e.g., complex formation) can be synthesized by use of a peptide synthesizer.

Furthermore, if desired, non-classical amino acids or chemical amino acid analogs can be introduced as a substitution or addition into the protein sequence. Non-classical amino acids include but are not limited to the D-isomers of the common amino acids, a-amino isobutyric acid, 4-aminobutyric acid (4-Abu), 2-aminobutyric acid (2-Abu), 6-amino hexanoic acid (Ahk), 2-amino isobutyric acid (2-Aib), 3-amino propionoic acid, ornithine, norleucine, norvaline, hydroxyproline, sarcosine, citrulline, cysteic acid. t-butylglycine, t-butylalanine, phenylglycine, cyclohexylalanine, β-alanine, fluoro-amino acids, designer amino acids such as β-methyl amino acids, Ca-methyl amino acids. Na-methylamino acids, and amino acid analogs in general. Furthermore, the amino acid can be D (dextrorotary) or L (levorotary).

In cases where natural products are suspected of being mutant or are purified from new species, the amino acid sequence of a subunit protein purified from the natural Source. as well as those expressed in vitro, or from synthesized expression vectors in vivo or in vitro, can be determined from analysis of the DNA sequence, or alternatively, by direct sequencing of the purified protein. Such analysis can be per formed by manual sequencing or through use of an automated amino acid sequenator.

The complexes can also be analyzed by hydrophilicity analysis (Hopp and Woods, 1981, Proc. Natl. Acad. Sci. USA 78:3824-3828). A hydrophilicity profile can be used to identify the hydrophobic and hydrophilic regions of the proteins, and help predict their orientation in designing substrates for experimental manipulation, such as in binding experiments, antibody synthesis, etc. Secondary structural analysis can also be done to identify regions of the subunit proteins, or their derivatives, that assume specific structures (Chou and Fasman, 1974, Biochemistry 13:222-23). Manipulation, translation, secondary structure prediction, hydrophilicity and hydrophobicity profile predictions, open reading frame prediction and plotting, and determination of sequence homologies, etc., can be accomplished using computer software programs available in the art.

Other methods of structural analysis including but not limited to X-ray crystallography (Engstrom, 1974, Biochem. Exp. Bioi. 11:7-13), mass spectroscopy and gas chromatography (Methods in Protein Science, J. Wiley and Sons, New York, 1997), and computer modeling (Fietterick and Zoller, eds., 1986, Computer Graphics and Molecular Modeling, In: Current Communications in Molecular Biology, Cold Spring Harbor Laboratory, Cold Spring Harbor Press, New York) can also be employed.

In certain embodiments, at least one subunit of the complex is generated by recombinant DNA technology and is a derivative of the naturally occurring protein. In certain embodiments, the derivative is a fusion protein, wherein the amino acid sequence of the naturally occurring protein is fused to a second amino acid sequence. The second amino acid sequence can be a peptide tag that facilitates the purification, immunological detection and identification as well as visualization of the protein. A variety of peptide tags with different functions and affinities can be used in the invention to facilitate the purification of the subunit or the complex comprising the subunit by affinity chromatography. A specific peptide tag comprises the constant regions of an immunoglobulin. In other embodiments, the subunit is fused to a leader sequence to promote secretion of the protein subunit from the cell that expresses the protein subunit. Other peptide tags that can be used with the invention include, but are not limited to, FLAG epitope or HA tag.

If the subunits of the complex are co-expressed, the complex can be purified by any method known to the skilled artisan, including immunoprecipitation, ammonium Sulfate precipitation, acid extraction, anion or cation exchange chromatography, phosphocellulose chromatography, immunoaffinity chromatography, hydroxyapatite chromatography, and lectin chromatography.

The methods described herein can be used to purify the individual subunits of the complex of the invention. The methods can also be used to purify the entire complex. Generally, the purification conditions as well as the dissociation constant of the complex will determine whether the complex remains intact during the purification procedure. Such conditions include, but are not limited to, salt concentration, detergent concentration, pH and redox-potential.

If at least one subunit of the complex comprises a peptide tag, the invention the invention also contemplates methods for the purification of the complexes of the invention which are based on the properties of the peptide tag. One approach is based on specific molecular interactions between a tag and its binding partner. The other approach relies on the immunospecific binding of an antibody to an epitope present on the tag. The principle of affinity chromatography well known in the art is generally applicable to both of these approaches. In another embodiment, the complex is purified using immunoprecipitation.

In certain embodiments, the individual subunits of a complex of the invention are expressed separately. The subunits are subsequently incubated under conditions conducive to the binding of the subunits of the complex to each other to generate the complex. In certain, more specific embodiments, the subunits are purified before complex formation. In other embodiments the supernatants of cells that express the subunit (if the subunit is secreted) or cell lysates of cells that express the subunit (if the subunit is not secreted) are combined first to give rise to the complex, and the complex is purified subsequently. Parameters affecting the ability of the subunits of the invention to bind to each other include, but are not limited to, salt concentration, detergent concentration, pH, and redox-potential. Once the complex has formed, the complex can be purified or concentrated by any method known to the skilled artisan. In certain embodiments, the complex is separated from the remaining individual subunits by filtration. The pore size of the filter should be such that the individual subunits can still pass through the filter, but the complex does not pass through the filter. Other methods for enriching the complex include Sucrose gradient centrifugation and chromatography.

IV. Screening Methods

a. Modulators of Complex Formation

-   -   A complex encompassed by the present invention, the component         proteins of the complex and         nucleic acids encoding the component proteins, as well as         derivatives and fragments of the amino and nucleic acids, can be         used to screen for compounds that bind to, or modulate the         amount of, activity of, formation of, or stability of, said         complex, and thus, have potential use as modulators, i.e.,         agonists or antagonists, of complex activity, complex stability,         and/or complex formation, i.e., the amount of complex formed,         and/or protein component composition of the complex.

Thus, the present invention is also directed to methods for screening for molecules that bind to, or modulate the amount of activity of, or protein component composition of a complex encompassed by the present invention. In one embodiment of the invention, the method for screening for a molecule that modulates directly or indirectly the function, activity or formation of a complex encompassed by the present invention comprises exposing said complex, or a cell or organism containing the complex machinery, to one or more test agents under conditions conducive to modulation; and determining the amount of activity of or identities of the protein components of said complex, wherein a change in said amount, activity, or identities relative to said amount, activity or identities in the absence of the test agents indicates that the test agents modulate function, activity or formation of said complex. Such screening assays can be carried out using cell-free and cell-based methods that are commonly known in the art.

In one embodiment, the method for screening for molecules that bind to, or modulate the amount of, activity of, formation of, or stability of, a complex encompassed by the present invention further comprises incubating subunits of the isolated modified protein complex in the presence of a test agent under conditions conductive to form the modified protein complex prior to step of contacting described above. In another embodiment, the method further comprises a step of determining the presence and/or amount of the individual subunits in the isolated modified protein complex.

The present invention is further directed to methods for screening for molecules that modulate the expression of a subunit of a complex encompassed by the present invention. In one embodiment of the invention, the method for screening for a molecule that modulates the expression of a subunit of a complex of the invention comprises exposing a cell or organism containing the nucleic acid encoding the component, to one or more compounds under conditions conducive to modulation; and determining the amount of activity of, or identities of the protein components of said complex, wherein a change in said amount, activity, or identities relative to said amount, activity or identities in the absence of said compounds indicates that the compounds modulate expression of said complex. Such screening assays can be carried out using cell-free and cell based methods that are commonly known in the art. If activity of the complex or component is used as read-out of the assay, subsequent assays, such as western blot analysis or northern blot analysis, may be performed to verify that the modulated expression levels of the component are responsible for the modulated activity.

In a further specific embodiment, a modulation of the formation or stability of a complex can be determined. In some embodiment, the agent inhibits the formation or stability of the isolated modified protein complex. In specific embodiments, the agent inhibits the formation or stability of the isolated modified protein complex by inhibiting the interaction between at least one interacting domain pair listed in Table 4. The agent may be, e.g., a small molecule inhibitor, a small molecule degrader, CRISPR guide RNA (gRNA), RNA interfering agent, oligonucleotide, peptide or peptidomimetic inhibitor, aptamer, antibody, or intrabody. In a specific embodiment, the agent comprises an antibody and/or intrabody, or an antigen binding fragment thereof, which specifically binds to at least one subunit of the isolated modified protein complex. In some other embodiments, the agent enhances the formation or stability of the isolated modified protein complex. In specific embodiments, the agent enhances the formation or stability of the protein complex by stabilizing the interaction between at least one interacting domain pair listed in Table 4. The agent may be a small molecule compound, e.g., a small molecule stabilizer.

Such a modulation can either be a change in the typical time course of its formation or a change in the typical steps leading to the formation of the complete complex. Such changes can for example be detected by analyzing and comparing the process of complex formation in untreated wild type cells of a particular type and/or cells showing or having the predisposition to develop a certain disease phenotype and/or cells which have been treated with particular conditions and/or particular agents in a particular situation. Methods to study such changes in time course are well known in the art and include for example Western-blot analysis of the proteins in the complex isolated at different steps of its formation.

In a specific embodiment, fragments and/or analogs of protein components of a complex, especially peptidomimetics, are screened for activity as competitive or non-competitive inhibitors of complex formation, which thereby inhibit complex activity or formation.

In another embodiment, the present invention is directed to a method for screening for a molecule that binds a protein complex encompassed by the present invention comprising exposing said complex, or a cell or organism containing the complex machinery, to one or more candidate molecules; and determining whether said complex is bound by any of said candidate molecules.

Screening the libraries can be accomplished by any of a variety of commonly known methods. See, e.g., the following references, which disclose screening of peptide libraries: Parmley and Smith, 1989, Adv. Exp. Med. Biol. 251:215-218: Scott and Smith, 1990, Science 249:386-390; Fowlkes et al., 1992, BioTechniques 13:422-427; Oldenburg et al., 1992, Proc. Natl. Acad. Sci. USA 89:5393-5397: Yu et al., 1994, Cell 76:933-945; Staudt et al., 1988, Science 241: 577-580; Bock et al., 1992, Nature 355:564-566: Tuerk et al., 1992, Proc. Natl. Acad. Sci. USA 89:6988-6992: Ellington et al., 1992, Nature 355:850-852; U.S. Pat. Nos. 5,096,815, 5,223,409, and 5,198,346, all to Ladner et al.; Rebar and Pabo, 1993, Science 263:671-673; and International Patent Publication No. WO 94/18318.

In a specific embodiment, screening can be carried out by contacting the library members with a complex immobilized on a solid phase, and harvesting those library members that bind to the protein (or encoding nucleic acid or derivative). Examples of such screening methods, termed “panning” techniques, are described by way of example in Parmley and Smith, 1988, Gene 73:305-318; Fowlkes et al., 1992, BioTechniques 13:422-427; International Patent Publication No. WO 94/18318; and in references cited herein above.

In a specific embodiment, fragments and/or analogs of protein components of a complex, especially peptidomimetics, are screened for activity as competitive or non-competitive inhibitors of complex formation (amount of complex or composition of complex) or activity in the cell, which thereby inhibit complex activity or formation in the cell.

In one embodiment, agents that modulate (i.e., antagonize or agonize) complex activity or formation can be screened for using a binding inhibition assay, wherein agents are screened for their ability to modulate formation of a complex under aqueous, or physiological, binding conditions in which complex formation occurs in the absence of the agent to be tested. Agents that interfere with the formation of complexes of the invention are identified as antagonists of complex formation. Agents that promote the formation of complexes are identified as agonists of complex formation. Agents that completely block the formation of complexes are identified as inhibitors of complex formation.

Methods for screening may involve labeling the component proteins of the complex with radioligands (e.g., ¹²⁵I or ³H), magnetic ligands (e.g., paramagnetic beads covalently attached to photobiotin acetate), fluorescent ligands (e.g., fluorescein or rhodamine), or enzyme ligands (e.g., luciferase or β-galactosidase). The reactants that bind in solution can then be isolated by one of many techniques known in the art, including but not restricted to, co-immunoprecipitation of the labeled complex moiety using antisera against the unlabeled binding partner (or labeled binding partner with a distinguishable marker from that used on the second labeled complex moiety), immunoaffinity chromatography, size exclusion chromatography, and gradient density centrifugation. In a preferred embodiment, the labeled binding partner is a small fragment or peptidomimetic that is not retained by a commercially available filter. Upon binding, the labeled species is then unable to pass through the filter, providing for a simple assay of complex formation.

In certain embodiments, the protein components of a complex of the invention are labeled with different fluorophores such that binding of the components to each other results in FRET (Fluorescence Resonance Energy Transfer). If the addition of a compound results in a difference in FRET compared to FRET in the absence of the compound, the compound is identified as a modulator of complex formation. If FRET in the presence of the compound is decreased in comparison to FRET in the absence of the compound, the compound is identified as an inhibitor of complex formation. If FRET in the presence of the compound is increased in comparison to FRET in the absence of the compound, the compound is identified as an activator of complex formation.

In certain other embodiments, a protein component of a complex of the invention is labeled with a fluorophore such that binding of the component to another protein component to form a complex of the invention results in FP (Fluorescence Polarization). If the addition of a compound results in a difference in FP compared to FP in the absence of the compound, the compound is identified as a modulator of complex formation.

Methods commonly known in the art are used to label at least one of the component members of the complex. Suitable labeling methods include, but are not limited to, radiolabeling by incorporation of radiolabeled amino acids, e.g., ³H-leucine or ³⁵8-methionine, radiolabeling by post-translational iodination with ¹²⁵I or ¹³¹I using the chloramine T method, Bolton-Hunter reagents, etc., or labeling with ³²P using phosphorylase and inorganic radiolabeled phosphorous, biotin labeling with photobiotin-acetate and sunlamp exposure, etc. In cases where one of the members of the complex is immobilized, e.g., as described infra, the free species is labeled. Where neither of the interacting species is immobilized, each can be labeled with a distinguishable marker such that isolation of both moieties can be followed to provide for more accurate quantification, and to distinguish the formation of homomeric from heteromeric complexes. Methods that utilize accessory proteins that bind to one of the modified interactants to improve the sensitivity of detection, increase the stability of the complex, etc., are provided.

The physical parameters of complex formation can be analyzed by quantification of complex formation using assay methods specific for the label used, e.g., liquid scintillation counting for radioactivity detection, enzyme activity for enzyme-labeled moieties, etc. The reaction results are then analyzed utilizing Scatchard analysis, Hill analysis, and other methods commonly known in the arts (see, e.g., Proteins, Structures, and Molecular Principles, 2nd Edition (1993) Creighton, Ed., W.H. Freeman and Company, New York).

Agents/molecules (candidate molecules) to be screened can be provided as mixtures of a limited number of specified compounds, or as compound libraries, peptide libraries and the like. Agents/molecules to be screened may also include all forms of antisera, antisense nucleic acids, etc., that can modulate complex activity or formation. Exemplary candidate molecules and libraries for screening are set forth below.

In certain embodiments, the compounds are screened in pools. Once a positive pool has been identified, the individual molecules of that pool are tested separately. In certain embodiments, the pool size is at least 2, at least 5, at least 10, at least 25, at least 50, at least 75, at least 100, at least 150, at least 200, at least 250, or at least 500 compounds.

In certain embodiments of the invention, the screening method further comprises determining the structure of the candidate molecule. The structure of a candidate molecule can be determined by any technique known to the skilled artisan.

i. Test Agents

Any molecule known in the art can be tested for its ability to modulate (increase or decrease) the amount of, activity of, or protein component composition of a complex encompassed by the present invention as detected by a change in the amount of, activity of, or protein component composition of said complex. By way of example, a change in the amount of the complex can be detected by detecting a change in the amount of the complex that can be isolated from a cell expressing the complex machinery. In other embodiments, a change in signal intensity (e.g., when using FRET or FP) in the presence of a compound compare to the absence of the compound indicates that the compound is a modulator of complex formation. For identifying a molecule that modulates complex activity, candidate molecules can be directly provided to a cell expressing the complex, or, in the case of candidate proteins, can be provided by providing their encoding nucleic acids under conditions in which the nucleic acids are recombinantly expressed to produce the candidate proteins within the cell expressing the complex machinery, the complex is then purified from the cell and the purified complex is assayed for activity using methods well known in the art, not limited to those described, Supra.

In certain embodiments, the invention provides screening assays using chemical libraries for molecules which modulate, e.g., inhibit, antagonize, or agonize, the amount of, activity of, or protein component composition of the complex. The chemical libraries can be peptide libraries, peptidomimetic libraries, chemically synthesized libraries, recombinant, e.g., phage display libraries, and in vitro translation-based libraries, other non-peptide synthetic organic libraries, etc.

Exemplary libraries are commercially available from several sources (ArOule, Tripos/PanLabs, ChemDesign, and Pharmacopoeia). In some cases, these chemical libraries are generated using combinatorial strategies that encode the identity of each member of the library on a substrate to which the member compound is attached, thus allowing direct and immediate identification of a molecule that is an effective modulator. Thus, in many combinatorial approaches, the position on a plate of a compound specifies that compound's composition. Also, in one example, a single plate position may have from 1-20 chemicals that can be screened by administration to a well containing the interactions of interest. Thus, if modulation is detected, Smaller and Smaller pools of interacting pairs can be assayed for the modulation activity. By Such methods, many candidate molecules can be screened.

Many diversity libraries suitable for use are known in the art and can be used to provide compounds to be tested according to the present invention. Alternatively, libraries can be constructed using standard methods. Chemical (synthetic) libraries, recombinant expression libraries, or polysome based libraries are exemplary types of libraries that can be used.

The libraries can be constrained or semirigid (having some degree of structural rigidity), or linear or non-constrained. The library can be a cDNA or genomic expression library, random peptide expression library or a chemically synthesized random peptide library, or non-peptide library. Expression libraries are introduced into the cells in which the assay occurs, where the nucleic acids of the library are expressed to produce their encoded proteins.

In one embodiment, peptide libraries that can be used in the present invention may be libraries that are chemically synthesized in vitro. Examples of such libraries are given in Houghten et al., 1991, Nature 354:84-86, which describes mixtures of free hexapeptides in which the first and second residues in each peptide were individually and specifically defined; Lam et al., 1991, Nature 354:82-84, which describes a “one bead, one peptide’ approach in which a solid phase split synthesis scheme produced a library of peptides in which each bead in the collection had immobilized thereon a single, random sequence of amino acid residues; Medynski, 1994, Bio/Technology 12:709-710, which describes split synthesis and T-bag synthesis methods; and Gallop et al., 1994, J. Medicinal Chemistry 37(9): 1233-1251. Simply by way of other examples, a combinatorial library may be prepared for use, according to the methods of Ohlmeyer et al., 1993, Proc. Natl. Acad. Sci. USA 90:10922-10926; Erb et al., 1994, Proc. Natl. Acad. Sci. USA 91:11422-11426; Houghten et al., 1992, Biotechniques 13:412; Jayawickreme et al., 1994, Proc. Natl. Acad. Sci. USA 91:1614-1618; or Salmon et al., 1993. Proc. Natl. Acad. Sci. USA 90:11708-11712. PCT Publication No. WO 93/20242 and Brenner and Lerner. 1992, Proc. Natl. Acad. Sci. USA 89:5381-5383 describe “encoded combinatorial chemical libraries,” that contain oligonucleotide identifiers for each chemical polymer library member.

In a preferred embodiment, the library screened is a biological expression library that is a random peptide phage display library, where the random peptides are constrained (e.g., by virtue of having disulfide bonding).

Further, more general, structurally constrained, organic diversity (e.g., nonpeptide) libraries, can also be used.

Conformationally constrained libraries that can be used include but are not limited to those containing invariant cysteine residues which, in an oxidizing environment, cross link by disulfide bonds to form cystines, modified peptides (e.g., incorporating fluorine, metals, isotopic labels, are phosphorylated, etc.), peptides containing one or more non-naturally occurring amino acids, non-peptide structures, and peptides containing a significant fraction of Y-carboxyglutamic acid.

Libraries of non-peptides, e.g., peptide derivatives (for example that contain one or more non-naturally occurring amino acids) can also be used. One example of these are peptoid libraries (Simon et al., 1992, Proc. Natl. Acad. Sci. USA 89:9367-9371). Peptoids are polymers of non-natural amino acids that have naturally occurring side chains attached not to the alpha carbon but to the backbone amino nitrogen.

Since peptoids are not easily degraded by human digestive enzymes, they are advantageously more easily adaptable to drug use. Another example of a library that can be used, in which the amide functionalities in peptides have been permethylated to generate a chemically transformed combinatorial library, is described by Ostresh et al., 1994, Proc. Natl. Acad. Sci. USA 91:11138-11142).

The members of the peptide libraries that can be screened according to the invention are not limited to containing the 20 naturally occurring amino acids. In particular, chemically synthesized libraries and polysome based libraries allow the use of amino acids in addition to the 20 naturally occurring amino acids (by their inclusion in the precursor pool of amino acids used in library production). In specific embodiments, the library members contain one or more non-natural or non-classical amino acids or cyclic peptides. Non-classical amino acids include but are not limited to the D-isomers of the common amino acids, a-amino isobutyric acid, 4-aminobutyric acid, Abu, 2-amino butyric acid; γ-Abu, ε-Ahk, 6-amino hexanoic acid; Aib, 2-amino isobutyric acid: 3-amino propionic acid: ornithine; norleucine: norvaline, hydroxyproline, sarcosine, citrulline, cysteic acid, t-butylglycine, t-butylalanine, phenylglycine, cyclohexylalanine, β-alanine, designer amino acids such as β-methyl amino acids, Ca-methyl amino acids, Na-methyl amino acids, fluoro-amino acids and amino acid analogs in general. Furthermore, the amino acid can be D (dextrorotary) or L (levorotary).

In a specific embodiment, fragments and/or analogs of protein components of complexes of the invention, especially peptidomimetics, are screened for activity as competitive or non-competitive inhibitors of complex activity or formation.

In another embodiment encompassed by the present invention, combinatorial chemistry can be used to identify modulators of the complexes. Combinatorial chemistry is capable of creating libraries containing hundreds of thousands of compounds, many of which may be structurally similar. While high throughput screening programs are capable of screening these vast libraries for affinity for known targets, new approaches have been developed that achieve libraries of smaller dimension but which provide maximum chemical diversity. (See, e.g., Matter, 1997, Journal of Medicinal Chemistry 40:1219-1229).

One method of combinatorial chemistry, affinity fingerprinting, has previously been used to test a discrete library of small molecules for binding affinities for a defined panel of proteins. The fingerprints obtained by the Screen are used to predict the affinity of the individual library members for other proteins or receptors of interest (in the instant invention, the protein complexes encompassed by the present invention and protein components thereof) The fingerprints are compared with fingerprints obtained from other compounds known to react with the protein of interest to predict whether the library compound might similarly react. For example, rather than testing every ligand in a large library for interaction with a complex or protein component, only those ligands having a fingerprint similar to other compounds known to have that activity could be tested. (See, e.g., Kauvar et al., 1995, Chemistry and Biology 2:107-118; Kauvar, 1995, Affinity finger printing, Pharmaceutical Manufacturing International. 8:25-28; and Kauvar, Toxic-Chemical Detection by Pattern Recognition in New Frontiers in Agrochemical Immunoassay, D. Kurtz. L. Stanker and J. H. Skerritt. Editors, 1995, AOAC: Washington, D.C., 305-312).

Kay et al., 1993, Gene 128:59-65 (Kay) discloses a method of constructing peptide libraries that encode peptides of totally random sequence that are longer than those of any prior conventional libraries. The libraries disclosed in Kay encode totally synthetic random peptides of greater than about 20 amino acids in length. Such libraries can be advantageously screened to identify complex modulators. (See also U.S. Pat. No. 5,498,538 dated Mar. 12, 1996; and PCT Publication No. WO 94/18318 dated Aug. 18, 1994).

A comprehensive review of various types of peptide libraries can be found in Gallop et al., 1994, J. Med. Chem. 37:1233-1251.

Libraries screened using the methods encompassed by the present invention can comprise a variety of types of compounds. Examples of libraries that can be screened in accordance with the methods of the invention include, but are not limited to, peptoids; random biooligomers; diversomers such as hydantoins, benzodiazepines and dipeptides; vinylogous polypeptides; nonpeptidal peptidomimetics; oligocarbamates; peptidyl phosphonates; peptide nucleic acid libraries; antibody libraries; carbohydrate libraries; and small molecule libraries (preferably, small organic molecule libraries). In some embodiments, the compounds in the libraries screened are nucleic acid or peptide molecules. In a non-limiting example, peptide molecules can exist in a phage display library. In other embodiments, the types of compounds include, but are not limited to, peptide analogs including peptides comprising non-naturally occurring amino acids, e.g., D-amino acids, phosphorous analogs of amino acids, such as a-amino phosphoric acids and a-amino phosphoric acids, or amino acids having non-peptide linkages, nucleic acid analogs such as phosphorothioates and PNAs, hormones, antigens, synthetic or naturally occurring drugs, opiates, dopamine, serotonin, catecholamines, thrombin, acetylcholine, prostaglandins, organic molecules, pheromones, adenosine, sucrose, glucose, lactose and galactose. Libraries of polypeptides or proteins can also be used in the assays of the invention.

In a preferred embodiment, the combinatorial libraries are small organic molecule libraries including, but not limited to, benzodiazepines, isoprenoids, thiazolidinones, metathiazanones, pyrrolidines, morpholino compounds, and benzodiazepines. In another embodiment, the combinatorial libraries comprise peptoids; random bio-oligomers; benzodiazepines; diversomers such as hydantoins, benzodiazepines and dipeptides; vinylogous polypeptides; nonpeptidal peptidomimetics; oligocarbamates; peptidyl phosphonates; peptide nucleic acid libraries; antibody libraries; or carbohydrate libraries. Combinatorial libraries are themselves commercially available (see, e.g., ComGenex, Princeton, N.J.; Asinex, Moscow, Ru, Tripos, Inc., St. Louis, Mo.; ChemStar, Ltd, Moscow, Russia; 3D Pharmaceuticals, Exton, Pa.; Martek Biosciences, Columbia, Md.; etc.).

In a preferred embodiment, the library is preselected so that the compounds of the library are more amenable for cellular uptake. For example, compounds are selected based on specific parameters such as, but not limited to, size, lipophilicity, hydrophilicity, and hydrogen bonding, which enhance the likelihood of compounds getting into the cells. In another embodiment, the compounds are analyzed by three-dimensional or four-dimensional computer computation programs.

The combinatorial compound library for use in accordance with the methods encompassed by the present invention may be synthesized. There is a great interest in synthetic methods directed toward the creation of large collections of small organic compounds, or libraries, which could be screened for pharmacological, biological or other activity. The synthetic methods applied to create vast combinatorial libraries are performed in solution or in the solid phase, i.e., on a solid support. Solid-phase synthesis makes it easier to conduct multi-step reactions and to drive reactions to completion with high yields because excess reagents can be easily added and washed away after each reaction step. Solid-phase combinatorial synthesis also tends to improve isolation, purification and screening. However, the more traditional solution phase chemistry supports a wider variety of organic reactions than solid-phase chemistry.

Combinatorial compound libraries encompassed by the present invention may be synthesized using the apparatus described in U.S. Pat. No. 6,190,619 to Kilcoin et al., which is hereby incorporated by reference in its entirety. U.S. Pat. No. 6,190,619 discloses a synthesis apparatus capable of holding a plurality of reaction vessels for parallel synthesis of multiple discrete compounds or for combinatorial libraries of compounds.

In one embodiment, the combinatorial compound library can be synthesized in solution. The method disclosed in U.S. Pat. No. 6,194,612 to Boger et al., which is hereby incorporated by reference in its entirety, features compounds useful as templates for solution phase synthesis of combinatorial libraries.

The template is designed to permit reaction products to be easily purified from unreacted reactants using liquid/liquid or solid/liquid extractions. The compounds produced by combinatorial synthesis using the template will preferably be small organic molecules. Some compounds in the library may mimic the effects of non-peptides or peptides.

In contrast to solid phase synthesize of combinatorial compound libraries, liquid phase synthesis does not require the use of specialized protocols for monitoring the individual steps of a multistep solid phase synthesis (Egner et al., 1995, J. Org. Chem. 60:2652; Anderson et al., 1995, J. Org. Chem. 60:2650; Fitch et al., 1994, I Org. Chem. 59:7955; Look et al., 1994, J. Org. Chem. 49:7588; Metzger et al., 1993, Angew. Chem., Int. Ed. Engl. 32:894; Youngquist et al., 1994, Rapid Commun. Mass Spect. 8:77; Chu et al., 1995, J. Am. Chem. Soc. 117:5419; Brummel et al., 1994, Science 264:399; and Stevanovic et al., 1993, Bioorg. Med. Chem. Lett. 3:431).

Combinatorial compound libraries useful for the methods encompassed by the present invention can be synthesized on solid supports. In one embodiment, a split synthesis method, a protocol of separating and mixing solid supports during the synthesis, is used to synthesize a library of compounds on solid supports (see e.g., Lam et al., 1997. Chem. Rev. 97:41-448; Ohlmeyer et al., 1993, Proc. Nat. Acad. Sci. USA 90:10922-10926 and references cited therein). Each solid support in the final library has substantially one type of compound attached to its surface. Other methods for synthesizing combinatorial libraries on solid supports, wherein one product is attached to each support, will be known to those of skill in the art (see, e.g., Nefzi et al., 1997, Chem. Rev. 97:449-472).

As used herein, the term “solid support” is not limited to a specific type of solid support. Rather a large number of supports are available and are known to one skilled in the art. Solid supports include silica gels, resins, derivatized plastic films, glass beads, cotton, plastic beads, polystyrene beads, alumina gels, and polysaccharides. A suitable solid support may be selected on the basis of desired end use and suitability for various synthetic protocols. For example, for peptide synthesis, a solid support can be a resin such as p-methylbenzhydrylamine (pMBHA) resin (Peptides International, Louisville, Ky.), polystyrenes (e.g., PAM-resin obtained from Bachem Inc., Peninsula Laboratories, etc.), including chloromethylpolystyrene, hydroxymethylpolystyrene and aminomethylpolystyrene, poly (dimethylacrylamide)-grafted styrene co-divinyl-benzene (e.g., POLYHIPE resin, obtained from Aminotech, Canada), polyamide resin (obtained from Peninsula Laboratories), polystyrene resin grafted with polyethylene glycol (e.g., TENTAGEL or ARGOGEL, Bayer, Tubingen, Germany) polydimethylacrylamide resin (obtained from Milligen/Biosearch, California), or Sepharose (Pharmacia, Sweden).

In some embodiments encompassed by the present invention, compounds can be attached to solid supports via linkers. Linkers can be integral and part of the solid support, or they may be nonintegral that are either synthesized on the solid support or attached thereto after synthesis. Linkers are useful not only for providing points of compound attachment to the solid support, but also for allowing different groups of molecules to be cleaved from the solid support under different conditions, depending on the nature of the linker. For example, linkers can be, inter alia, electrophilically cleaved, nucleophilically cleaved, photocleavable, enzymatically cleaved, cleaved by metals, cleaved under reductive conditions or cleaved under oxidative conditions. In a preferred embodiment, the compounds are cleaved from the solid support prior to high throughput screening of the compounds.

In certain embodiments of the invention, the agent is a small molecule.

ii. Cell-Free Assays

In certain embodiments, the method for identifying a modulator of the formation or stability of a complex of the invention can be carried out in vitro, particularly in a cell-free system. In certain, more specific embodiments, the complex is purified. In certain embodiments the candidate molecule is purified.

In a specific embodiment, screening can be carried out by contacting the library members with a complex immobilized on a solid phase, and harvesting those library members that bind to the protein (or encoding nucleic acid or derivative). Examples of such screening methods, termed “panning techniques, are described by way of example in Parmley and Smith, 1988, Gene 73:305-318: Fowlkes et al., 1992, BioTechniques 13:422-427: International Patent Publication No. WO 94/18318; and in references cited herein above.

In one embodiment, agents that modulate (i.e., antagonize or agonize) complex activity or formation can be screened for using a binding inhibition assay, wherein agents are screened for their ability to modulate formation of a complex under aqueous, or physiological, binding conditions in which complex formation occurs in the absence of the agent to be tested. Agents that interfere with the formation of complexes of the invention are identified as antagonists of complex formation. Agents that promote the formation of complexes are identified as agonists of complex formation. Agents that completely block the formation of complexes are identified as inhibitors of complex formation. In an exemplary embodiment, the binding conditions are, for example, but not by way of limitation, in an aqueous salt solution of 10-250 mM NaCl, 5-50 mM Tris-HCl, pH 5-8, and 0.5% Triton X-100 or other detergent that improves specificity of interaction. Metal chelators and/or divalent cations may be added to improve binding and/or reduce proteolysis. Reaction temperatures may include 4, 10, 15, 22, 25, 35, or 42 degrees Celsius, and time of incubation is typically at least 15 seconds, but longer times are preferred to allow binding equilibrium to occur. Particular complexes can be assayed using routine protein binding assays to determine optimal binding conditions for reproducible binding.

Determining the interaction between two molecules can be accomplished using standard binding or enzymatic analysis assays. These assays may include thermal shift assays (measure of variation of the melting temperature of the protein alone and in the presence of a molecule) (R. Zhang, F. Monsma, (2010) Curr. Opin. Drug Discov. Devel., 13:389-402), SPR (surface plasmon resonance) (T. Neumann, et al. (2007), Curr. Top Med. Chem., 7: 1630-1642), FRET/BRET (Fluorescence or Bioluminescence Resonance Excitation Transfer) (A. L. Mattheyses, A. I. Marcus, (2015), Methods Mol. Biol., 1278:329-339; J. Bacart, et al. (2008), Biotechnol. J., 3: 311-324), Elisa (Enzyme-linked immunosorbent assay) (Z. Weng, Q. Zhao, (2015), Methods Mol. Biol., 1278:341-352), fluorescence polarization (Y. Du, (2015), Methods Mol. Biol., 1278:529-544), and Far western (U. Mahlknecht, O. G. Ottmann, D. Hoelzer J. (2001), Biotechnol., 88: 89-94) or other techniques. More sophisticated (and lower throughput) biophysical methods that provide structural or thermodynamic details of the molecule binding mode (using isothermal calorimetry (ITC), Nuclear Magnetic Resonance (NMR), and X-ray crystallography) may also be needed for further validation and characterization of potential hits.

For example, in a direct binding assay, one subunit (or their respective binding partners) can be coupled with a radioisotope or enzymatic label such that binding can be determined by detecting the labeled subunit in a complex. For example, the subunits can be labeled with ¹²⁵I, ³⁵S, ¹⁴C, or ³H, either directly or indirectly, and the radioisotope detected by direct counting of radioemmission or by scintillation counting. Alternatively, the subunits can be enzymatically labeled with, for example, horseradish peroxidase, alkaline phosphatase, or luciferase, and the enzymatic label detected by determination of conversion of an appropriate substrate to product.

In certain embodiments, another common approach to in vitro binding assays is used. In this assay, one of the binding species is immobilized on a filter, in a microtiter plate well, in a test tube, to a chromatography matrix, etc., either covalently or non-covalently. Proteins can be covalently immobilized using any method well known in the art, for example, but not limited to the method of Kadonaga and Tjian, 1986, Proc. Natl. Acad. Sci. USA 83:5889-5893, i.e., linkage to a cyanogen-bromide derivatized substrate such as CNBr-Sepharose 48 (Pharmacia). Where needed, the use of spacers can reduce steric hindrance by the substrate. Non-covalent attachment of proteins to a substrate include, but are not limited to, attachment of a protein to a charged surface, binding with specific antibodies, binding to a third unrelated interacting protein, etc.

Assays of agents (including cell extracts or a library pool) for competition for binding of one member of a complex (or derivatives thereof) with another member of the complex labeled by any means (e.g., those means described above) are provided to screen for competitors or enhancers of complex formation. In specific embodiments, blocking agents to inhibit non-specific binding of reagents to other protein components, or absorptive losses of reagents to plastics, immobilization matrices, etc., are included in the assay mixture. Blocking agents include, but are not restricted to bovine serum albumin, β-casein, nonfat dried milk, Denhardt's reagent, Ficoll, polyvinylpyrolidine, nonionic detergents (NP40, Triton X-100, Tween 20, Tween 80, etc.), ionic detergents (e.g., SDS, LOS, etc.), polyethylene glycol, etc. Appropriate blocking agent concentrations allow complex formation.

After binding is performed, unbound, labeled protein is removed in the supernatant, and the immobilized protein retaining any bound, labeled protein is washed extensively. The amount of bound label is then quantified using standard methods in the art to detect the label.

In preferred embodiments, polypeptide derivatives that have superior stabilities but retain the ability to form a complex (e.g., one or more component proteins modified to be resistant to proteolytic degradation in the binding assay buffers, or to be resistant to oxidative degradation), are used to screen for modulators of complex activity or formation. Such resistant molecules can be generated, e.g., by substitution of amino acids at proteolytic cleavage sites, the use of chemically derivatized amino acids at proteolytic susceptible sites, and the replacement of amino acid residues subject to oxidation, i.e. methionine and cysteine.

iii. Cell-Based Assays

In certain embodiments, assays can be carried out using recombinant cells expressing the protein components of a complex, to screen for molecules that bind to, or interfere with, or promote complex activity or formation. In certain embodiments, at least one of the protein components expressed in the recombinant cell as fusion protein, wherein the protein component is fused to a peptide tag to facilitate purification and subsequent quantification and/or immunological visualization and quantification.

A particular aspect encompassed by the present invention relates to identifying molecules that inhibit or promote formation or degradation of a complex encompassed by the present invention, e.g., using the method described for isolating the complex and identifying members of the complex using the TAP assay described in Section 4, infra, and in WO 00/09716 and Rigaut et al., 1999, Nature Biotechnol. 17:1030-1032, which are each incorporated by reference in their entirety.

In another embodiment of the invention, a modulator is identified by administering a test agent to a transgenic non-human animal expressing the recombinant component proteins of a complex of the invention. In certain embodiments, the complex components are distinguishable from the homologous endogenous protein components. In certain embodiments, the recombinant component proteins are fusion proteins, wherein the protein component is fused to a peptide tag. In certain embodiments, the amino acid sequence of the recombinant protein component is different from the amino acid sequence of the endogenous protein component such that antibodies specific to the recombinant protein component can be used to determine the level of the protein component or the complex formed with the component. In certain embodiments, the recombinant protein component is expressed from promoters that are not the native promoters of the respective proteins. In a specific embodiment, the recombinant protein component is expressed in tissues where it is normally not expressed. In a specific embodiment, the compound is also recombinantly expressed in the transgenic non-human animal.

In certain embodiments, a mutant form of a protein component of a complex of the invention is expressed in a cell, wherein the mutant form of the protein component has a binding affinity that is lower than the binding affinity of the naturally occurring protein to the other protein component of a complex of the invention. In a specific embodiment, a dominant negative mutant form of a protein component is expressed in a cell. A dominant negative form can be the domain of the protein component that binds to the other protein component, i.e., the binding domain. Without being bound by theory, the binding domain will compete with the naturally occurring protein component for binding to the other protein component of the complex thereby preventing the formation of complex that contains full length protein components. Instead, with increasing level of the dominant negative form in the cell, an increasing amount of complex lacks those domains that are normally provided to the complex by the protein component which is expressed as dominant negative.

The binding domain of a protein component can be identified by any standard technique known to the skilled artisan. In a non-limiting example, alanine-scanning mutagenesis (Cunningham and Wells, (1989) Science 244: 1081-1085) is conducted to identify the region(s) of the protein that is/are required for dimerization with another protein component. In other embodiments, different deletion mutants of the protein component are generated Such that the combined deleted regions would span the entire protein. In a specific embodiment, the different deletions overlap with each other. Once mutant forms of a protein component are generated, they are tested for their ability to form a dimer with another protein component. If a particular mutant fails to form a dimer with another protein component or binds the other protein component with reduced affinity compared to the naturally occurring form, the mutation of this mutant form is identified as being in a region of the protein that is involved in the dimer formation. To exclude that the mutation simply interfered with proper folding of the protein, any structural analysis known to the skilled artisan can be performed to determine the three-dimensional conformation of the protein. Such techniques include, but are not limited to, circular dichroism (CD), NMR, and X-ray crystallography.

In certain embodiments, a mutated form of a component of a complex of the invention can be expressed in a cell under an inducible promoter. Any method known to the skilled artisan can be used to mutate the nucleotide sequence encoding the component. Any inducible promoter known to the skilled artisan can be used. In particular, the mutated form of the component of a complex of the invention has reduced activity, e.g., reduced RNA-nucleolytic activity and/or reduced affinity to the other components of the complex.

In certain embodiments, the assays of the invention are performed in high-throughput format. For example, high throughput cellular screens measuring the loss of interaction using reverse two hybrid or BRET may be used and offer the advantage of selecting only cell penetrable molecules (A. R. Horswill, S. N. Savinov, S. J. Benkovic (2004), Proc. Natl. Acad. Sci. USA, 101: 15591-15596; A. Hamdi, P. Colas (2012), Trends Pharmacol. Sci., 33: 109-118). The latter approaches require further validation to assess the “on target” effect. In one or more embodiments of the above described assay methods, it may be desirable to immobilize polypeptides or molecules to facilitate separation of complexed from uncomplexed forms of one or both of the proteins or molecules, as well as to accommodate automation of the assay.

b. Use of Complexes to Identify New Binding Partners

In certain embodiments of the invention, a complex of the invention is used to identify new components the complex. In certain embodiments, new binding partners of a complex of the invention are identified and thereby implicated in chromatin remodeling processing. Any technique known to the skilled artisan can be used to identify such new binding partners. In certain embodiments, a binding partner of a complex of the invention binds to a complex of the invention but not to an individual protein component of a complex of the invention. In a specific embodiment, immunoprecipitation is used to identify binding partners of a complex of the invention.

In certain embodiments, the assays of the invention are performed in high-throughput format.

The screening methods encompassed by the present invention can also use other cell-free or cell-based assays known in the art, e.g., those disclosed in WO 2004/009622, US 2002/0177692 A1, US 2010/0136710 A1, all of which are incorporated herein by reference.

The present invention further pertains to novel agents identified by the above-described screening assays. Accordingly, it is within the scope of this invention to further use an agent identified as described herein in an appropriate animal model. For example, an agent identified as described herein can be used in an animal model to determine the efficacy, toxicity, or side effects of treatment with such an agent. Alternatively, an antibody identified as described herein can be used in an animal model to determine the mechanism of action of such an agent.

V. Protein Microchip

In accordance with another embodiment encompassed by the present invention, a protein microchip or microarray is provided having one or more of the protein complexes and/or antibodies selectively immunoreactive with the protein complexes encompassed by the present invention. Protein microarrays are becoming increasingly important in both proteomics research and protein based detection and diagnosis of diseases. The protein microarrays in accordance with this embodiment encompassed by the present invention will be useful in a variety of applications including, e.g., large-scale or high throughput screening for compounds capable of binding to the protein complexes or modulating the interactions between the interacting protein members in the protein complexes.

The protein microarray encompassed by the present invention can be prepared in a number of methods known in the art. An example of a suitable method is that disclosed in MacBeath and Schreiber, (2000) Science, 289: 1760-1763. Essentially, glass microscope slides are treated with an aldehyde-containing Silane reagent (Super Aldehyde substrates purchased from TeleChem International, Cupertino, Calif.). Nanoliter volumes of protein samples in a phosphate-buffered saline with 40% glycerol are then spotted onto the treated slides using a high-precision contact-printing robot. After incubation, the slides are immersed in a bovine serum albumin (BSA)-containing buffer to quench the unreacted aldehydes and to form a BSA layer that functions to prevent non-specific protein binding in subsequent applications of the microchip. Alternatively, as disclosed in MacBeath and Schreiber, proteins or protein complexes encompassed by the present invention can be attached to a BSA-NHS slide by covalent linkages. BSA-NHS slides are fabricated by first attaching a molecular layer of BSA to the surface of glass slides and then activating the BSA with N, N′-disuccinimidyl carbonate. As a result, the amino groups of the lysine, aspartate, and glutamate residues on the BSA are activated and can form covalent urea or amide linkages with protein Samples Spotted on the slides. See MacBeath and Schreiber, (2000) Science, 289:1760-1763.

Another example of a useful method for preparing the protein microchip encompassed by the present invention is that disclosed in PCT Publication Nos. WO 00/4389A2 and WO 00/04382, both of which are assigned to Zyomyx and are incorporated herein by reference. First, a substrate or chip base is covered with one or more layers of thin organic film to eliminate any Surface defects, insulate proteins from the base materials, and to ensure uniform protein array. Next, a plurality of protein-capturing agents (e.g., antibodies, pep tides, etc.) are arrayed and attached to the base that is covered with the thin film. Proteins or protein complexes can then be bound to the capturing agents forming a protein microarray. The protein microchips are kept in flow chambers with an aqueous Solution.

The protein microarray encompassed by the present invention can also be made by the method disclosed in PCT Publication No. WO 99/36576 assigned to Packard Bioscience Company, which is incorporated herein by reference. For example, a three-dimensional hydrophilic polymer matrix, i.e., a gel, is first dispensed on a Solid Substrate Such as a glass slide. The polymer matrix gel is capable of expanding or contracting and contains a coupling reagent that reacts with amine groups. Thus, proteins and protein complexes can be contacted with the matrix gel in an expanded aqueous and porous State to allow reactions between the amine groups on the protein or protein complexes with the coupling reagents thus immobilizing the proteins and protein complexes on the Substrate. Thereafter, the gel is contracted to embed the attached proteins and protein complexes in the matrix gel.

Alternatively, the proteins and protein complexes encompassed by the present invention can be incorporated into a commercially available protein microchip, e.g., the ProteinChip System from Ciphergen Biosystems Inc., Palo Alto, Calif. The ProteinChip System comprises metal chips having a treated Surface, which interact with proteins. Basically, a metal chip Surface is coated with a Silicon dioxide film. The molecules of interest Such as proteins and protein complexes can then be attached covalently to the chip Surface via a silane coupling agent.

The preparation of such an array containing different types of proteins is well known in the art and is apparent to a person skilled in the art (see e.g. Ekins et al., 1989, J. Pharm. Biomed. Anal. 7:155-168; Mitchell et al. 2002, Nature Biotechnol. 20:225-229; Petricoin et al., 2002, Lancet 359:572-577; Templin et al., 2001, Trends Biotechnol. 20:160-166; Wilson and Nock, 2001, Curr. Opin. Chem. Biol. 6:81-85; Lee et al., 2002 Science 295:1702-1705; MacBeath and Schreiber, 2000, Science 289:1760; Blawas and Reichert, 1998, Biomaterials 19:595; Kane et al., 1999, Biomaterials 20:2363; Chen et al., 1997, Science 276:1425; Vaugham et al., 1996, Nature Biotechnol. 14:309-314; Mahler et al., 1997, Immunotechnology 3:31-43; Roberts et al., 1999, Curr. Opin. Chern. Biol. 3:268-273; Nord et al., 1997, Nature Biotechnol. 15:772-777; Nord et al., 2001, Eur. J. Biochem. 268:4269-4277; Brody and Gold, 2000, Rev. Mol. Biotechnol. 74:5-13; Karlstroem and Nygren, 2001, Anal. Biochem. 295:22-30; Nelson et al., 2000, Electrophoresis 21:1155-1163; Honore et al., 2001, Expert Rev. Mol. Diagn. 3:265-274; Albala, 2001, Expert Rev. Mol. Diagn. 2:145-152, Figeys and Pinto, 2001, Electrophoresis 2:208-216 and references in the publications listed here).

The protein microchips encompassed by the present invention can also be prepared with other methods known in the art, e.g., those disclosed in U.S. Pat. Nos. 6,087,102, 6,139,831, 6,087,103; PCT Publication Nos. WO 99/60156, WO 99/39210, WO 00/54046, WO 00/53625, WO 99/51773,

WO 99/35289, WO 97/42507, WO 01/01142, WO 00/63694, WO 00/61806, WO 99/61148, WO 99/40434, US 2002/0177692 A1, WO 2004/009622, all of which are incorporated herein by reference.

Complexes can be attached to an array by different means as will be apparent to a person skilled in the art. Complexes can for example be added to the array via a TAP-tag (as described in W0/0009716 and in Rigaut et al., 1999, Nature Biotechnol. 10:1030-1032) after the purification step or by another suitable purification scheme as will be apparent to a person skilled in the art.

Optionally, the proteins of the complex can be cross-linked to enhance the stability of the complex. Different methods to cross-link proteins are well known in the art. Reactive end-groups of cross-linking agents include but are not limited to —COOH, —SH, —NH2 or N-oxy-succinamate. The spacer of the cross-linking agent should be chosen with respect to the size of the complex to be cross-linked. For small protein complexes, comprising only a few proteins, relatively short spacers are preferable in order to reduce the likelihood of cross-linking separate complexes in the reaction mixture. For larger protein complexes, additional use of larger spacers is preferable in order to facilitate cross-linking between proteins within the complex.

It is preferable to check the success-rate of cross-linking before linking the complex to the carrier. As will be apparent to a person skilled in the art, the optimal rate of cross-linking need to be determined on a case by case basis. This can be achieved by methods well known in the art, some of which are exemplary described below.

A sufficient rate of cross-linking can be checked for example by analysing the cross-linked complex vs. a non-cross-linked complex on a denaturating protein gel. If cross-linking has been performed successfully, the proteins of the complex are expected to be found in the same lane, whereas the proteins of the non-cross-linked complex are expected to be separated according to their individual characteristics. Optionally the presence of all proteins of the complex can be further checked by peptide-sequencing of proteins in the respective bands using methods well known in the art such as mass spectrometry and/or Edman degradation.

In addition, a rate of crosslinking which is too high should also be avoided. If cross-linking has been carried out too extensively, there will be an increasing amount of cross-linking of the individual protein complex, which potentially interferes with a screening for potential binding partners and/or modulators etc. using the arrays.

The presence of such structures can be determined by methods well known in the art and include e.g., gel-filtration experiments comparing the gel filtration profile solutions containing cross-linked complexes vs. uncross-linked complexes.

Optionally, functional assays as will be apparent to a person skilled in the art, some of which are exemplarily provided herein, can be performed to check the integrity of the complex.

Alternatively, members of the protein complex can be expressed as a single fusion protein and coupled to the matrix as will be apparent to a person skilled in the art.

Optionally, the attachment of the complex or proteins as outlined above can be further monitored by various methods apparent to a person skilled in the art. Those include, but are not limited to surface plasmon resonance (see e.g., McDannel, 2001, Curr. Opin. Chem. Biol. 5:572-577; Lee, 2001, Trends Biotechnol. 19:217-222; Weinberger et al., 2000, 1:395-416; Pearson et al., 2000, Ann. Clin. Biochem. 37:119-145; Vely et al., 2000, Methods Mol. Biol. 121:313-321; Slepak, 2000, J. Mol Recognit. 13:20-26.)

VI. Pharmaceutical Compositions

In another aspect, the present invention provides pharmaceutically acceptable compositions which comprise an isolated modified protein complex selected from the group consisting of protein complexes listed in Table 2 and Table 3, wherein the isolated modified protein complex comprises at least one subunit that is modified, formulated together with one or more pharmaceutically acceptable carriers (additives) and/or diluents.

As described in detail below, the pharmaceutical compositions encompassed by the present invention may be specially formulated for administration in solid or liquid form, including those adapted for the following: (1) oral administration, for example, drenches (aqueous or non-aqueous solutions or suspensions), tablets, boluses, powders, granules, pastes; (2) parenteral administration, for example, by subcutaneous, intramuscular or intravenous injection as, for example, a sterile solution or suspension; (3) topical application, for example, as a cream, ointment or spray applied to the skin; (4) intravaginally or intrarectally, for example, as a pessary, cream or foam; or (5) aerosol, for example, as an aqueous aerosol, liposomal preparation or solid particles containing the compound.

The phrase “therapeutically-effective amount” as used herein means that amount of an agent that modulates (e.g., inhibits or enhances) protein complex formation and/or activity which is effective for producing some desired therapeutic effect, e.g., cancer treatment, at a reasonable benefit/risk ratio.

The phrase “pharmaceutically acceptable” is employed herein to refer to those agents, materials, compositions, and/or dosage forms which are, within the scope of sound medical judgment, suitable for use in contact with the tissues of human beings and animals without excessive toxicity, irritation, allergic response, or other problem or complication, commensurate with a reasonable benefit/risk ratio.

The phrase “pharmaceutically-acceptable carrier” as used herein means a pharmaceutically-acceptable material, composition or vehicle, such as a liquid or solid filler, diluent, excipient, solvent or encapsulating material, involved in carrying or transporting the subject chemical from one organ, or portion of the body, to another organ, or portion of the body. Each carrier must be “acceptable” in the sense of being compatible with the other ingredients of the formulation and not injurious to the subject. Some examples of materials which can serve as pharmaceutically-acceptable carriers include: (1) sugars, such as lactose, glucose and sucrose; (2) starches, such as corn starch and potato starch; (3) cellulose, and its derivatives, such as sodium carboxymethyl cellulose, ethyl cellulose and cellulose acetate; (4) powdered tragacanth; (5) malt; (6) gelatin; (7) talc; (8) excipients, such as cocoa butter and suppository waxes; (9) oils, such as peanut oil, cottonseed oil, safflower oil, sesame oil, olive oil, corn oil and soybean oil; (10) glycols, such as propylene glycol; (11) polyols, such as glycerin, sorbitol, mannitol and polyethylene glycol; (12) esters, such as ethyl oleate and ethyl laurate; (13) agar; (14) buffering agents, such as magnesium hydroxide and aluminum hydroxide; (15) alginic acid; (16) pyrogen-free water; (17) isotonic saline; (18) Ringer's solution; (19) ethyl alcohol; (20) phosphate buffer solutions; and (21) other non-toxic compatible substances employed in pharmaceutical formulations.

The term “pharmaceutically-acceptable salts” refers to the relatively non-toxic, inorganic and organic acid addition salts of the agents that modulates (e.g., inhibits) protein complex expression and/or activity. These salts can be prepared in situ during the final isolation and purification of the respiration uncoupling agents, or by separately reacting a purified respiration uncoupling agent in its free base form with a suitable organic or inorganic acid, and isolating the salt thus formed. Representative salts include the hydrobromide, hydrochloride, sulfate, bisulfate, phosphate, nitrate, acetate, valerate, oleate, palmitate, stearate, laurate, benzoate, lactate, phosphate, tosylate, citrate, maleate, fumarate, succinate, tartrate, napthylate, mesylate, glucoheptonate, lactobionate, and laurylsulphonate salts and the like (See, for example, Berge et al. (1977) “Pharmaceutical Salts”, J. Pharm. Sci. 66:1-19).

In other cases, the agents useful in the methods encompassed by the present invention may contain one or more acidic functional groups and, thus, are capable of forming pharmaceutically-acceptable salts with pharmaceutically-acceptable bases. The term “pharmaceutically-acceptable salts” in these instances refers to the relatively non-toxic, inorganic and organic base addition salts of a polypeptide subunit of an isolated modified protein complex encompassed by the present invention. These salts can likewise be prepared in situ during the final isolation and purification of the respiration uncoupling agents, or by separately reacting the purified respiration uncoupling agent in its free acid form with a suitable base, such as the hydroxide, carbonate or bicarbonate of a pharmaceutically-acceptable metal cation, with ammonia, or with a pharmaceutically-acceptable organic primary, secondary or tertiary amine. Representative alkali or alkaline earth salts include the lithium, sodium, potassium, calcium, magnesium, and aluminum salts and the like. Representative organic amines useful for the formation of base addition salts include ethylamine, diethylamine, ethylenediamine, ethanolamine, diethanolamine, piperazine and the like (see, for example, Berge et al., supra).

Wetting agents, emulsifiers and lubricants, such as sodium lauryl sulfate and magnesium stearate, as well as coloring agents, release agents, coating agents, sweetening, flavoring and perfuming agents, preservatives and antioxidants can also be present in the compositions.

Examples of pharmaceutically-acceptable antioxidants include: (1) water soluble antioxidants, such as ascorbic acid, cysteine hydrochloride, sodium bisulfate, sodium metabisulfite, sodium sulfite and the like; (2) oil-soluble antioxidants, such as ascorbyl palmitate, butylated hydroxyanisole (BHA), butylated hydroxytoluene (BHT), lecithin, propyl gallate, alpha-tocopherol, and the like; and (3) metal chelating agents, such as citric acid, ethylenediamine tetraacetic acid (EDTA), sorbitol, tartaric acid, phosphoric acid, and the like.

Formulations useful in the methods encompassed by the present invention include those suitable for oral, nasal, topical (including buccal and sublingual), rectal, vaginal, aerosol and/or parenteral administration. The formulations may conveniently be presented in unit dosage form and may be prepared by any methods well-known in the art of pharmacy. The amount of active ingredient which can be combined with a carrier material to produce a single dosage form will vary depending upon the host being treated, the particular mode of administration. The amount of active ingredient, which can be combined with a carrier material to produce a single dosage form will generally be that amount of the compound which produces a therapeutic effect. Generally, out of one hundred percent, this amount will range from about 1 percent to about ninety-nine percent of active ingredient, preferably from about 5 percent to about 70 percent, most preferably from about 10 percent to about 30 percent.

Methods of preparing these formulations or compositions include the step of bringing into association an isolated modified protein complex encompassed by the present invention, with the carrier and, optionally, one or more accessory ingredients. In general, the formulations are prepared by uniformly and intimately bringing into association a respiration uncoupling agent with liquid carriers, or finely divided solid carriers, or both, and then, if necessary, shaping the product.

Formulations suitable for oral administration may be in the form of capsules, cachets, pills, tablets, lozenges (using a flavored basis, usually sucrose and acacia or tragacanth), powders, granules, or as a solution or a suspension in an aqueous or non-aqueous liquid, or as an oil-in-water or water-in-oil liquid emulsion, or as an elixir or syrup, or as pastilles (using an inert base, such as gelatin and glycerin, or sucrose and acacia) and/or as mouth washes and the like, each containing a predetermined amount of a respiration uncoupling agent as an active ingredient. A compound may also be administered as a bolus, electuary or paste.

In solid dosage forms for oral administration (capsules, tablets, pills, dragees, powders, granules and the like), the active ingredient is mixed with one or more pharmaceutically-acceptable carriers, such as sodium citrate or dicalcium phosphate, and/or any of the following: (1) fillers or extenders, such as starches, lactose, sucrose, glucose, mannitol, and/or silicic acid; (2) binders, such as, for example, carboxymethylcellulose, alginates, gelatin, polyvinyl pyrrolidone, sucrose and/or acacia; (3) humectants, such as glycerol; (4) disintegrating agents, such as agar-agar, calcium carbonate, potato or tapioca starch, alginic acid, certain silicates, and sodium carbonate; (5) solution retarding agents, such as paraffin; (6) absorption accelerators, such as quaternary ammonium compounds; (7) wetting agents, such as, for example, acetyl alcohol and glycerol monostearate; (8) absorbents, such as kaolin and bentonite clay; (9) lubricants, such a talc, calcium stearate, magnesium stearate, solid polyethylene glycols, sodium lauryl sulfate, and mixtures thereof; and (10) coloring agents. In the case of capsules, tablets and pills, the pharmaceutical compositions may also comprise buffering agents. Solid compositions of a similar type may also be employed as fillers in soft and hard-filled gelatin capsules using such excipients as lactose or milk sugars, as well as high molecular weight polyethylene glycols and the like.

A tablet may be made by compression or molding, optionally with one or more accessory ingredients. Compressed tablets may be prepared using binder (for example, gelatin or hydroxypropylmethyl cellulose), lubricant, inert diluent, preservative, disintegrant (for example, sodium starch glycolate or cross-linked sodium carboxymethyl cellulose), surface-active or dispersing agent. Molded tablets may be made by molding in a suitable machine a mixture of the powdered peptide or peptidomimetic moistened with an inert liquid diluent.

Tablets, and other solid dosage forms, such as dragees, capsules, pills and granules, may optionally be scored or prepared with coatings and shells, such as enteric coatings and other coatings well-known in the pharmaceutical-formulating art. They may also be formulated so as to provide slow or controlled release of the active ingredient therein using, for example, hydroxypropylmethyl cellulose in varying proportions to provide the desired release profile, other polymer matrices, liposomes and/or microspheres. They may be sterilized by, for example, filtration through a bacteria-retaining filter, or by incorporating sterilizing agents in the form of sterile solid compositions, which can be dissolved in sterile water, or some other sterile injectable medium immediately before use. These compositions may also optionally contain opacifying agents and may be of a composition that they release the active ingredient(s) only, or preferentially, in a certain portion of the gastrointestinal tract, optionally, in a delayed manner. Examples of embedding compositions, which can be used include polymeric substances and waxes. The active ingredient can also be in micro-encapsulated form, if appropriate, with one or more of the above-described excipients.

Liquid dosage forms for oral administration include pharmaceutically acceptable emulsions, microemulsions, solutions, suspensions, syrups and elixirs. In addition to the active ingredient, the liquid dosage forms may contain inert diluents commonly used in the art, such as, for example, water or other solvents, solubilizing agents and emulsifiers, such as ethyl alcohol, isopropyl alcohol, ethyl carbonate, ethyl acetate, benzyl alcohol, benzyl benzoate, propylene glycol, 1,3-butylene glycol, oils (in particular, cottonseed, groundnut, corn, germ, olive, castor and sesame oils), glycerol, tetrahydrofuryl alcohol, polyethylene glycols and fatty acid esters of sorbitan, and mixtures thereof.

Besides inert diluents, the oral compositions can also include adjuvants such as wetting agents, emulsifying and suspending agents, sweetening, flavoring, coloring, perfuming and preservative agents.

Suspensions, in addition to the active agent may contain suspending agents as, for example, ethoxylated isostearyl alcohols, polyoxyethylene sorbitol and sorbitan esters, microcrystalline cellulose, aluminum metahydroxide, bentonite, agar-agar and tragacanth, and mixtures thereof.

Formulations for rectal or vaginal administration may be presented as a suppository, which may be prepared by mixing one or more respiration uncoupling agents with one or more suitable nonirritating excipients or carriers comprising, for example, cocoa butter, polyethylene glycol, a suppository wax or a salicylate, and which is solid at room temperature, but liquid at body temperature and, therefore, will melt in the rectum or vaginal cavity and release the active agent.

Formulations which are suitable for vaginal administration also include pessaries, tampons, creams, gels, pastes, foams or spray formulations containing such carriers as are known in the art to be appropriate.

Dosage forms for the topical or transdermal administration of an isolated modified protein complexes encompassed by the present invention include powders, sprays, ointments, pastes, creams, lotions, gels, solutions, patches and inhalants. The active component may be mixed under sterile conditions with a pharmaceutically-acceptable carrier, and with any preservatives, buffers, or propellants which may be required.

The ointments, pastes, creams and gels may contain, in addition to a respiration uncoupling agent, excipients, such as animal and vegetable fats, oils, waxes, paraffins, starch, tragacanth, cellulose derivatives, polyethylene glycols, silicones, bentonites, silicic acid, talc and zinc oxide, or mixtures thereof

Powders and sprays can contain, in addition to an isolated modified protein complex, excipients such as lactose, talc, silicic acid, aluminum hydroxide, calcium silicates and polyamide powder, or mixtures of these substances. Sprays can additionally contain customary propellants, such as chlorofluorohydrocarbons and volatile unsubstituted hydrocarbons, such as butane and propane.

The isolated modified protein complex, can be alternatively administered by aerosol. This is accomplished by preparing an aqueous aerosol, liposomal preparation or solid particles containing the compound. A nonaqueous (e.g., fluorocarbon propellant) suspension could be used. Sonic nebulizers are preferred because they minimize exposing the agent to shear, which can result in degradation of the compound.

Ordinarily, an aqueous aerosol is made by formulating an aqueous solution or suspension of the agent together with conventional pharmaceutically acceptable carriers and stabilizers. The carriers and stabilizers vary with the requirements of the particular compound, but typically include nonionic surfactants (Tweens, Pluronics, or polyethylene glycol), innocuous proteins like serum albumin, sorbitan esters, oleic acid, lecithin, amino acids such as glycine, buffers, salts, sugars or sugar alcohols. Aerosols generally are prepared from isotonic solutions.

Transdermal patches have the added advantage of providing controlled delivery of a respiration uncoupling agent to the body. Such dosage forms can be made by dissolving or dispersing the agent in the proper medium. Absorption enhancers can also be used to increase the flux of the peptidomimetic across the skin. The rate of such flux can be controlled by either providing a rate controlling membrane or dispersing the peptidomimetic in a polymer matrix or gel.

Ophthalmic formulations, eye ointments, powders, solutions and the like, are also contemplated as being within the scope of this invention.

Pharmaceutical compositions of this invention suitable for parenteral administration comprise one or more respiration uncoupling agents in combination with one or more pharmaceutically-acceptable sterile isotonic aqueous or nonaqueous solutions, dispersions, suspensions or emulsions, or sterile powders which may be reconstituted into sterile injectable solutions or dispersions just prior to use, which may contain antioxidants, buffers, bacteriostats, solutes which render the formulation isotonic with the blood of the intended recipient or suspending or thickening agents.

Examples of suitable aqueous and nonaqueous carriers which may be employed in the pharmaceutical compositions of the invention include water, ethanol, polyols (such as glycerol, propylene glycol, polyethylene glycol, and the like), and suitable mixtures thereof, vegetable oils, such as olive oil, and injectable organic esters, such as ethyl oleate. Proper fluidity can be maintained, for example, by the use of coating materials, such as lecithin, by the maintenance of the required particle size in the case of dispersions, and by the use of surfactants.

These compositions may also contain adjuvants such as preservatives, wetting agents, emulsifying agents and dispersing agents. Prevention of the action of microorganisms may be ensured by the inclusion of various antibacterial and antifungal agents, for example, paraben, chlorobutanol, phenol sorbic acid, and the like. It may also be desirable to include isotonic agents, such as sugars, sodium chloride, and the like into the compositions. In addition, prolonged absorption of the injectable pharmaceutical form may be brought about by the inclusion of agents which delay absorption such as aluminum monostearate and gelatin.

In some cases, in order to prolong the effect of a drug, it is desirable to slow the absorption of the drug from subcutaneous or intramuscular injection. This may be accomplished by the use of a liquid suspension of crystalline or amorphous material having poor water solubility. The rate of absorption of the drug then depends upon its rate of dissolution, which, in turn, may depend upon crystal size and crystalline form. Alternatively, delayed absorption of a parenterally-administered drug form is accomplished by dissolving or suspending the drug in an oil vehicle.

Injectable depot forms are made by forming microencapsule matrices of an isolated modified protein complex, in biodegradable polymers such as polylactide-polyglycolide. Depending on the ratio of drug to polymer, and the nature of the particular polymer employed, the rate of drug release can be controlled. Examples of other biodegradable polymers include poly(orthoesters) and poly(anhydrides). Depot injectable formulations are also prepared by entrapping the drug in liposomes or microemulsions, which are compatible with body tissue.

When the respiration uncoupling agents encompassed by the present invention are administered as pharmaceuticals, to humans and animals, they can be given per se or as a pharmaceutical composition containing, for example, 0.1 to 99.5% (more preferably, 0.5 to 90%) of active ingredient in combination with a pharmaceutically acceptable carrier.

Actual dosage levels of the active ingredients in the pharmaceutical compositions of this invention may be determined by the methods encompassed by the present invention so as to obtain an amount of the active ingredient, which is effective to achieve the desired therapeutic response for a particular subject, composition, and mode of administration, without being toxic to the subject.

The nucleic acid molecules of the invention can be inserted into vectors and used as gene therapy vectors. Gene therapy vectors can be delivered to a subject by, for example, intravenous injection, local administration (see U.S. Pat. No. 5,328,470) or by stereotactic injection (see e.g., Chen et al. (1994) Proc. Natl. Acad. Sci. USA 91:3054 3057). The pharmaceutical preparation of the gene therapy vector can include the gene therapy vector in an acceptable diluent, or can comprise a slow release matrix in which the gene delivery vehicle is imbedded. Alternatively, where the complete gene delivery vector can be produced intact from recombinant cells, e.g., retroviral vectors, the pharmaceutical preparation can include one or more cells which produce the gene delivery system.

VII. Kits

In addition, the present invention also encompasses kits comprising one or more containers filled with one or more isolated protein complexes selected from the group of protein complexes listed in Table 2 and Table 3, wherein at least one isolated modified protein complex comprises a subunit that is modified. Alternatively, the kit can comprise in one or more containers, all protein subunits, homologs, derivatives, or fragments thereof, of an isolated modified protein complex selected from the group of protein complexes listed in Table 2 and Table 3. The kit encompassed by the present invention can also contain expression vectors encoding the essential components of the complex machinery, which components after being expressed can be reconstituted in order to form a biology active protein complex. Such a kit preferably also contains the required buffers and reagents.

The kit encompassed by the present invention can further contain substrates of the isolated modified protein complexes encompassed by the present invention. The kit may further contain reagents that specifically detect the isolated modified protein complex. For example, the kit can comprise a labeled compound or agent capable of detecting an isolated modified protein complex in a biological sample; means for determining the amount of the isolated modified protein complex in the sample; and means for comparing the amount of the isolated modified protein complex in the sample with a standard. The compound or agent can be packaged in a suitable container. For example, the present invention provides kits comprising at least one antibody that binds to the isolated modified protein complex. Kits of the invention can contain an antibody coupled to a solid support, e.g., a tissue culture plate or beads (e.g., sepharose beads).

A kit can include additional components to facilitate the particular application for which the kit is designed. For example, kits can be provided which contain antibodies for detection and quantification of an isolated modified protein complex in vitro, e.g. in an ELISA or a Western blot. Additional, exemplary agents that kits can contain include means of detecting the label (e.g., enzyme substrates for enzymatic labels, filter sets to detect fluorescent labels, appropriate secondary labels such as a sheep anti-mouse-HRP, etc.) and reagents necessary for controls (e.g., control biological samples or an isolated modified protein standards). A kit may additionally include buffers and other reagents recognized for use in a method of the disclosed invention. Non-limiting examples include agents to reduce non-specific binding, such as a carrier protein or a detergent. A kit encompassed by the present invention can also include instructional materials disclosing or describing the use of the kit or an isolated modified protein complex of the disclosed invention in a method of the disclosed invention as provided herein.

This invention is further illustrated by the following examples which should not be construed as limiting. The contents of all references, patents and published patent applications cited throughout this application, as well as the Figures, are incorporated herein by reference.

EXAMPLES Example 1: Materials and Methods for Examples 2-8

a. Mammalian Cell Culture

HEK-293T, MIA-Pa-Ca-2 and SW13 cell lines were cultured in standard DMEM (Gibco) media supplemented with 10% FBS (Gibco), 1 mM HEPES pH 7.5 (Gibco), and Pen/Step (Gibco) at 28° C. and 5% CO2. HEK-293T cells used in this study were routinely fingerprinted and tested for mycoplasma. Wild-type gene sequences and gene expression for mSWI/SNF complex subunit genes were confirmed using RNA-seq prior to experimentation.

b. D. melanogaster Cell Culture

Drosophila S2 cells were cultured in SFX-Insect™ media at 28° C. with constant shaking at 112 rpm. To generate stable cell lines, cells were plated in 6-well plates at 2×10⁶ and transfected with 2 μg of expression construct using Effectene Transfection Reagent (Quiagen) in accordance with manufacturer's recommendation. Cells were selected using 250m/m1 of hygromycin or 10 μg/ml of puromycin for 10 days and expanded to 1 liter culture for complex purification.

c. Expression Constructs and Lentiviral Infection

All constructs were PCR-amplified from cDNA using Phusion High-Fidelity DNA Polymerase with GC buffer (NEB) or with Q5 High-Fidelity Polymerase (NEB). Purified PCR products were cloned into a modified pTight vector from Clonetech (EF1-alpha promoter) containing blasticidin resistance using In-Fusion (Clontech) at the Notl cloning site. Recombination products were transformed in to One-Shot Stb13 chemically competent E. coli (Invitrogen). For the HA-ARID1A C-term construct corresponding to aa1611-2285, the cloning region was selected based on conservation analysis and CX-MS data. HA-ARID1A C-term was cloned into a modified pTight vector from Clonetech (EF1-alpha promoter) containing blasticidin resistance. For mini ARID2 (mARID2), the cloning region was selected based on CX-MS data corresponding to N-terminal aa1-626 fused to C-terminal aa1592-1835. The N-terminal (aa1-626) and C-terminal (aa1592-1835) fragments were PCR amplified separately, with the primers designed at the 3′ end of the aa1-626 and the 5′ end of aa1592-1835 containing 27 base pairs of complementarity. N-terminal and C-terminal regions of ARID2 were amplified independently, gel purified as above, fused together in a second PCR reaction, and cloned into a modified pTight vector (EF1-alpha promoter) containing blasticidin resistance. SS18 was cloned into pENTR D-Topo vector and recombined into pMSCV Flag-HA IRES Puro retroviral vector. All constructs were sequence validated.

For lentiviral infection, cells were transduced with lentivirus at 50% confluency, incubated with lentivirus for 48 hours, and selected with blasticidin at 10 μg/ml. Cell cultures were expanded to desired amounts for mSWI/SNF complex purification.

d. Generation of HEK-293T mSWI/SNF Subunit Knockout Cell Lines

CRISPR-Cas9 KO constructs were purchased from Santa Cruz Biotechnology (SCBT) and transfected into HEK-293T cells using Lipofectamine 3000 reagent (Invitrogen). Cells were selected with puromycin at 2 μg/ml for 5 days. Single cell clones were isolated and subsequently screened for loss of subunit expression using immunoblot and DNA sequencing.

e. Protein Purification

Stable cell lines were cultured in 150 mm dishes and expanded according to assay requirements and bait expression levels. Complexes were purified as previously described with modifications (Mashtalir et al. (2014) Molecular Cell 54:392-406). Cells were scraped from plates and washed with cold PBS. Suspension was centrifuged at 3000 rpm for 5 min at 4° C. and pellets were resuspended in hypotonic buffer (HB) containing 10 mM Tris HCl pH 7.5, 10 mM KCL, 1.5 mM MgCL₂, 1 mM DTT, 1 mM PMSF and incubated on ice for 5 min. Suspension was centrifuged at 5000 rpm for 5 min at 4° C., and pellets were resuspended in 5 volumes of fresh HB containing protease inhibitor cocktail and homogenized using a glass Dounce homogenizer. Suspension was layered onto HB sucrose cushion containing 30% sucrose w/v, centrifuged at 5000 rpm for 1 hour at 4° C. and cytosol-containing layer was discarded. Nuclear pellets were resuspended in high salt buffer (HSB) containing 50 mM Tris HCl pH 7.5, 300 mM KCL, 1 mM MgCL₂, 1 mM EDTA, 1 mM, 1% NP40, 1 mM DTT, 1 mM PMSF and protease inhibitor cocktail. Homogenate was incubated on rotator for 1H. Homogenates then were centrifuged at 20,000 rpm (30,000×g) for 1 hour at 4° C. using an SW32Ti rotor. Chromatin pellets were discarded and high salt nuclear extract was filtered through a 0.45 μm filter and incubated overnight with HA magnetic resin. HA beads were washed in HSB and eluted with HSB containing lmg/ml of HA peptide for 4 times 1.5 hour each. Eluted proteins were then subjected to density gradient centrifugation or dialysis.

f. Density Sedimentation Gradients

Eluted protein complexes or nuclear extracts were loaded on top of linear, 11m1 10-30% glycerol gradients containing 25 mM HEPES pH 7.9, 0.1 mM EDTA, 12.5 mM MgCl₂, 100 mM KCl supplemented with 1 mM DTT and protease inhibitors. Tubes were loaded into SW41 rotor and centrifuged at 40000 rpm for 16 hours at 4° C. 550 μl fractions were manually collected from the top of the gradient. 100 μl of each collected fraction were concentrated using 10 μl of Strataclean beads, loaded onto SDS-PAGE gels and either stained using Silver Quest staining kit, or used for Western blot analysis.

g. Co-Immunoprecipitation

Cells were washed with cold PBS and resuspended in EBO hypotonic buffer containing 50 mM Tris pH 7.5, 0.1% NP-40, 1 mM EDTA, 1 mM MgCl₂ supplemented with protease inhibitors. Lysates were pelleted at 5,000 rpm for 5 min at 4° C. Supernatants were discarded and nuclei were resuspended in EB300 high salt buffer containing 50 mM Tris pH 7.5, 300 mM NaCl, 1% NP-40, 1 mM EDTA, 1 mM MgCl₂ supplemented with protease inhibitors. Lysates were incubated on ice for 10 min with occasional vortexing. Lysate was pelleted at 21000 g for 10 min at 4° C. Supernatants were quantified and supplemented with 1 mM DTT. 1 mg of protein was used for immunoprecipitation with 2-5 ug of antibodies over night at 4° C. Protein-G Dynabeads were added for 2 hours and washed with EB300. Beads were eluted with loading LDS and loaded onto SDS-PAGE.

h. Immunoprecipitation Under Denaturing Conditions

Cells were grown to 80% confluency and treated with MG132 at 20 uM for 8 hours. Cells were washed with PBS and lysed in buffer containing 25 mM Tris pH 7.5 and 1.5% SDS. Lysates were collected and boiled for 5 minutes. Lysates were sonicated and dissolved in EB300 buffer to dilute SDS concentration to 0.1%. Diluted extracts were incubated with HA beads overnight, washed with EB300 5 times and resuspended in LDS for loading.

i. IRDye680 and Colloidal Blue Labeling

Strataclean concentrated fractions were resuspended in denaturing staining solution containing 1×PBS, 1% SDS, and 1 uM IRDye® 680RD NHS Ester, heated at 70° C. for 5 min and then incubated overnight at 37° C. Reactions were quenched with 4×LDS buffer and loaded onto SDS-PAGE. Upon migrations gels were scanned on Li-Cor Odyssey CLx instrument on 700 channel. Bands were quantified and analyzed as indicated below.

For stoichiometric quantification 1 ug of purified DPF2 cBAF complexes were loaded onto SDS-PAGE, stained with colloidal blue according to manufacturer's recommendations and scanned using Li-Cor Odyssey CLx in 700 channel, bands were quantified and normalized to protein molecular weight and DPF2 signal.

j. Western Blotting

Western blot analysis was performed using standard approaches involving primary antibodies and flurophore-conjugated species-specific secondary antibodies (Li-Cor) and imaged using Li-Cor Odyssey CLx.

k. Mass-Spectrometric Sample Preparation and Experiments

i. Sample Preparation.

Equal amounts of selected fractions from glycerol gradient-separated complexes were concentrated using StrataClean beads and loaded onto SDS-PAGE gels. Samples were migrated 2 cm into the gel, stained with colloidal blue stain and excised for MS analysis.

Excised gel bands were cut into approximately 1 mm³ pieces. Gel pieces were then subjected to a modified in-gel trypsin digestion procedure (Shevchenko et al. (1996) Anal Chem 68:850-858). Gel pieces were washed and dehydrated with acetonitrile for 10 min. followed by removal of acetonitrile. Pieces were then completely dried in a speed-vac. Rehydration of the gel pieces was with 50 mM ammonium bicarbonate solution containing 12.5 ng/μl modified sequencing-grade trypsin (Promega, Madison, Wis.) at 4° C. After 45 min., the excess trypsin solution was removed and replaced with 50 mM ammonium bicarbonate solution to just cover the gel pieces. Samples were then placed in a 37° C. room overnight. Peptides were later extracted by removing the ammonium bicarbonate solution, followed by one wash with a solution containing 50% acetonitrile and 1% formic acid. The extracts were then dried in a speed-vac (˜1 hr). The samples were then stored at 4° C. until analysis.

On the day of analysis the samples were reconstituted in 5-10 μl of HPLC solvent A (2.5% acetonitrile, 0.1% formic acid). A nano-scale reverse-phase HPLC capillary column was created by packing 2.6 μm C18 spherical silica beads (Accucore, ThermoFisher) into a fused silica capillary (100 μm inner diameter x ˜30 cm length) with a flame-drawn tip. After equilibrating the column each sample was loaded via a Famos auto sampler (LC Packings, San Francisco Calif.) onto the column. A gradient was formed and peptides were eluted with increasing concentrations of solvent B (97.5% acetonitrile, 0.1% formic acid).

As peptides eluted they were subjected to electrospray ionization and then entered into an LTQ Orbitrap Elite ion-trap mass spectrometer (ThermoFisher Scientific, Waltham, Mass.). Peptides were detected, isolated, and fragmented to produce a tandem mass spectrum of specific fragment ions for each peptide. Peptide sequences (and hence protein identity) were determined by matching protein databases with the acquired fragmentation pattern by the software program, Sequest (Thermo Fisher Scientific, Waltham, Mass.). All databases include a reversed version of all the sequences, and the data were filtered to a 1% false discovery rate based on linear discriminant analysis (Huttlin et al. (2010) Cell 143:1174-1189). All raw data from all fractions of gradient mass spectrometry across all experiments are found in Appendix.

ii. Protein Sample Preparation for Cross-Linking Mass-Spectrometry (CX-MS)

Native protein complexes were eluted in detergent free elution buffer and dialyzed over night against amine free buffer containing 25 mM HEPES pH 7.9, 1 mM EDTA, 1 mM MgCl2, 100 mM KCl 10% Glycerol supplemented with 1 mM DTT. Samples were concentrated using Amicon Ultra centrifugal filters with 30K cutoff and subjected to BS3-based crosslinking and mass spectrometry described below.

iii. BS3 Crosslinking and Cross-Linking Mass Spectrometry (CX-MS) Analysis

Purified protein complexes in 25 mM HEPES pH 7.6, 150 mM KCl, 1 mM EDTA, 1 mM MgCl2, 1 mM DTT, 1 mM PMSF and 10% Glycerol, were crosslinked by addition of BS3 (Thermo Scientific; freshly prepared as 100 mM in pure water) to 2 mM for 2 hrs at 25° C. The protein amounts used were HA-DPF2: 70 ug; Flag-HA-SS18: 52 ug; HA-BRD7: 17 ug; HA-PHF10: 15 ug; BAP60-HA: 52 ug; HA-D4: 60 ug. The reactions were quenched by addition of 10 uL of 1M ammonium bicarbonate. For the HA-DPF2, Flag-HA-SS18 and HA-BRD7 samples, an equal volume of trifluoroethanol (TFE) was added and the samples were incubated at 60° C. for 30 minutes to denature the proteins. Tris(2-carboxyethyl)phosphine hydrochloride (TCEP) was added to a final concentration of 5 mM. The samples were alkylated by addition of iodoacetamide (IAA) to 10 mM. After incubating at 37° C. for 2 hrs in the dark, the samples were diluted 10-fold with 0.1 M ammonium bicarbonate and digested with trypsin (Promega, Madison, Wis.) at a ratio of 20:1 (protein:trypsin) overnight at 37° C. For the HA-PHF10, BAP60-HA and HA-D4 samples, the sample preparation protocol using SP3 beads previously described (Hughes et al. (2014) Mol Syst Biol 10:757) was used: 10 uL of SP3 beads (10 ug/uL) and an equal volume of acetonitrile were added to the crosslinked samples and incubated at 60° C. for 30 minutes with shaking. Then the beads were concentrated with a magnet and washed with 70% ethanol and 100% acetonitrile. The beads were then suspended in 100 uL 8M Urea in 1 M ammonium bicarbonate and treated with TECP/IAA for 2 hrs at 37° C. in the dark. Then the samples were diluted 10 times with water and digested by addition of trypsin (20:1, protein:trypsin) overnight at 37° C.

All peptide samples were desalted by passage over C18 cartridges (The Nest group, Southborough, Mass.), and dried by Speed-Vac. The peptides were resuspended in 50 uL Buffer A (25 mM ammonium formate, 20% acetonitrile, 0.1% formic acid, pH 2.8). 1 ug of each sample was reserved for direct MS analysis and the remaining sample was fractionated using an in-house prepared microcapillary strong cation exchange column (200 mm×20 cm; 5 μm, 200 Å partisphere SCX, Whatman or Proteomix SCX 3 um, Sepax Technologies). A binary HPLC pump with split flow was used with microcapillary flowrate at 2-3 uL/min. Peptides were loaded onto the microcapillary column equilibrated in Buffer A and washed with Buffer A. Bound peptides were eluted with 20 μl of Buffer A containing 30%, 50%, 70%, and 100% Buffer B (800 mM ammonium formate, 20% acetonitrile, pH 2.8), followed by 50 μl elutions with Buffer B containing 5%, or 10% Buffer D (0.5 M ammonium acetate, 30% acetonitrile), or just 20 μl of Buffer D. All fractions were dried in a Speed-vac, and resuspended in 0.1% trifluoroacetic acid (TFA), 2% acetonitrile.

Peptides were analyzed by electrospray ionization microcapillary reverse phase HPLC on a Thermo Scientific Fusion with HCD fragmentation and serial MS events that included one FTMS1 event at 30,000 resolution followed by FTMS2 events at 15,000 resolution. Other instrument settings included: MS1 scan range (m/z): 400-1500; cycle time 3 sec; Charge states 4-10; Filters MIPS on, relax restriction=true; Dynamic exclusion enabled: repeat count 1, exclusion duration 30s; Filter Intensity Threshold, signal intensity 50000; Isolation mode, quadrupole; Isolation window 2 Da; HCD normalized collision energy 28%, isolation width 2 Da; AGC target 500,000, Max injection time 200 ms. A 90 min gradient from 5% ACN to 40% ACN was used.

l. CX-MS Database Search and Crosslinked Peptide Identification

The RAW files were converted to mzXML files by Rawconverter (He et al. (2015) Anal Chem 87:11361-11367). For crosslinked peptide searches, two different crosslink database searching algorithms were used: pLink (Yang et al. (2012) Nat Methods 9:904-906) and an in-house designed Nexus. Crosslinking data were analyzed using pLink (Yang et al. (2012) Nat Methods 9:904-906) with default settings (precursor monoisotopic mass tolerance: ±10 ppm; fragment mass tolerance: ±20 ppm; up to 4 isotopic peaks; max evalue 1; static modification on Cysteines; 57. 0215 Da; differential oxidation modification on Methionines; 15. 9949 Da) against a database containing only BAF or PBAF protein sequences.

For Nexus searches, the same databases were used with the following parameter settings: (a) up to three miscleavages; (b) static modification on Cysteines (+57.0215 Da); (c) differential oxidation modification on Methionines (+15.9949 Da); (d) differential modification on the peptide N-terminal Glutamic acid residues (−18.0106 Da) or N-terminal Glutamine residues (−17.0265 Da); (e) differential mono-BS3 modification on Lysine residue (+156.0806 Da). A 5% of FDR cutoff was used for both pLink and Nexus. After performing the pLink and Nexus analyses, the search results were combined and each spectrum was manually evaluated for the quality of the match to each peptide using the COMET/Lorikeet Spectrum Viewer (TPP). Crosslinked peptides are considered confidently identified if at least 4 consecutive b or y ions for each peptide are observed and the majority of the observed ions are accounted for. Search results that did not meet these criteria were removed. Intralinks involving a crosslink between identical residues were only kept if the spectral evidence strongly supported the identification; that is, the major fragment ions correspond to the intralinked peptide sequence and no/few other fragment ions were observed. The percentage of spectra deleted after manual examination was: for DPF2 (11% for interlinks, 5.1% for intralinks), SS18 (30% for interlinks, 5.6% for intralinks), BRD7 (34.9% for interlinks, 15.7% for intralinks), PHF10 (25.7% for interlinks, 9.7% for intralinks), BAP60 (10.4% for interlinks, 9.4% for intralinks), HAD4 (33.7% for interlinks, 10% for intralinks). Crosslinks that met these criteria were uploaded into ProXL for viewing and data analysis (Riffle et al. (2016) J Proteome Res 15:2863-2870). All data including the spectra, linkages and structure analyses can be visualized on the world wide web at yeastrc.org/proxl_public/viewProject.do?project_id=127

m. Analyses of Gradient-Mass Spectrometric Data.

Total spectral counts (peptides) corresponding to each protein subunit within mSWI/SNF complexes in each gradient fraction were assembled into elution profiles and used for downstream analysis. For all panels showing mSWI/SNF complex purification elution profiles, the total peptide counts are min-max normalized separately for each subunit across fractions. Peptide counts are represented both as wave plots and heatmaps. For waveplots, SS18 and SS18L1 peptide counts were combined because individually each yielded low numbers of peptides, owing to the low number of lysines in these proteins. Z-Scores were calculated for heatmaps across rows using the seaborns ‘z_score’ option with all default settings.

To calculate Pearson correlations across elution profiles, total peptide counts across all gradient fractions for each of the baits (SMARCD1, SMARCB1 and SMARCA4) were used. The profiles for each were appended to create a n×3m matrix where n is the number of mSWI/SNF proteins and m is the number of gradient fractions in each experiment. The correlation across these three appended sample profiles was calculated using numpy. The total peptide counts for paralogs of the baits used were excluded (i.e. SMARCD2/3 in the SMARCD1 purification, SMARCA2 in the SMARCA4 purification, etc.).

In order to generate the heatmap reflecting the impact of subunit loss (FIG. 13B), a normalization ratio was calculated by dividing the total number of mSWI/SNF subunit peptides captured across all fractions in each experiment by the mean peptide total across all experiments. All peptide numbers in a particular experiment were multiplied by this ratio to account for potential differences in peptide abundance between experiments. After normalization, the fraction in each experiment with the most total peptides for a given protein was taken and divided by the number of (normalized) peptides in the WT SMARCC1 pull down condition, yielding the proportion of normalized peptides in the mutant condition over the wild-type condition. This was repeated for all proteins and then clustered using scipy hierarchical clustering (from inside the seaborn clustermap package); correlation between samples was used as the distance metric for the clustering. Paralogs of the bait for the mutant samples (SMARCD2 and SMARCD3), proteins that had low numbers of peptides across samples (BCL7B and SS18), and ACTB were excluded from the heatmap.

n. Computational Analysis

Unless otherwise noted, all data analysis was performed using Python version 2.7. Plots were generated using matplotlib and the seaborns data visualization packages.

o. Structural Analysis

A complete list of SWI/SNF structures was compiled from the Protein Data Bank (Table 8). If multiple structures existed for a domain or protein, the structure with the highest resolution was selected. If a single domain had structures in multiple organisms, the structure from the organism most similar to humans was selected. For each protein that had an available structure, the canonical FASTA sequence was aligned to the sequence of the structure using EMBOSS needle 6.6.0 in order to create a map from the FASTA sequence numbers and the structure residue numbers. For each internal cross link between two residues that were both in the structure, the distance between carbon alphas was calculated and recorded in angstroms. All structures were represented using PyMOL, crosslinks were displayed on the structure using the PyMol distance function.

p. Network Schematics of SWI/SNF Complexes from Crosslinking Data

For each complex, a directed network was built with subunits as nodes. Protein paralogs were collapsed for simplicity and number of crosslinks per region of alignment was used as measure of binding strength. Directed edges were shown between subunits with crosslinks between them. The maximum out-degree of each subunit was fixed to be two, where edges were preserved by taking the top edges ranked by number of crosslinks. Modules were colored by membership in communities as detected by the igraph implementation of Louvain clustering (cluster louvain), hence, colors were generated as a function of the relationship between the nodes (subunits and subunit groups) within the network. Networks were plotted with igraph in R. For yeast and human networks, any edges with fewer than 10 crosslinks mapping between the subunits were removed, for Drosophila complexes, they were not removed owing to lower relative protein capture.

q. Crosslinking Maps

Each protein was divided in to amino acid regions (defined in FIG. 4B). Crosslinks between protein regions were counted, paralog proteins were considered equivalent. A small number of proteins (BRD9, GLTSCR1, DPF1, DPF3, HNRL1) were excluded from this analysis because of their very low peptide counts. When these are clustered (FIGS. 5E, 7B, and 9B) the matrix from above was filtered for a protein family of interest (SMARCC, ARID1/2 and SMARCA respectively). Only domains that had a total of at least 3 external crosslinks to any domain in this family of interest were included. Any external crosslinks between proteins in the family of interest were excluded (except for the SMARCC). The rows were clustered using the seaborns clustermap function with all clustering options set to default, columns were not clustered.

r. Conservation Analysis

For each comparison of organisms, a matrix of external crosslinks between domains within each organism was created, as described above. For humans, all paralogs were collapsed and considered as single entities. All domains that were not present in both species were removed, leaving n orthologous domains (51 for humans to flies, 38 for humans to yeast, 38 for flies to yeast). The n×n matrices were ordered such that they had the same order of orthologous domains on both axes. The Pearson correlation between each domain di in (1 . . . n) in organism i was correlated with each domain dj (1 . . . n) in organism to get a full set of binding correlations between every domain. A z-score was calculated for each correlation value across this set, and they were then ranked.

s. Mutational Analysis

For every gene and protein included in the TCGA database (available on the world wide web at cancergenome.nih.gov/), the number of non-silent mutations per amino acid was calculated. A z-score value for each protein was calculated from this list. The list was then ranked and plotted.

Tumor mutation data for each protein was downloaded from the CBioPortal available on the world wide web. Cell line data was excluded. For each protein, the number of mutations (nonsense, frame shift in/dels or splice site mutations) that resulted in a truncation/amino acid was calculated.

For each protein p, 5,000 random integers were selected between 1 and the length of p using numpy.random.randint. Each of these integers represents the position of a random mutation. For each of these simulated ‘mutations’, the proportion of external crosslinking sites (lysines that crosslink to another mSWI/SNF protein) that occur beyond the mutation (and thus would be lost in the random ‘truncation’) was calculated. A mean fraction of sites lost was calculated over the 5000 runs for each protein.

t. Data and Software Availability

All cross-linking mass-spectrometry data including the spectra, linkages and structure analyses can be visualized on the world wide web at yeastrc.org/proxl_public/viewProject.do?project_id=127. All raw files relating to cross-linking mass-spectrometry are available via deposit at proteome Xchange (Deutsch et al. (2017) Nucleic Acids Res 45:D1100-D1106) on the world wide web at proteomexchange.org/under PRIDE access numbers PXDO10122, PXDO10123, and PXDO10124, for mammalian BAF, PBAF and Drosophila BAP, respectively.

The Nexus program can be directly downloaded from the Nexus link on the world wide web at systemsbiology.org/people/labs/ranish-lab/.

Example 2: Affinity Purification of Endogenous mSWI/SNF Reveals Distinct Complex Types and Their Intermediates

To begin to probe the modular organization and assembly order of mSWI/SNF family complexes, HEK-293T cell nuclear extracts were subjected to density sedimentation analyses using 10-30% glycerol gradients, reasoning that such an approach could reveal the presence of distinct final-form SWI/SNF complexes as well as assembly pathway intermediates (FIG. 1A). A range of migration patterns was identified, with subunits such as SMARCD1 and SMARCC1 exhibiting marked spreading across the gradient, and complex-defining subunits migrating in a restricted set of fractions, such as DPF2 and ARID1A (Fx 13-14) marking canonical BAF (cBAF/BAF) complexes, and ARID2, BRD7 and PBRM1 in higher mass fractions, Fx 16-17, marking PBAF complexes. In addition, BRD9 and GLTSCR1/1L subunits corresponding to a newly-identified class of mSWI/SNF complexes which are termed herein as non-canonical BAF (ncBAF) (Alpsoy et al. (2018) J Biol Chem 293:3892-3903; Ho et al. (2009) Proc Natl Acad Sci USA 106:5181-5186; Hohmann et al. (2016) Nat Chem Biol 12:672-679; Kadoch et al. (2013) Nature genetics 45:592-601; Sarnowska et al. (2016) Trends Plant Sci 21:594-608), exhibited distinct lower molecular weight migration patterns (Fx 9-10).

Using these results, a robust purification strategy was developed herein to capture endogenous mammalian complexes at each of these extremes with over 95% purity (FIG. 2A, and Tables 5A-5C). SMARCD1-based purifications were used to capture all forms of mSWI/SNF complexes (as SMARCD1 is present across the full gradient) and HA-DPF2 was used to purify fully-assembled BAF complexes which do not contain PBAF or ncBAF complex components (FIGS. 2B-2C). Remarkably, density sedimentation and silver staining of purified complexes revealed that SMARCD1-captured complexes spread across the gradient, while DPF2 complexes marked only complete BAF complexes with no detectable intermediates (FIGS. 1B-1D, 2D, and 2E, and Tables 6A and 6B), highlighting the utility of this approach to detect specific complexes and intermediate modules. Analysis of spectral counts from mass-spectrometry performed across SMARCD1 gradient fractions confirmed silver stain results, and further identified components with lower abundance such as ncBAF and PBAF subunits (FIGS. 1E and 2F and Table 6A). Taken together, these data demonstrate a step-wise, modular assembly pathway for mSWI/SNF family complexes, resulting in three distinct final complex forms, each with their own combinatorial diversity.

TABLE 5A Mass-spectrometry performed on HA-DPF2 mSWI/SNF complex purifications Purification: HA-DPF2, BAF Fraction 14 (F14) Non Uniqu Tot reference Gene MWT(kDa) Uniqu Total reference Gene MW 7 10 P38646_GRP75_HUMA HSPA 73.63 114 311 O14497_ARI1A_(—) ARID1 241.8 5 6 P06576_ATPB_HUMA ATP5 56.52 87 359 Q92922_SMRC1_(—) SMAR 122.7 5 5 P11021_GRP78_HUMA HSPA 72.29 85 147 Q8NFD5_ARI1B_(—) ARID1 235.9 4 4 P49411_EFTU_HUMA TUFM 49.51 74 130 P51531_SMCA2_(—) SMAR 181.1 3 5 P62081_RS7_HUMAN RPS7 22.11 52 105 Q8TAQ2_SMRC2 SMAR 132.8 3 4 P25705_ATPA_HUMA ATP5 59.71 47 88 P51532_SMCA4_(—) SMAR 184.5 3 3 Q13885_TBB2A_HUM TUBB 49.87 40 118 Q969G3_SMCE1_(—) SMAR 46.62 3 3 P05141_ADT2_HUMA SLC25 32.83 37 83 Q96GM5_SMRD1 SMAR 58.2 3 3 Q9BYX7_ACTBM_HU POTE 41.99 32 51 Q92925_SMRD2_(—) SMAR 58.88 3 3 P62987_RL40_HUMA UBA5 14.72 23 61 O96019_ACL6A_(—) ACTL6 47.43 3 3 Q71U36_TBA1A_HUM TUBA 50.1 22 62 Q12824_SNF5_H SMAR 44.11 3 3 Q6P2Q9_PRP8_HUMA PRPF8 273.4 20 33 Q92785_REQU_H DPF2 44.13 2 2 P31943_HNRH1_HUM HNRN 49.2 20 23 Q6STE5_SMRD3 SMAR 54.98 2 2 P08670_VIME_HUMA VIM 53.62 16 49 P62736_ACTA_H ACTA2 41.98 2 2 P52272_HNRPM_HUM HNRN 77.46 16 36 Q4VC05_BCL7A BCL7A 22.8 1 2 Q9BXY5_CAYP2_HU CAPS 63.8 8 24 P60709_ACTB_H ACTB 41.71 1 2 P46459_NSF_HUMAN NSF 82.54 7 13 Q8WUZ0_BCL7C BCL7C 23.45 1 1 Q9Y651_SOX21_HUM SOX2 28.56 4 5 F8VXC8_F8VXC SMAR 136.1 1 1 P04908_H2A1B_HUM HIST1 14.13 2 4 A0A0A0MT49_A SMAR 188.7 1 1 P61247_RS3A_HUMA RPS3 29.93 2 3 O75177_CREST_(—) SS18L1 42.96 1 1 P12235_ADT1_HUMA SLC25 33.04 2 2 Q15532_SSXT_H SS18 45.9 1 1 P33993_MCM7_HUMA MCM7 81.26 1 1 Q9HBD4_Q9HBD SMAR 188.0 1 1 P54652_HSP72_HUMA HSPA 69.98 Total 711 1708 1 1 Q53H12_AGK_HUMA AGK 47.11 total BAF Non BAF total 1 1 P11142_HSP7C_HUM HSPA 70.85 1708 80 1788 1 1 P12273_PIP_HUMAN PIP 16.56 purity 95.525 1 1 P07437_TBB5_HUMA TUBB 49.64 1 1 P62304_RUXE_HUMA SNRP 10.8 1 1 Q8N4U5_T11L2_HUM TCP11 58.05 1 1 P36542_ATPG_HUMA ATP5 32.98 1 1 P52701_MSH6_HUMA MSH6 152.6 1 1 F5H3B3_F5H3B3_HU ANKR 12.76 1 1 Q02978_M2OM_HUM SLC25 34.04 1 1 K1C18_HUMAN_conta KRT1 48.03 1 1 Q15063_POSTN_HUM POST 93.26 Total 71 80

TABLE 5B Mass-spectrometry performed on HA-SMARCD1 mSWI/SNF complex purifications Purification: HA-SMARCD1, mSWI/SNF-Fraction 15 Non Uniq Tot reference Gene MWT(kDa) Uni Total reference Gene MW 10 10 P52292_IMA1_HU KPN 57.8 100 321 O14497_ARI1A ARID 241. 8 8 P25705_ATPA_HU ATP5 59.7 88 403 Q92922_SMRC SMA 122. 7 8 P06576_ATPB_HU ATP5 56.5 79 115 Q86U86_PB1_(—) PBR 192. 7 7 Q6P2Q9_PRP8_HU PRPF 273. 75 189 Q8NFD5_ARI1 ARID 235. 6 7 O75643_U520_HU SNR 244. 74 206 P51531_SMCA SMA 181. 6 6 P38646_GRP75_H HSPA 73.6 55 172 Q8TAQ2_SMR SMA 132. 5 5 P11021_GRP78_H HSPA 72.2 53 153 P51532_SMCA SMA 184. 5 5 Q15029_U5S1_HU EFTU 109. 44 175 Q96GM5_SMR SMA 58.2 4 4 P49411_EFTU_HU TUF 49.5 41 55 Q68CP9_ARID ARID 197. 3 5 Q9BYX7_ACTBM_(—) POTE 41.9 33 114 Q969G3_SMCE SMA 46.6 3 3 Q71U36_TBA1A_H TUB 50.1 22 75 Q12824_SNF5_(—) SMA 44.1 3 3 P05141_ADT2_HU SLC2 32.8 22 58 O96019_ACL6 ACT 47.4 3 3 P62987_RL40_HU UBA 14.7 19 41 Q92785_REQU DPF2 44.1 3 3 P34931_HS71L_HU HSPA 70.3 19 29 Q9NPI1_BRD7 BRD7 74.0 3 3 P12235_ADT1_HU SLC2 33.0 16 68 P62736_ACTA ACT 41.9 2 2 P07437_TBB5_HU TUB 49.6 14 14 Q8WUB8_PHF PHF1 56.0 2 2 Q13885_TBB2A_H TUB 49.8 12 33 Q4VC05_BCL7 BCL7 22.8 2 2 P54652_HSP72_HU HSPA 69.9 10 12 Q92784_DPF3_(—) DPF3 43.0 1 3 Q15063_POSTN_H POST 93.2 10 11 Q9NZM4_GSC GLTS 158. 1 2 Q9BXY5_CAYP2_(—) CAPS 63.8 8 19 Q8WUZ0_BCL BCL7 23.4 1 2 Q9H4K7_MTG2_H MTG 43.9 8 8 Q9H8M2_BRD BRD9 66.9 1 1 P07477_TRY1_HU PRSS 26.5 7 22 P60709_ACTB_(—) ACT 41.7 1 1 P31943_HNRH1_H HNR 49.2 6 7 Q92782_DPF1_(—) DPF1 42.4 1 1 P35030_TRY3_HU PRSS 32.5 2 8 A0A0A0MT49_(—) SMA 188. 1 1 P04083_ANXA1_H ANX 38.6 2 3 G5E975_G5E97 SMA 45.0 1 1 Q9Y651_SOX21_H SOX2 28.5 2 3 Q15532_SSXT_(—) SS18 45.9 1 1 K7EM38_K7EM38 ACT 14.5 2 2 O75177_CRES SS18 42.9 1 1 Q15758_AAAT_H SLC1 56.5 1 1 H0Y3S9_H0Y3 ARID 29.4 1 1 Q00325_MPCP_HU SLC2 40.0 1 2 F8W7T1_F8W7 DPF3 46.4 1 1 P22695_QCR2_HU UQC 48.4 1 1 C8C3P2_C8C3 DPF1 45.0 1 1 P05023_AT1A1_H ATP1 112. 1 1 Q6AI39_GSC1 GLTS 115. 1 1 P04350_TBB4A_H TUB 49.5 1 1 C9J053_C9J053 PBR 13.6 1 1 P68104_EF1A1_HU EEF1 50.1 1 1 Q9HBD4_Q9H SMA 188. 1 1 A1E5M1_A1E5M1 PDE7 57.6 1 1 E9PDV3_E9PD DPF1 45.2 1 1 P01857_IGHG1_H IGHG 36.0 Total 830 2324 1 1 Q9Y265_RUVB1_(—) RUV 50.2 BAF Non total 1 1 Q9UKS7_IKZF2_H IKZF 59.5 Total 2324 112 2436 1 1 P82970_HMGN5_H HMG 31.5 purity 95.4 1 1 P68363_TBA1B_H TUB 50.1 1 1 Q86UP9_LHPL3_H LHFP 25.7 Total 104 112

TABLE 5C Mass-spectrometry performed on MOCK control mSWI/SNF complex purifications MOCK purification Fractions 12-14 (F12-14) Unique Total reference Gene Symbol MWT(kDa) 18 20 Q10570_CPSF1_HUMAN CPSF1 160.78 11 14 P06576_ATPB_HUMAN ATP5B 56.52 11 11 P25705_ATPA_HUMAN ATP5A1 59.71 10 19 Q9H2S9_IKZF4_HUMAN IKZF4 64.07 10 12 Q71U36_TBA1A_HUMAN TUBA1A 50.1 9 10 P11021_GRP78_HUMAN HSPA5 72.29 9 9 Q13885_TBB2A_HUMAN TUBB2A 49.87 9 9 Q9UKS7_IKZF2_HUMAN IKZF2 59.54 9 9 P52272_HNRPM_HUMAN HNRNPM 77.46 9 9 Q6UN15_FIP1_HUMAN FIP1L1 66.49 9 9 Q9Y265_RUVB1_HUMAN RUVBL1 50.2 8 10 P38646_GRP75_HUMAN HSPA9 73.63 8 9 P78527_PRKDC_HUMAN PRKDC 468.79 8 8 P05023_AT1A1_HUMAN ATP1A1 112.82 7 8 P07355_ANXA2_HUMAN ANXA2 38.58 7 8 O95831_AIFM1_HUMAN AIFM1 66.86 7 7 Q9Y230_RUVB2_HUMAN RUVBL2 51.12 7 7 Q9P2I0_CPSF2_HUMAN CPSF2 88.43 6 7 P11142_HSP7C_HUMAN HSPA8 70.85 6 6 P20700_LMNB1_HUMAN LMNB1 66.37 6 6 Q9UJV9_DDX41_HUMAN DDX41 69.79 5 6 P68104_EF1A1_HUMAN EEF1A1 50.11 5 5 P10809_CH60_HUMAN HSPD1 61.02 5 5 P56945_BCAR1_HUMAN BCAR1 93.31 5 5 P04843_RPN1_HUMAN RPN1 68.53 5 5 P62736_ACTA_HUMAN ACTA2 41.98 5 5 P39656_OST48_HUMAN DDOST 50.77 5 5 Q9C0J8_WDR33_HUMAN WDR33 145.8 4 6 IGH1M_MOUSE Ighg1 43.36 4 5 P60709_ACTB_HUMAN ACTB 41.71 4 5 P33993_MCM7_HUMAN MCM7 81.26 4 5 Q16891_MIC60_HUMAN IMMT 83.63 4 4 O43175_SERA_HUMAN PHGDH 56.61 4 4 P22695_QCR2_HUMAN UQCRC2 48.41 4 4 P04040_CATA_HUMAN CAT 59.72 4 4 P08107_HSP71_HUMAN HSPA1A 70.01 4 4 P31943_HNRH1_HUMAN HNRNPH1 49.2 4 4 Q15517_CDSN_HUMAN CDSN 51.49 4 4 P12235_ADT1_HUMAN SLC25A4 33.04 3 4 Q07021_C1QBP_HUMAN C1QBP 31.34 3 4 Q8TEM1_PO210_HUMAN NUP210 204.98 3 4 P52701_MSH6_HUMAN MSH6 152.69 3 4 P34931_HS71L_HUMAN HSPA1L 70.33 3 4 P04844_RPN2_HUMAN RPN2 69.24 3 3 P06733_ENOA_HUMAN ENO1 47.14 3 3 O75223_GGCT_HUMAN GGCT 20.99 3 3 P52597_HNRPF_HUMAN HNRNPF 45.64 3 3 P01876_IGHA1_HUMAN IGHA1 37.63 3 3 P49411_EFTU_HUMAN TUFM 49.51 3 3 P16615_AT2A2_HUMAN ATP2A2 114.68 3 3 P62987_RL40_HUMAN UBA52 14.72 3 3 P54652_HSP72_HUMAN HSPA2 69.98 3 3 Q15029_U5S1_HUMAN EFTUD2 109.37 2 3 Q9H4B7_TBB1_HUMAN TUBB1 50.29 2 3 Q13509_TBB3_HUMAN TUBB3 50.4 2 3 O75489_NDUS3_HUMAN NDUFS3 30.22 2 3 Q96I99_SUCB2_HUMAN SUCLG2 46.48 2 3 Q8N1F7_NUP93_HUMAN NUP93 93.43 2 3 P12004_PCNA_HUMAN PCNA 28.75 2 2 P10599_THIO_HUMAN TXN 11.73 2 2 P04350_TBB4A_HUMAN TUBB4A 49.55 2 2 P05141_ADT2_HUMAN SLC25A5 32.83 2 2 P07437_TBB5_HUMAN TUBB 49.64 2 2 Q9UJS0_CMC2_HUMAN SLC25A13 74.13 2 2 P42357_HUTH_HUMAN HAL 72.65 2 2 P36542_ATPG_HUMAN ATP5C1 32.98 2 2 O95639_CPSF4_HUMAN CPSF4 30.23 2 2 Q15393_SF3B3_HUMAN SF3B3 135.49 2 2 O14983_AT2A1_HUMAN ATP2A1 110.18 2 2 P04792_HSPB1_HUMAN HSPB1 22.77 2 2 Q14204_DYHC1_HUMAN DYNC1H1 532.07 2 2 IGKC_MOUSE 11.77 2 2 Q15758_AAAT_HUMAN SLC1A5 56.56 2 2 P13674_P4HA1_HUMAN P4HA1 61.01 2 2 P04406_G3P_HUMAN GAPDH 36.03 2 2 Q13867_BLMH_HUMAN BLMH 52.53 2 2 P45880_VDAC2_HUMAN VDAC2 31.55 2 2 Q92841_DDX17_HUMAN DDX17 80.22 2 2 O00165_HAX1_HUMAN HAX1 31.6 2 2 Q02978_M20M_HUMAN SLC25A11 34.04 2 2 P50402_EMD_HUMAN EMD 28.98 2 2 P02545_LMNA_HUMAN LMNA 74.09 2 2 Q5UIP0_RIF1_HUMAN RIF1 274.29 2 2 Q08211_DHX9_HUMAN DHX9 140.87 2 2 Q09666_AHNK_HUMAN AHNAK 628.7 1 2 Q9UGM3_DMBT1_HUMAN DMBT1 260.57 1 2 Q96EY1_DNJA3_HUMAN DNAJA3 52.46 1 2 P53621_COPA_HUMAN COPA 138.26 1 2 P62304_RUXE_HUMAN SNRPE 10.8 1 2 Q15155_NOMO1_HUMAN NOMO1 134.24 1 2 Q16610_ECM1_HUMAN ECM1 60.64 1 2 Q86Y07_VRK2_HUMAN VRK2 58.1 1 2 P11177_ODPB_HUMAN PDHB 39.21 1 2 P13804_ETFA_HUMAN ETFA 35.06 1 2 P00403_COX2_HUMAN MT-CO2 25.55 1 1 P07477_TRY1_HUMAN PRSS1 26.54 1 1 IGHM_MOUSE Igh-6 49.94 1 1 Q5T280_CI114_HUMAN C9orf114 41.98 1 1 Q6UWP8_SBSN_HUMAN SBSN 60.5 1 1 O15269_SPTC1_HUMAN SPTLC1 52.71 1 1 P08865_RSSA_HUMAN RPSA 32.83 1 1 P51571_SSRD_HUMAN SSR4 18.99 1 1 Q9HCY8_S10AE_HUMAN S100A14 11.65 1 1 P62805_H4_HUMAN HIST1H4A 11.36 1 1 Q9UHX1_PUF60_HUMAN PUF60 59.84 1 1 P12273_PIP_HUMAN PIP 16.56 1 1 Q8TAA3_PSA7L_HUMAN PSMA8 28.51 1 1 P07910_HNRPC_HUMAN HNRNPC 33.65 1 1 P20618_PSB1_HUMAN PSMB1 26.47 1 1 P14649_MYL6B_HUMAN MYL6B 22.75 1 1 P31689_DNJA1_HUMAN DNAJA1 44.84 1 1 Q15365_PCBP1_HUMAN PCBP1 37.47 1 1 Q58FF8_H90B2_HUMAN HSP90AB2P 44.32 1 1 Q06830_PRDX1_HUMAN PRDX1 22.1 1 1 Q3ZCQ8_TIM50_HUMAN TIMM50 39.62 1 1 P28072_PSB6_HUMAN PSMB6 25.34 1 1 O14828_SCAM3_HUMAN SCAMP3 38.26 1 1 Q12873_CHD3_HUMAN CHD3 226.45 1 1 P07237_PDIA1_HUMAN P4HB 57.08 1 1 P37837_TALDO_HUMAN TALDO1 37.52 1 1 Q01650_LAT1_HUMAN SLC7A5 54.97 1 1 P01591_IGJ_HUMAN IGJ 18.09 1 1 P14618_KPYM_HUMAN PKM 57.9 1 1 P68371_TBB4B_HUMAN TUBB4B 49.8 1 1 O75528_TADA3_HUMAN TAD A3 48.87 1 1 Q16563_SYPL1_HUMAN SYPL1 28.55 1 1 P05161_ISG15_HUMAN ISG15 17.88 1 1 P08559_ODPA_HUMAN PDHA1 43.27 1 1 KV2A7_MOUSE 12.27 1 1 Q15007_FL2D_HUMAN WTAP 44.22 1 1 P25789_PSA4_HUMAN PSMA4 29.47 1 1 P56537_IF6_HUMAN EIF6 26.58 1 1 P62258_1433E_HUMAN YWHAE 29.16 1 1 Q9H936_GHC1_HUMAN SLC25A22 34.45 1 1 Q6P4A8_PLBL1_HUMAN PLBD1 63.21 1 1 P60174_TPIS_HUMAN TPI1 30.77 1 1 P35250_RFC2_HUMAN RFC2 39.13 1 1 Q14498_RBM39_HUMAN RBM39 59.34 1 1 P62913_RL11_HUMAN RPL11 20.24 1 1 P49720_PSB3_HUMAN PSMB3 22.93 1 1 P02788_TRFL_HUMAN LTF 78.13 1 1 P06493_CDK1_HUMAN CDK1 34.07 1 1 Q13422_IKZF1_HUMAN IKZF1 57.49 1 1 Q96QV6_H2A1A_HUMAN HIST1H2AA 14.22 1 1 Q9UBM7_DHCR7_HUMAN DHCR7 54.45 1 1 Q9BXF6_RFIP5_HUMAN RAB11FIP5 70.37 1 1 Q9Y6J9_TAF6L_HUMAN TAF6L 67.77 1 1 O95400_CD2B2_HUMAN CD2BP2 37.62 1 1 Q8IY92_SLX4_HUMAN SLX4 199.89 1 1 P51572_BAP31_HUMAN BCAP31 27.97 1 1 Q86Y39_NDUAB_HUMAN NDUFA11 14.84 1 1 P04083_ANXA1_HUMAN ANXA1 38.69 1 1 Q96A08_H2B1A_HUMAN HIST1H2BA 14.16 1 1 G3V542_G3V542_HUMAN TUBB3 4.97 1 1 P01857_IGHG1_HUMAN IGHG1 36.08 1 1 Q9P035_HACD3_HUMAN PTPLAD1 43.13 1 1 Q16695_H31T_HUMAN HIST3H3 15.5 1 1 P32119_PRDX2_HUMAN PRDX2 21.88 1 1 Q86VP6_CAND1_HUMAN CAND1 136.29 1 1 P49327_FAS_HUMAN FASN 273.25 1 1 Q15828_CYTM_HUMAN CST6 16.5 1 1 P26641_EFIG_HUMAN EEF1G 50.09 1 1 Q96HS1_PGAM5_HUMAN PGAM5 31.98 1 1 Q9BUQ8_DDX23_HUMAN DDX23 95.52 1 1 Q9BUF5_TBB6_HUMAN TUBB6 49.82 1 1 Q76M96_CCD80_HUMAN CCDC80 108.11 1 1 P27482_CALL3_HUMAN CALML3 16.88 1 1 Q12769_NU160_HUMAN NUP160 162.02 1 1 Q96ES7_SGF29_HUMAN CCDC101 33.22 1 1 P11310_ACADM_HUMAN ACADM 46.56 1 1 P12532_KCRU_HUMAN CKMT1A 47.01

TABLE 6A Gradient/mass-spectrometry results in WT HEK-293T cells with HA-SMARCD1 as a bait Gradient 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Subu ACT 29 24 19 15 21 22 32 59 54 37 88 87 63 48 43 20 ACT 40 24 19 22 22 21 53 90 80 74 131 139 112 86 81 54 ARI 27 41 38 51 67 65 56 58 108 319 670 592 442 282 218 184 ARI 8 13 16 17 27 30 29 38 58 129 381 339 212 122 88 76 ARI 12 20 23 19 27 23 18 18 26 37 31 38 79 142 114 60 BCL 25 14 9 6 12 6 25 24 22 21 53 35 28 27 12 14 BCL 12 3 3 3 3 3 11 10 12 12 25 26 16 13 10 7 BRD 5 5 7 3 6 8 16 11 13 13 20 21 41 71 51 22 BRD 6 3 0 0 8 15 76 128 93 35 20 14 14 11 12 6 DPF 11 10 9 10 11 9 9 13 19 54 76 74 62 36 41 33 GLT 11 15 29 26 38 46 144 222 154 75 26 22 26 23 23 25 PBR 41 35 39 48 47 46 44 47 58 49 31 46 124 321 266 136 PHF 8 7 3 2 4 2 6 5 6 6 3 8 16 25 26 15 SMA 8 9 8 5 17 37 112 170 144 152 242 228 148 109 105 45 SMA 14 14 12 8 23 26 75 107 81 83 187 159 92 63 64 41 SMA 12 11 13 27 76 118 142 78 75 87 139 131 110 87 91 64 SMA 38 228 738 715 530 575 636 480 387 353 473 525 410 290 265 188 SMA 15 20 31 29 93 159 112 84 105 147 233 254 195 146 123 66 SMA 326 286 463 468 371 425 418 333 257 262 286 276 233 194 167 110 SMA 13 4 2 2 0 14 10 4 6 0 0 0 0 0 0 0 SMA 3 2 3 3 2 3 2 4 3 1 0 0 0 2 1 1 SMA 13 11 13 19 62 93 94 67 55 108 136 152 116 102 82 58 SS18 2 0 2 1 2 2 2 3 2 3 2 2 2 0 0 0 SS18 0 0 0 0 0 2 3 3 3 3 4 15 3 3 3 3 BCL 0 0 0 0 0 0 0 0 1 0 3 2 0 3 1 0 GLT 0 0 3 13 17 11 13 67 78 32 11 11 10 9 11 13

TABLE 6B Gradient/mass-spectrometry results in WT HEK-293T cells with DPF2-HA as a bait Gradient Fraction 2-5 13-14 Subunit ACTB 16 24 ACTL6A 22 61 ARID1A 14 311 ARID1B 9 147 BCL7A 16 36 BCL7C 13 13 DPF2 368 33 SMARCA2 2 130 SMARCA4 1 93 SMARCB1 4 62 SMARCC1 21 359 SMARCC2 3 110 SMARCD1 5 83 SMARCD2 3 51 SMARCE1 5 118 SS18 1 2 SS18L1 0 3 SMARCD3 0 23

TABLE 6C Gradient/mass-spectrometry results in WT HEK-293T cells with HA-SMARCC1 as a bait Gradient Fraction 7-8 9-10 13-14 16-17 Subunit ACTB 11 18 33 13 ACTL6A 13 28 90 40 ARID1A 22 6 409 107 ARID1B 5 1 257 45 DPF2 13 8 97 17 GLTSCR1 9 71 33 8 PBRM1 10 4 34 92 SMARCA2 6 28 197 41 SMARCA4 7 20 131 36 SMARCB1 200 67 116 35 SMARCC1 831 227 330 146 SMARCC2 103 30 90 17 SMARCD1 120 70 119 42 SMARCD2 115 69 126 27 SMARCD3 24 11 46 6 SMARCE1 166 61 120 64 ARID2 0 1 35 47 BCL7A 0 5 52 16 BCL7C 0 9 48 7 BRD9 0 31 24 0 BCL7B 0 0 3 0 SS18L1 0 0 14 0 GLTSCR1L 0 1 11 0 PHF10 0 0 7 12 BRD7 0 0 18 17

TABLE 6D Gradient/mass-spectrometry results in WT HEK-293T cells with HA-SMARCB1 as a bait Gradient 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Subu ACT 301 174 131 80 53 25 55 53 39 71 144 115 100 23 23 19 ACT 62 46 40 40 33 16 29 40 48 65 115 128 100 44 44 31 ARI 9 17 23 63 39 83 40 94 113 284 531 413 376 129 129 110 ARI 6 17 12 50 38 45 36 61 80 125 227 265 219 75 75 41 BCL 39 19 10 10 5 20 26 20 23 41 61 94 90 22 22 14 BCL 2 0 0 0 0 1 0 0 0 1 0 4 3 1 1 0 BCL 5 4 3 7 4 7 6 6 5 17 28 23 14 7 7 6 DPF 15 9 13 14 16 17 17 15 24 136 161 160 139 22 22 39 PBR 8 12 18 23 19 22 21 27 22 22 15 33 77 142 142 93 PHF 4 3 3 1 1 2 1 1 1 1 1 4 7 6 6 5 SM 4 4 6 4 4 16 6 18 29 63 305 83 180 26 26 37 SM 4 6 4 8 5 19 6 18 27 65 259 70 141 17 17 40 SM 393 231 163 261 407 368 283 265 204 195 207 209 171 66 66 90 SM 18 31 54 261 710 1291 402 602 331 348 595 472 531 87 87 108 SM 10 15 49 70 53 343 38 84 73 103 271 58 206 36 36 40 SM 9 14 32 46 106 259 195 105 96 163 184 247 122 53 53 47 SM 10 11 17 15 89 168 126 70 63 95 115 144 91 33 33 30 SM 3 2 5 13 29 35 35 26 32 40 42 38 28 16 16 13 SM 10 9 21 104 365 329 283 219 147 164 224 242 205 71 71 95 ARI 0 4 14 9 6 8 5 9 9 28 34 33 42 68 68 45 SS18 0 0 0 0 0 1 0 1 2 4 4 3 5 0 0 3 BRD 0 3 3 3 3 4 0 5 8 16 12 18 22 22 22 20 SS18 0 0 1 1 1 1 2 1 1 1 5 9 6 1 1 1

TABLE 6E Gradient/mass-spectrometry results in WT HEK-293T cells with HA-SMARCE1 as a bait Gradient Fraction 7-8 9-10 13-14 16-17 Subunit ACTB 11 10 21 7 ACTL6A 19 27 61 30 ARID1A 64 91 273 67 ARID1B 16 36 176 25 BCL7C 1 2 31 2 DPF2 20 24 78 10 PBRM1 11 15 16 89 SMARCA2 17 31 127 17 SMARCA4 19 24 73 13 SMARCB1 138 79 79 25 SMARCC1 523 272 196 90 SMARCC2 168 117 117 30 SMARCD1 74 66 96 30 SMARCD2 61 48 74 15 SMARCD3 18 15 31 7 SMARCE1 163 106 94 58 SS18 1 3 0 1 BCL7A 0 11 39 12 SS18L1 0 0 19 0 ARID2 0 0 19 41 PHF10 0 0 8 11 BRD7 0 0 8 18

TABLE 6F Gradient/mass-spectrometry results in WT HEK-293T cells with HA-SMARCD2 as a bait Gradient Fraction 3-4 5-6 7-8 10-11 13-14 16-17 Subunit ACTL6A 17 13 16 18 44 16 ARID1A 10 12 20 39 170 25 ARID1B 1 3 8 21 120 11 ARID2 3 1 5 0 27 25 BCL7A 8 3 0 3 18 0 BCL7B 2 0 0 0 21 0 BCL7C 5 1 1 1 10 0 BRD7 1 0 1 0 13 6 DPF2 10 6 7 11 71 8 PBRM1 9 8 10 6 43 31 PHF10 7 0 1 0 9 3 SMARCA2 1 2 5 12 64 12 SMARCA4 4 2 5 7 52 13 SMARCB1 7 6 53 19 54 16 SMARCC1 23 30 76 37 97 23 SMARCC2 18 24 94 39 140 20 SMARCD1 2 0 4 0 0 0 SMARCD2 172 41 88 41 76 22 SMARCD3 60 8 19 4 16 4 SMARCE1 7 8 54 31 68 16 SS18 0 0 0 0 2 0 SS18L1 0 0 0 0 7 0

TABLE 6G Gradient/mass-spectrometry results in delSMARCD1 HEK-293T cells with HA-SMARCE1 as a bait Gradient Fraction 3-4 7-8 10-11 13-14 15-16 Subunit DPF2 6 13 6 4 2 SMARCB1 11 748 158 56 13 SMARCC1 66 2839 661 167 52 SMARCC2 43 1683 345 120 29 SMARCE1 640 1019 494 257 82 SMARCA4 0 0 2 0 0

TABLE 6H Gradient/mass-spectrometry results in delSMARCE1 HEK-293T cells with HA-SMARCD1 as a bait Gradient Fraction 5-6 8-9 10-11 13-14 16-17 Subunit ACTL6A 8 10 34 58 40 ARID1A 108 22 25 47 8 ARID1B 26 2 9 27 0 ARID2 29 6 2 17 20 BCL7A 2 1 34 7 2 GLTSCR1 1 11 15 2 0 BRD7 2 1 2 6 9 DPF2 5 14 9 7 2 PBRM1 13 0 9 13 41 PHF10 3 3 2 0 2 SMARCA2 3 8 25 17 3 SMARCA4 4 11 52 22 7 SMARCB1 5 485 154 37 19 SMARCC1 1117 1522 498 94 27 SMARCC2 269 1449 524 112 38 SMARCD1 735 1391 582 120 58 SMARCD3 151 391 85 23 8 SMARCE1 2 1 3 18 4 BRD9 0 3 9 0 0 BCL7C 0 2 7 3 4 SS18 0 0 1 2 0 SS18L1 0 0 0 2 0 GLTSCR1L 0 0 4 0 0 SMARCD2 0 11 3 0 0 BCL7B 0 0 2 0 0

TABLE 61 Gradient/mass-spectrometry results in delSMARCB1 HEK-293T cells with HA-SMARCD1 as a bait Gradient Fraction 5-6 7-8 10-11 13-14 15-16 Subunit ACTL6A 14 22 57 221 50 ARID1A 163 142 105 734 201 ARID1B 34 35 25 134 26 ARID2 9 14 30 151 71 BCL7C 3 2 8 20 6 GLTSCR1 3 10 77 8 5 BRD7 3 4 16 66 19 PBRM1 11 15 8 58 46 SMARCA2 3 14 84 302 49 SMARCA4 5 9 87 188 38 SMARCC1 1337 659 186 362 56 SMARCC2 623 583 210 871 137 SMARCD1 1230 908 310 540 142 SMARCD3 191 94 46 109 19 SMARCE1 14 306 93 309 95 BCL7A 0 10 66 97 36 SS18L1 0 1 1 4 1 SMARCD2 0 1 2 0 0 BCL7B 0 0 13 9 10 BRD9 0 0 30 4 1 SS18 0 0 6 11 6 GLTSCR1L 0 0 18 5 2 SMARCB1 0 0 0 1 1 DPF2 0 0 0 3 1

TABLE 6J Gradient/mass-spectrometry results in WT HEK- 293T cells with HA-ARID1A C-terminus as a bait Gradient Fraction 3-4 9-10 13-14 16-17 Subunit ACTB 30 6 60 22 ACTL6A 30 19 130 55 ARID1A 599 261 398 150 BCL7A 26 4 91 34 BCL7C 7 5 22 10 DPF2 34 84 128 36 SMARCA2 3 33 321 54 SMARCA4 2 32 268 31 SMARCB1 7 125 151 51 SMARCC1 22 407 837 209 SMARCC2 5 95 124 34 SMARCD1 9 61 167 67 SMARCD2 2 75 64 35 SMARCD3 2 31 33 19 SMARCE1 12 138 238 95 SS18 1 1 5 2 SS18L1 0 0 4 0 BCL7B 0 0 0 1

TABLE 6K Gradient/mass-spectrometry results in delARID1A, 1B HEK-293T cells with HA-SMARCD1 as a bait Gradient Fraction 3-4 8-9 10-11 13-14 16-17 Subunit ACTB 12 3 18 6 10 ACTL6A 16 13 58 16 42 ARID2 2 9 10 14 71 BCL7A 3 0 15 0 8 BCL7C 2 0 4 1 0 BRD7 5 2 4 5 31 DPF2 2 0 0 2 1 GLTSCR1 6 25 146 23 8 PBRM1 17 26 21 6 194 PHF10 3 0 0 3 23 SMARCA2 2 8 62 9 22 SMARCA4 3 7 33 10 18 SMARCB1 7 182 93 17 37 SMARCC1 97 718 457 65 103 SMARCC2 12 243 104 24 100 SMARCD1 666 631 343 67 90 SMARCD3 2 0 1 1 0 SMARCE1 11 142 71 33 61 BRD9 0 8 51 5 2 SS18L1 0 0 1 0 0 GLTSCR1L 0 4 15 4 1 SMARCD2 0 5 4 0 0 SS18 0 0 2 1 1 BCL7B 0 0 1 0 0

TABLE 6L Gradient/mass-spectrometry results in delARID1A, 1B, 2 HEK-293T cells with HA-SMARCD1 as a bait Gradient Fraction 2-3 5-6 7-8 9-10 13-14 16-17 Subunit ACTB 25 12 8 16 7 4 ACTL6A 8 8 18 40 19 11 BCL7A 6 0 6 24 8 1 BRD9 5 7 17 50 4 5 DPF2 5 0 1 1 6 1 GLTSCR1 4 33 43 100 29 16 GLTSCR1L 1 5 8 23 10 3 SMARCA4 1 5 15 47 10 7 SMARCB1 5 14 183 90 26 14 SMARCC1 43 1270 987 452 75 65 SMARCC2 12 73 347 177 43 27 SMARCD1 1886 1400 834 447 115 74 SMARCD2 1 0 4 3 0 0 SMARCD3 6 6 1 2 2 1 SMARCE1 17 13 134 80 22 14 PHF10 1 0 0 0 0 0 BCL7C 0 0 1 8 0 0 SMARCA2 0 7 26 71 15 10 SS18 0 0 0 3 0 0 SS18L1 0 0 0 6 0 0 ARID1B 0 0 0 0 4 0 ARID1A 0 0 0 0 14 0

TABLE 6M Gradient/mass-spectrometry results in delSMARCA HEK-293T cells with HA-SMARCD1 as a bait Gradient Fraction 7 9 11 Subunit ARID1A 100 69 241 ARID1B 48 51 111 ARID2 23 35 103 GLTSCR1 62 27 11 GLTSCR1L 41 13 11 BRD7 10 15 44 BRD9 37 13 6 DPF2 8 16 26 SMARCB1 92 259 125 SMARCC1 327 927 430 SMARCC2 222 663 376 SMARCD1 367 519 211 SMARCD3 70 175 56 SMARCE1 186 632 238 PHF10 0 1 7 SMARCA4 0 3 3

TABLE 6N Gradient/mass-spectrometry results in WT HEK-293T cells with HA-SMARCA4 as a bait Gradient 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Subu ACT 26 11 15 41 76 37 23 25 13 20 29 23 18 13 10 5 ACT 43 26 24 96 165 103 82 85 57 97 93 65 46 51 30 27 ARI 4 11 25 21 19 19 22 37 88 331 434 241 128 93 65 55 BCL 4 1 6 22 45 37 21 21 14 11 20 16 12 0 5 0 DPF 6 3 5 5 6 7 5 6 17 44 60 35 17 14 15 10 GLT 5 5 6 3 7 46 90 85 46 15 11 13 9 8 5 5 PBR 6 5 17 19 13 13 11 19 19 6 13 45 129 104 51 38 SM 22 23 124 183 381 221 87 91 86 139 184 74 56 30 19 11 SM 41 30 178 283 518 292 107 128 106 160 188 87 61 38 25 15 SM 6 2 4 5 3 5 13 42 46 82 89 63 56 39 18 17 SM 11 12 18 17 21 61 75 166 168 380 479 231 144 104 95 42 SM 5 6 9 9 15 33 64 82 61 91 110 64 55 47 41 33 SM 1 1 3 6 6 7 11 13 19 51 59 39 20 18 11 9 SM 4 5 7 9 7 10 19 58 76 116 129 106 81 62 61 41 SS18 2 2 4 5 9 6 3 3 4 2 4 2 3 2 2 0 GLT 0 0 1 0 0 0 7 17 9 4 0 1 1 1 2 1 BCL 0 1 1 10 31 18 16 8 6 13 16 8 4 4 1 1 BRD 0 0 0 0 2 11 21 22 12 7 4 4 4 3 0 0 ARI 0 1 4 9 4 8 3 8 8 8 14 22 44 45 21 17 BRD 0 0 2 2 4 3 1 2 3 6 6 9 17 16 10 5 SM 0 3 9 9 9 16 18 54 73 175 168 85 80 53 38 25 PHF 0 0 0 0 0 0 0 0 0 1 0 1 9 9 5 0 BCL 0 0 0 0 4 3 1 0 0 2 2 1 0 0 0 0 ARI 0 0 3 5 3 2 5 13 31 80 149 73 43 35 22 18 SS18 0 0 0 2 1 1 0 0 0 1 1 0 0 0 0 0 SM 0 0 0 2 1 4 5 21 19 19 18 17 11 8 5 4

TABLE 60 Gradient/mass-spectrometry results in WT HEK- 293T cells with Flag-HA-SS18 as a bait Gradient Fraction 7-8 9-10 13-14 16-17 Subunit ACTB 43 32 41 21 ACTL6A 127 102 104 48 ARID1A 90 102 364 138 ARID1B 47 55 200 68 BCL7A 89 73 75 28 BCL7B 2 3 4 0 BCL7C 39 32 31 8 BRD9 17 78 14 9 DPF2 21 20 82 21 GLTSCR1 23 155 29 20 GLTSCR1L 9 20 13 9 SMARCA2 195 201 198 46 SMARCA4 214 160 156 40 SMARCB1 26 27 89 31 SMARCC1 80 232 435 126 SMARCC2 30 42 185 62 SMARCD1 38 92 142 43 SMARCD2 25 38 103 19 SMARCD3 8 15 32 16 SMARCE1 25 20 127 75 SS18 4 2 3 2 ARID2 0 0 5 0 BRD7 0 0 1 0

TABLE 6P Gradient/mass-spectrometry results in WT HEK-293T cells with HA-BCL7A as a bait Gradient Fraction 2-3 5-6 7-8 10-11 13-14 16-17 Subunit ACTL6A 7 18 41 42 52 23 ARID1A 1 3 18 18 200 30 BCL7A 178 43 19 12 4 2 BCL7B 92 40 28 7 20 0 BCL7C 93 10 10 7 1 1 GLTSCR1 15 4 10 53 14 1 BRD7 1 1 1 0 2 4 DPF2 6 5 8 8 37 7 PBRM1 9 11 17 7 17 33 PHF10 8 1 0 0 2 5 SMARCA2 3 8 45 34 59 10 SMARCA4 6 7 37 23 51 20 SMARCB1 2 8 7 8 60 8 SMARCC1 9 16 15 40 58 23 SMARCC2 6 12 14 22 125 24 SMARCD1 4 13 10 29 29 10 SMARCE1 5 13 10 16 64 19 SS18 0 1 3 2 3 1 SS18L1 0 1 1 1 9 0 ARID2 0 2 5 0 18 22 GLTSCR1L 0 1 2 13 11 0 SMARCD2 0 0 4 1 49 4 SMARCD3 0 4 4 13 54 7 BRD9 0 0 0 11 6 0 ARID1B 0 0 11 0 147 12

TABLE 6Q Gradient/mass-spectrometry results in WT HEK- 293T cells with HA-miniARID2 as a bait Gradient Fraction 03-04 07-08 09-10 12-13 15-16 Subunit ACTL6A 24 22 19 39 66 ARID2 92 66 34 44 90 BCL7A 37 7 2 17 25 BCL7B 4 0 0 0 7 BCL7C 7 7 5 6 9 BRD7 12 11 6 20 64 PBRM1 18 35 16 23 236 PHF10 26 5 4 15 22 SMARCA2 1 21 9 61 18 SMARCA4 2 19 12 49 13 SMARCB1 10 12 9 33 69 SMARCC1 9 27 18 43 28 SMARCC2 11 45 31 96 38 SMARCD1 12 21 16 28 49 SMARCD2 4 17 15 24 51 SMARCE1 15 19 23 58 71 DPF2 1 0 0 0 0 SS18 0 4 2 4 0 SS18L1 0 0 0 1 0 SMARCD3 0 10 4 16 30

TABLE 6R Gradient/mass-spectrometry results in WT HEK-293T cells with HA-PBRM1 as a bait Gradient Fraction 2-3 5-6 7-8 9-10 13-14 16-17 Subunit ACTB 88 60 28 24 15 16 ACTL6A 5 8 5 11 16 40 ARID2 1 12 9 15 36 112 BCL7A 7 3 1 3 4 0 BCL7C 4 2 0 1 1 2 BRD7 2 4 2 5 9 59 PBRM1 78 219 85 90 99 302 PHF10 3 1 0 0 7 20 SMARCB1 2 6 4 5 10 44 SMARCC1 2 12 7 16 39 127 SMARCE1 3 5 5 6 15 73 BCL7B 1 0 0 0 0 0 SMARCA2 0 4 4 4 9 56 SMARCA4 0 5 4 5 9 41 SMARCD2 0 3 1 4 11 31 SMARCD3 0 1 0 2 4 13 SMARCC2 0 9 5 8 20 83 SMARCD1 0 5 3 8 16 43 ARID1A 0 0 0 1 0 0 DPF2 0 0 0 1 1 0

TABLE 6S Gradient/mass-spectrometry results in WT HEK-293T cells with HA-GLTSCR1L as a bait Gradient Fraction 7-8 10-11 14-15 Subunit ACTB 47 126 44 ACTL6A 49 167 95 BCL7A 17 96 55 BCL7C 9 42 15 BRD9 31 279 94 GLTSCR1L 497 436 249 SMARCA2 30 157 29 SMARCA4 18 102 19 SMARCB1 1 2 9 SMARCC1 361 474 155 SMARCC2 6 9 4 SMARCD1 335 442 183 SMARCD3 2 2 2 SS18 4 5 6 SS18L1 1 3 1 BCL7B 0 3 0 SMARCE1 0 2 6 ARID1B 0 0 5 DPF2 0 0 6 SMARCD2 0 0 6 ARID1A 0 0 10

TABLE 6T Gradient/mass-spectrometry results in WT HEK-293T cells with HA-BRD9 as a bait Gradient Fraction 5-6 7-8 10-11 14-15 Subunit ACTB 13 7 4 7 ACTL6A 20 22 26 5 BCL7A 2 0 7 0 BRD9 172 18 16 5 GLTSCR1 27 20 56 10 GLTSCR1L 6 5 9 0 SMARCA4 6 5 15 1 SMARCC1 14 14 36 4 SMARCD1 20 8 20 3 SS18 2 0 0 0 SMARCA2 0 2 21 1 BCL7C 0 0 6 0

Example 3: Cross-linking Mass-Spectrometry of Canonical BAF Complexes Globally Defines Modular Architecture

Next performed was bis(sulfosuccinimidyl)suberate (BS3)-based cross-linking mass-spectrometry (CX-MS) using DPF2 and SS18 as baits to identify BAF subunit architecture and linkages. It was generated herein high-density subunit crosslinking maps containing 1,560 inter-protein crosslinks and 2,373 non-redundant intra protein crosslinks with coverage across all BAF complex subunits with the exception of SS18 (owing to limited lysine residues) (FIGS. 3A and 4A, Tables 7A-7D, and Star Methods). To comprehensively define regions of crosslinking between BAF complex subunits, each subunit family (collapsed, i.e., SMARCD=SMARCD1/2/3) was divided into regions based on existing domain annotation, conservation, and newly-defined domains stemming from this CX-MS work (FIGS. 2A and 4B). Median distance between crosslinked residues within domains of known structure was 10.2 Å, close to the expected 11.4-30 Å distance for the BS3 crosslinking agent (FIG. 4C and Table 8). In addition, C-alpha distances between crosslinked residues mapped on to the Snf2 helicase structure were within expected distances for the nucleosome-bound and free conformations (Liu et al. (2017) Nature 544: 440-445; Xia et al. (2016) Nat Struct Mol Biol 23:722-729) (FIG. 4D).

TABLE 7A DPF2 Inter Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 dot1 protein1″ subunit1 realpep1 position1 immonium2 ion2 dot2 connective2 peptide2 protein2 Unique protein2″ subunit2 realpep2 position2 CN Comments 1 SMARCA2- SMARCD3 1 SMARCA2:413- 9.1975 SMARCD3:102 0 1.006129573 JL021317_021517_BAF45D_5D_(—) P 9.1975 0.34798812 9.26E−05 //17 21//118 8.4405 Fusion_MS2.08137.08137.5 2 SMARCA2:431- 1.08525 SMARCD3:1 −2 1.571708934 JL021317_021517_BAF45D_70B_(—) P 1.08525 0.036861233 2.70E−02 //12 7//54 0.561 Fusion_MS2.08574.08574.4 2 SMARCA2- SMARCD2 1 SMARCA2:521- 4.34775 SMARCD2:402 −1 17.42046853 JL021317_021517_BAF45D_85B_(—) N 4.34775 0.126647635 1//16 14//105 1.6665 Fusion_MS2.11325.11325.4 3 SMARCA2- SMARCB1 1 SMARCA2:447- 7.123 SMARCB1:124 0 −3.274753269 JL021317_021517_BAF45D_D_(—) P 7.123 0.27271335 6.39E−02 //14 20//117 6.66 Fusion_MS2.07360.07360.6 2 SMARCA2:447- 17.543 SMARCB1:45 0 2.011132578 JL021317_021517_BAF45D_85B_(—) N 17.543 0.511800916 //14 35//93 16.445 Fusion_MS2.11055.11055.4 −1 5.076300393 JL021317_021517_BAF45D_85B_(—) N 16.549 0.495071423 //14 32//93 15.497 Fusion_MS2.11047.11047.4 −1 −1.300085308 JL021317_021517_BAF45D_D_(—) P 16.047 0.5684479 3.77E−03 //15 35//127 15.72 Fusion_MS2.08821.08821.5 0 0.525097528 JL021317_021517_BAF45D_85B_(—) N 13.1915 0.354029683 //14 38//152 11.3965 Fusion_MS2.15098.15098.5 −2 5.414016493 JL021317_021517_hBAF45D_(—) N 11.86725 0.385675983 1//14 29//93 10.8345 Fusion_MS2.11546.11546.4 −2 1.636858656 JL021317_021517_BAF45D_5D_(—) N 10.212 0.296455424 //14 24//152 8.9345 Fusion_MS2.13773.13773.5 −1 2.986331233 JL021317_021517_BAF45D_5D_(—) N 8.32625 0.299381551 //14 21//118 6.97525 Fusion_MS2.11043.11043.5 0 1.319600335 JL021317_021517_BAF45D_5D_(—) N 7.7275 0.285368736 //14 21//118 6.38225 Fusion_MS2.11076.11076.5 −2 7.580275254 JL021317_021517_BAF45D_5D_(—) N 6.11975 0.169456443 //14 20//152 4.638 Fusion_MS2.13185.13185.5 4 SMARCA2- SMARCC1 1 SMARCA2:1434- 6.3805 SMARCC1:199 −2 3.077220158 JL021317_021517_BAF45D_85B_(—) NP 6.3805 0.216887333 1.14E−06 1//12 17//67 5.013 Fusion_MS2.12227.12227.4 2 SMARCA2:1434- 9.69875 SMARCC1:317 0 −1.075609515 JL021317_021517_BAF45D_70B_(—) NP 9.69875 0.431477445 8.55E−07 1//12 21//69 7.7785 Fusion_MS2.11007.11007.4 3 SMARCA2:1445- 1.06775 SMARCC1:317 0 −2.186962391 JL021317_021517_BAF45D_100B_(—) P 1.06775 0.051740848 2.70E−04 //11 5//47 0.2765 Fusion_MS2.05225.05225.4 4 SMARCA2:500- 6.0865 SMARCC1:199 0 −1.268495592 JL021317_021517_BAF45D_100B_(—) NP 6.0865 0.244624412 3.84E−04 1//13 20//64 4.6475 Fusion_MS2.05131.05131.4 5 SMARCA2:1460- 8.85075 SMARCC1:292 −1 10.22615193 JL021317_021517_BAF45D_100B_(—) P 8.85075 0.284402564 9.91E−02 //10 23//244 8.63775 Fusion_MS2.18271.18271.5 0 0.759640784 JL021317_021517_BAF45D_D_(—) P 2.3825 0.122126253 1.44E−03 //9 7//56 1.6655 Fusion_MS2.07461.07461.5 6 SMARCA2:1460- 4.8915 SMARCC1:317 0 −1.51187907 JL021317_021517_BAF45D_D_(—) P 4.8915 0.253301227 7.58E−08 1//9 6//37 0.5855 Fusion_MS2.02197.02197.4 0 3.24282849 JL021317_021517_BAF45D_D_(—) P 4.554 0.25963512 4.53E−06 //11 11//56 3.746 Fusion_MS2.02366.02366.5 7 SMARCA2:1460- 3.16325 SMARCC1:740 0 3.83588675 JL021317_021517_BAF45D_10D_(—) P 3.16325 0.187157945 2.99E−07 //8 8//36 2.392 Fusion_MS2.02628.02628.4 8 SMARCA2:521- 3.476 SMARCC1:317 0 −0.804863616 JL021317_021517_BAF45D_100B_(—) P 3.476 0.165598723 1.02E−02 //11 7//47 0.781 Fusion_MS2.04021.04021.4 9 SMARCA2:1003- 14.12575 SMARCC1:590 −1 18.72136803 JL021317_021517_BAF45D_50B_(—) N 14.12575 0.323432438 //11 26//115 11.6835 Fusion_MS2.19409.19409.4 0 15.67241389 JL021317_021517_BAF45D_50B_(—) N 10.6505 0.25622489 //11 26//115 9.24125 Fusion_MS2.19576.19576.4 10  SMARCA2:1286- 3.7175 SMARCC1:592 0 8.583155409 JL021317_021517_BAF45D_50B_(—) P 3.7175 0.092288023 2.19E−03 //11 14//114 2.30725 Fusion_MS2.19378.19378.4 11  SMARCA2:375- 4.28475 SMARCC1:740 0 7.563239108 JL021317_021517_BAF45D_70B_(—) NP 4.28475 0.145504712 2.98E−08 1//8 7//39 1.68025 Fusion_MS2.05490.05490.4 12  SMARCA2:375- 5.21375 SMARCC1:608 −1 −2.483035214 JL021317_021517_BAF45D_70B_(—) NP 5.21375 0.194093887 9.11E−04 //8 8//40 1.80775 Fusion_MS2.07649.07649.4 5 SMARCA2- SMARCD1 1 SMARCA2:413- 9.0155 SMARCD1:127 0 −1.861533266 JL021317_021517_BAF45D_85B_(—) P 9.0155 0.252104248 5.82E−03 //17 22//93 8.171 Fusion_MS2.09458.09458.4 6 SMARCA2- SMARCC2 1 SMARCA2:1051- 4.574 SMARCC2:704 0 13.11359278 JL021317_021517_BAF45D_85B_(—) N 4.574 0.168583223 //15 9//115 1.58575 Fusion_MS2.09764.09764.5 2 SMARCA2:447- 7.281 SMARCC2:314 0 6.176780485 JL021317_021517_BAF45D_D_(—) P 7.281 0.35670194 3.03E−01 //14 20//116 7.052 Fusion_MS2.07634.07634.6 3 SMARCA2:1354- 8.603 SMARCC2:592 −1 3.25163446 JL021317_021517_BAF45D_70B_(—) N 8.603 0.328747755 //16 22//81 6.5325 Fusion_MS2.08613.08613.4 0 6.241562551 JL021317_021517_BAF45D_70B_(—) N 4.891 0.145917241 //16 15//81 3.636 Fusion_MS2.07616.07616.4 4 SMARCA2:1354- 8.314 SMARCC2:590 0 11.26264494 JL021317_021517_BAF45D_70B_(—) N 8.314 0.235021413 //16 21//82 6.662 Fusion_MS2.08565.08565.4 0 5.459551729 JL021317_021517_hBAF45D_(—) N 6.97375 0.215671873 //16 16//82 5.4815 Fusion_MS2.09268.09268.4 7 SMARCC2- SMARCD3 1 SMARCC2:940- 11.321 SMARCD3:309 −4 4.184917918 JL021317_021517_BAF45D_5D_(—) P 11.321 0.317974356 1.80E−04 //6 26//189 8.546 Fusion_MS2.14645.14645.6 −2 7.668283846 JL021317_021517_BAF45D_100B_(—) N 10.4585 0.299040702 //6 25//137 7.8265 Fusion_MS2.16031.16031.6 −3 1.029830545 JL021317_021517_BAF45D_5D_(—) N 6.74825 0.220408597 //6 18//137 5.224 Fusion_MS2.14689.14689.7 8 SMARCC2- SMARCD2 1 SMARCC2:617- 11.04175 SMARCD2:514 −3 2.492979206 JL021317_021517_BAF45D_D_(—) N 11.04175 0.2786667 //2 32//179 8.99375 Fusion_MS2.20345.20345.7 −1 1.1673568 JL021317_021517_BAF45D_D_(—) N 9.21375 0.222947468 //2 22//179 7.574 Fusion_MS2.20092.20092.7 −2 0.583009817 JL021317_021517_BAF45D_D_(—) N 8.103 0.211323806 //2 22//179 6.1975 Fusion_MS2.20073.20073.7 −1 11.11930757 JL021317_021517_BAF45D_D_(—) N 6.89775 0.156195512 //2 23//179 4.44425 Fusion_MS2.20324.20324.6 −3 0.217881035 JL021317_021517_BAF45D_D_(—) N 6.3415 0.158406814 //2 26//179 5.204 Fusion_MS2.20061.20061.6 −2 2.222896324 JL021317_021517_BAF45D_D_(—) N 6.07775 0.166079163 //2 23//179 5.03375 Fusion_MS2.20121.20121.6 2 SMARCC2:101- 4.81575 SMARCD2:193 0 12.42128507 JL021317_021517_hBAF45D_(—) N 4.81575 0.153956202 //15 10//115 3.5145 Fusion_MS2.12407.12407.5 3 SMARCC2:874- 4.822 SMARCD2:514 −1 1.876183447 JL021317_021517_BAF45D_10D_(—) NP 4.822 0.262578959 3.86E−06 //11 8//59 1.63325 Fusion_MS2.07811.07811.5 4 SMARCC2:902- 7.7185 SMARCD2:143 0 −0.236793199 JL021317_021517_BAF45D_100B_(—) NP 7.7185 0.257837684 1.02E−09 //11 15//49 5.3905 Fusion_MS2.09965.09965.4 0 −0.586691953 JL021317_021517_BAF45D_100B_(—) NP 7.54125 0.276064356 7.26E−06 1//12 20//58 4.64125 Fusion_MS2.10182.10182.4 −1 3.442258781 JL021317_021517_BAF45D_100B_(—) N 7.254 0.259080681 //12 17//58 6.2675 Fusion_MS2.09315.09315.4 −1 −1.758379316 JL021317_021517_BAF45D_10D_(—) NP 7.13525 0.241676263 1.01E−07 //12 16//57 4.52625 Fusion_MS2.09313.09313.4 0 −2.198008077 JL021317_021517_BAF45D_10D_(—) NP 6.759 0.254236332 1.28E−13 //12 17//57 4.2045 Fusion_MS2.09334.09334.4 0 −2.3681417 JL021317_021517_hBAF45D_(—) NP 4.6115 0.194299317 8.97E−04 //11 10//49 2.3065 Fusion_MS2.11473.11473.4 5 SMARCC2:704- 8.1495 SMARCD2:514 −1 1.290844426 JL021317_021517_BAF45D_100B_(—) NP 8.1495 0.282023775 4.51E−06 //15 18//115 7.01875 Fusion_MS2.11040.11040.5 9 SMARCC2- SMARCE1 1 SMARCC2:897- 20.87225 SMARCE1:240 −2 4.547464825 JL021317_021517_BAF45D_D_(—) NP 20.87225 0.619906445 4.93E−15 //13 20//71 8.317 Fusion_MS2.17726.17726.4 −1 4.627074383 JL021317_021517_BAF45D_D_(—) NP 19.335 0.64883639 2.87E−13 //13 16//71 8.0315 Fusion_MS2.17710.17710.4 −2 4.220767782 JL021317_021517_BAF45D_D_(—) N 17.224 0.547323599 2//15 28//72 9.66575 Fusion_MS2.16977.16977.4 0 3.348364293 JL021317_021517_BAF45D_5D_(—) N 16.45125 0.507574472 2//15 24//72 8.99025 Fusion_MS2.17022.17022.4 0 1.124253802 JL021317_021517_BAF45D_5D_(—) NP 12.398 0.404284806 7.06E−11 //13 12//71 6.32975 Fusion_MS2.17816.17816.4 0 4.333703854 JL021317_021517_BAF45D_10D_(—) N 12.057 0.345097029 2//15 20//72 6.4565 Fusion_MS2.17060.17060.4 −2 11.02732263 JL021317_021517_BAF45D_5D_(—) N 9.304 0.278379511 1//15 17//72 3.87425 Fusion_MS2.17040.17040.4 −1 2.716444975 JL021317_021517_hBAF45D_(—) NP 8.878 0.294485447 1.12E−06 //13 12//71 3.97 Fusion_MS2.19066.19066.4 2 SMARCC2:898- 15.57875 SMARCE1:240 0 −0.201784401 JL021317_021517_BAF45D_70B_(—) NP 15.57875 0.534296493 6.19E−07 5//13 32//75 13.64025 Fusion_MS2.12904.12904.4 0 −0.201784401 JL021317_021517_BAF45D_85B_(—) NP 14.29725 0.501517118 2.63E−08 4//13 31//75 12.48325 Fusion_MS2.13152.13152.4 0 −1.511265874 JL021317_021517_BAF45D_10D_(—) NP 12.95675 0.515671018 4.59E−07 3//13 27//75 11.22575 Fusion_MS2.12970.12970.4 −1 2.744548911 JL021317_021517_hBAF45D_(—) NP 12.53975 0.517113755 7.91E−08 2//13 23//75 11.01225 Fusion_MS2.13690.13690.4 0 2.360428865 JL021317_021517_BAF45D_100B_(—) NP 12.16975 0.443431289 2.69E−06 //15 25//133 10.55525 Fusion_MS2.11198.11198.5 0 2.876343849 JL021317_021517_BAF45D_5D_(—) N 11.60725 0.425954128 2//13 23//75 9.7545 Fusion_MS2.13019.13019.4 0 −0.092660946 JL021317_021517_BAF45D_70B_(—) NP 8.49475 0.286095581 4.04E−07 1//13 21//75 7.16025 Fusion_MS2.13352.13352.4 0 11.93345677 JL021317_021517_BAF45D_70B_(—) N 8.234 0.270463802 5//13 22//75 6.5425 Fusion_MS2.12846.12846.4 0 −1.838636243 JL021317_021517_hBAF45D_(—) NP 7.776 0.257944669 1.68E−04 //13 16//75 6.607 Fusion_MS2.14050.14050.4 0 11.27873122 JL021317_021517_BAF45D_100B_(—) N 7.51975 0.273008641 5//13 20//75 5.84725 Fusion_MS2.13233.13233.4 3 SMARCC2:883- 14.325 SMARCE1:228 −1 4.210452406 JL021317_021517_BAF45D_85B_(—) N 14.325 0.415602878 //15 31//98 13.40475 Fusion_MS2.17502.17502.4 0 1.666441299 JL021317_021517_BAF45D_D_(—) N 13.62725 0.388633803 //15 30//98 12.475 Fusion_MS2.18479.18479.4 −2 1.209193112 JL021317_021517_BAF45D_10D_(—) N 13.456 0.476605391 //15 30//98 12.313 Fusion_MS2.18793.18793.4 −2 1.299568526 JL021317_021517_BAF45D_5D_(—) N 13.31175 0.507549328 //15 30//98 12.33225 Fusion_MS2.18249.18249.4 −1 1.755559476 JL021317_021517_BAF45D_D_(—) N 12.18175 0.381341076 //15 27//98 11.1985 Fusion_MS2.17319.17319.4 0 0.696102498 JL021317_021517_BAF45D_10D_(—) N 11.23925 0.400379388 //15 27//98 10.25875 Fusion_MS2.18797.18797.4 4 SMARCC2:874- 6.39925 SMARCE1:228 0 1.265739539 JL021317_021517_BAF45D_100B_(—) NP 6.39925 0.297197195 1.01E−03 1//10 13//53 4.044 Fusion_MS2.07937.07937.4 −1 1.334222802 JL021317_021517_BAF45D_100B_(—) NP 5.441 0.219567805 6.73E−02 //10 15//63 4.5125 Fusion_MS2.07955.07955.5 5 SMARCC2:846- 4.6505 SMARCE1:228 0 −0.010083337 JL021317_021517_BAF45D_100B_(—) NP 4.6505 0.223845395 1.09E−03 4//8 13//28 3.64725 Fusion_MS2.04972.04972.4 6 SMARCC2:872- 22.2705 SMARCE1:228 −2 0.221271422 JL021317_021517_BAF45D_50B_(—) P 22.2705 0.650119687 3.59E−04 //18 42//147 21.684 Fusion_MS2.16760.16760.4 0 1.281102898 JL021317_021517_BAF45D_50B_(—) P 19.506 0.572199651 2.81E−05 //18 38//147 19.06325 Fusion_MS2.16917.16917.4 0 −1.083136549 JL021317_021517_hBAF45D_(—) P 19.025 0.597622077 3.60E−04 //18 37//147 18.6285 Fusion_MS2.18044.18044.4 0 4.297546329 JL021317_021517_BAF45D_10D_(—) P 18.86925 0.58701333 6.67E−05 //18 36//147 18.37575 Fusion_MS2.17014.17014.4 −1 2.422459872 JL021317_021517_BAF45D_85B_(—) P 17.8785 0.505092311 3.12E−05 //18 36//147 17.42075 Fusion_MS2.17176.17176.4 0 −0.757034556 JL021317_021517_BAF45D_100B_(—) P 15.15175 0.510899619 3.30E−05 //18 33//147 14.66225 Fusion_MS2.17161.17161.4 −1 2.259408875 JL021317_021517_BAF45D_10D_(—) P 14.82125 0.459096752 3.55E−04 //18 33//147 14.31175 Fusion_MS2.17040.17040.4 −2 −3.284324999 JL021317_021517_BAF45D_50B_(—) P 13.26575 0.377103587 7.47E−03 //18 23//147 12.719 Fusion_MS2.18336.18336.4 0 5.903239252 JL021317_021517_BAF45D_50B_(—) P 12.77725 0.404426543 1.78E−04 //18 32//191 12.321 Fusion_MS2.16773.16773.5 0 −1.535962456 JL021317_021517_BAF45D_70B_(—) P 10.73075 0.401795409 5.02E−05 //18 27//191 10.23975 Fusion_MS2.17382.17382.5 7 SMARCC2:902- 6.9995 SMARCE1:255 0 −1.681097824 JL021317_021517_BAF45D_D_(—) NP 6.9995 0.226480723 4.20E−05 3//9 16//36 5.9835 Fusion_MS2.05320.05320.4 0 2.11313693 JL021317_021517_BAF45D_D_(—) NP 6.2235 0.241239631 5.58E−08 2//9 16//36 4.14725 Fusion_MS2.04572.04572.4 0 0.267138518 JL021317_021517_BAF45D_D_(—) N 4.39775 0.207759537 1//8 9//31 1.56325 Fusion_MS2.07836.07836.4 0 0.958720052 JL021317_021517_BAF45D_D_(—) N 3.646 0.16898014 2//8 7//30 1.11825 Fusion_MS2.05278.05278.4 0 1.066056833 JL021317_021517_BAF45D_100B_(—) N 3.61775 0.141958838 2//8 9//31 1.25125 Fusion_MS2.08836.08836.4 8 SMARCC2:902- 11.05 SMARCE1:240 0 1.837851125 JL021317_021517_BAF45D_85B_(—) N 11.05 0.378534847 //13 20//75 10.0295 Fusion_MS2.15751.15751.4 9 SMARCC2:36- 8.42725 SMARCE1:98 −2 10.48864431 JL021317_021517_BAF45D_85B_(—) N 8.42725 0.207314973 //10 10//113 1.908 Fusion_MS2.17025.17025.4 10 SMARCC2- SMARCD1 1 SMARCC2:718- 16.6855 SMARCD1:101 −1 −0.411328517 JL021317_021517_BAF45D_85B_(—) P 16.6855 0.549027673 1.03E−02 //16 33//124 16.5105 Fusion_MS2.06495.06495.4 2 SMARCC2:897- 13.9555 SMARCD1:156 0 0.390831765 JL021317_021517_BAF45D_85B_(—) NP 13.9555 0.477748109 1.64E−08 3//15 31//74 11.0125 Fusion_MS2.16080.16080.4 0 −3.552273871 JL021317_021517_BAF45D_70B_(—) NP 11.64175 0.446583041 1.52E−06 //15 24//74 9.03575 Fusion_MS2.16064.16064.4 3 SMARCC2:897- 6.601 SMARCD1:101 −2 3.09682318 JL021317_021517_BAF45D_85B_(—) P 6.601 0.132674083 2.80E−05 //16 7//120 1.20975 Fusion_MS2.13578.13578.4 4 SMARCC2:940- 7.8975 SMARCD1:327 −1 7.074819363 JL021317_021517_BAF45D_5D_(—) N 7.8975 0.337608208 //15 11//75 4.705 Fusion_MS2.10765.10765.6 −1 3.231154956 JL021317_021517_BAF45D_5D_(—) N 7.8875 0.360126929 //15 13//75 4.77975 Fusion_MS2.10751.10751.6 −3 4.875744063 JL021317_021517_BAF45D_5D_(—) N 7.33375 0.190346107 //15 12//98 3.87375 Fusion_MS2.10759.10759.5 0 12.69233855 JL021317_021517_BAF45D_D_(—) N 7.145 0.252330838 //16 19//105 3.58975 Fusion_MS2.09370.09370.5 0 8.937146836 JL021317_021517_BAF45D_5D_(—) N 5.4605 0.153391295 //15 15//75 2.169 Fusion_MS2.10772.10772.4 0 4.921515544 JL021317_021517_BAF45D_5D_(—) N 5.446 0.141548298 //15 13//75 2.267 Fusion_MS2.10778.10778.4 5 SMARCC2:940- 8.3025 SMARCD1:341 −2 10.34735464 JL021317_021517_BAF45D_5D_(—) N 8.3025 0.23349176 1//12 18//95 6.1555 Fusion_MS2.18140.18140.4 6 SMARCC2:902- 5.34075 SMARCD1:131 0 −0.822089518 JL021317_021517_BAF45D_70B_(—) NP 5.34075 0.20490907 1.88E−03 1//11 12//49 3.3685 Fusion_MS2.11276.11276.4 11 SMARCD1- SMARCE1 1 SMARCD1:223- 13.8185 SMARCE1:255 0 −0.352316811 JL021317_021517_BAF45D_85B_(—) P 13.8185 0.47549163 3.13E−04 //16 26//85 13.36325 Fusion_MS2.08471.08471.4 0 −2.215016362 JL021317_021517_hBAF45D_(—) P 12.1735 0.45041995 4.94E−05 //16 25//85 11.8665 Fusion_MS2.08616.08616.4 2 SMARCD1:223- 22.56 SMARCE1:258 −1 −0.178167692 JL021317_021517_BAF45D_70B_(—) NP 22.56 0.578239139 1.06E−10 1//15 25//93 11.88925 Fusion_MS2.12949.12949.4 0 −3.374428711 JL021317_021517_BAF45D_70B_(—) NP 21.1795 0.551111747 3.79E−07 //15 26//121 12.33225 Fusion_MS2.12923.12923.5 −1 −2.749812085 JL021317_021517_BAF45D_70B_(—) NP 18.71075 0.466584791 1.22E−04 //15 24//121 11.85025 Fusion_MS2.12897.12897.5 −1 −2.537830504 JL021317_021517_BAF45D_70B_(—) NP 18.4705 0.485184796 2.02E−13 1//15 23//93 9.381 Fusion_MS2.12912.12912.4 0 −2.052017572 JL021317_021517_BAF45D_70B_(—) NP 17.86325 0.489129393 5.53E−12 1//15 22//93 8.99875 Fusion_MS2.12925.12925.4 −1 1.501051067 JL021317_021517_hBAF45D_(—) NP 15.701 0.488306276 1.60E−12 //15 19//121 8.80475 Fusion_MS2.13553.13553.5 −2 −0.733382471 JL021317_021517_hBAF45D_(—) NP 11.35 0.393564271 1.90E−11 //15 15//93 4.9055 Fusion_MS2.13564.13564.4 −1 1.674555686 JL021317_021517_BAF45D_85B_(—) P 4.49125 0.130761056 4.83E−01 1//15 12//121 2.083 Fusion_MS2.13114.13114.5 −2 0.3038692 JL021317_021517_BAF45D_70B_(—) P 4.14875 0.106834305 7.76E−04 //15 10//121 1.209 Fusion_MS2.13092.13092.5 3 SMARCD1:101- 16.86975 SMARCE1:166 −1 5.996257326 JL021317_021517_BAF45D_70B_(—) NP 16.86975 0.401264227 3.28E−19 //14 30//212 9.67375 Fusion_MS2.12091.12091.5 −2 −3.584985407 JL021317_021517_BAF45D_70B_(—) NP 15.915 0.410439582 4.21E−13 //14 30//212 9.30175 Fusion_MS2.12079.12079.5 −3 3.975568694 JL021317_021517_BAF45D_70B_(—) NP 15.4955 0.372703002 3.37E−10 //14 27//212 7.8895 Fusion_MS2.12029.12029.5 −4 0.515623392 JL021317_021517_BAF45D_70B_(—) P 14.2475 0.358946904 1.73E−17 //14 28//154 8.6215 Fusion_MS2.12050.12050.4 −1 −4.025249947 JL021317_021517_BAF45D_70B_(—) NP 13.879 0.374455341 1.84E−15 //14 29//154 9.4415 Fusion_MS2.12037.12037.4 −1 6.900584797 JL021317_021517_BAF45D_70B_(—) N 7.69775 0.188656471 //14 15//214 3.50375 Fusion_MS2.11098.11098.5 4 SMARCD1:101- 28.3 SMARCE1:240 −3 12.71261818 JL021317_021517_BAF45D_85B_(—) NP 28.3 0.78471606 1.77E−25 1//16 42//120 15.7545 Fusion_MS2.11424.11424.4 −1 −7.631921737 JL021317_021517_BAF45D_85B_(—) NP 23.659 0.640055189 1.38E−23 1//16 42//120 13.572 Fusion_MS2.11408.11408.4 −2 −3.385553592 JL021317_021517_BAF45D_85B_(—) NP 22.5065 0.60840711 3.76E−20 1//16 42//120 13.4835 Fusion_MS2.11404.11404.4 0 7.005093242 JL021317_021517_BAF45D_85B_(—) NP 19.92825 0.602307588 1.91E−21 2//16 39//159 12.98375 Fusion_MS2.11411.11411.5 −2 5.487454471 JL021317_021517_BAF45D_70B_(—) NP 17.53825 0.453906078 3.10E−15 2//16 33//120 10.12275 Fusion_MS2.11020.11020.4 −4 3.712852858 JL021317_021517_BAF45D_5D_(—) P 6.03725 0.174026779 2.81E−09 //16 12//120 3.38125 Fusion_MS2.11327.11327.4 −3 −2.941903189 JL021317_021517_BAF45D_10D_(—) NP 5.811 0.231712423 5.82E−12 //16 11//120 2.24475 Fusion_MS2.11232.11232.4 5 SMARCD1:101- 11.6035 SMARCE1:146 −1 2.246927608 JL021317_021517_BAF45D_100B_(—) NP 11.6035 0.270765031 1.86E−06 //16 20//156 10.01875 Fusion_MS2.10727.10727.5 12 SMARCD1- SS18 1 SMARCD1:101- 9.22325 SS18:13 −1 10.12530028 JL021317_021517_BAF45D_70B_(—) N 9.22325 0.259872082 //16 31//122 6.3215 Fusion_MS2.08208.08208.4 −1 15.69418619 JL021317_021517_BAF45D_70B_(—) N 8.85525 0.227928496 1//16 27//122 6.08475 Fusion_MS2.08228.08228.4 13 ARID1A- SMARCE1 1 ARID1A:1934- 8.2675 SMARCE1:271 0 10.62172995 JL021317_021517_BAF45D_70B_(—) N 8.2675 0.253954846 //16 15//84 5.1785 Fusion_MS2.10031.10031.4 0 −0.198959778 JL021317_021517_BAF45D_70B_(—) NP 8.13625 0.248837814 2.74E−08 //16 16//84 6.0395 Fusion_MS2.10067.10067.4 0 8.536444457 JL021317_021517_BAF45D_10D_(—) P 7.58725 0.249465707 2.09E−01 //12 16//171 4.31925 Fusion_MS2.12154.12154.6 −3 14.20697149 JL021317_021517_BAF45D_85B_(—) P 6.88975 0.177075703 1.31E−02 //12 12//127 2.09325 Fusion_MS2.13119.13119.4 −1 −0.752121297 JL021317_021517_BAF45D_85B_(—) NP 6.53575 0.169836939 2.43E−07 //16 14//92 2.6625 Fusion_MS2.09518.09518.4 0 −2.202691764 JL021317_021517_BAF45D_85B_(—) NP 6.1065 0.16264266 5.94E−10 //16 13//92 2.146 Fusion_MS2.09501.09501.4 2 ARID1A:1654- 2.546 SMARCE1:146 −1 −0.693659397 JL021317_021517_BAF45D_70B_(—) P 2.546 0.060447779 6.48E−02 //15 9//148 1.3565 Fusion_MS2.14124.14124.5 3 ARID1A:1905- 13.9985 SMARCE1:228 0 −3.64039451 JL021317_021517_BAF45D_100B_(—) P 13.9985 0.489783423 9.52E−06 //17 39//230 13.46125 Fusion_MS2.07212.07212.5 −1 0.452594424 JL021317_021517_BAF45D_100B_(—) P 11.8435 0.420504172 4.70E−03 //17 35//230 11.5405 Fusion_MS2.07236.07236.6 4 ARID1A:1662- 7.07125 SMARCE1:166 −2 −4.460747796 JL021317_021517_hBAF45D_(—) P 7.07125 0.210156772 5.01E−13 //14 24//154 5.91575 Fusion_MS2.16731.16731.4 −1 4.676677318 JL021317_021517_hBAF45D_(—) P 5.752 0.164199769 1.07E−06 //14 20//154 4.1085 Fusion_MS2.16711.16711.4 5 ARID1A:1662- 18.90375 SMARCE1:146 −1 5.029594998 JL021317_021517_BAF45D_85B_(—) NP 18.90375 0.454537257 7.14E−07 4//17 36//99 13.8965 Fusion_MS2.14604.14604.4 −2 9.650364138 JL021317_021517_BAF45D_85B_(—) NP 18.6115 0.456595071 1.23E−06 3//17 33//99 13.38825 Fusion_MS2.14590.14590.4 −2 10.19398404 JL021317_021517_hBAF45D_(—) NP 15.16575 0.438 5.75E−12 //17 26//99 11.547 Fusion_MS2.15240.15240.4 0 0.638932928 JL021317_021517_BAF45D_5D_(—) NP 14.163 0.497908244 6.41E−14 //17 28//130 12.8085 Fusion_MS2.13763.13763.5 −3 0.218259336 JL021317_021517_BAF45D_85B_(—) NP 13.77975 0.349921914 6.82E−03 5//17 32//130 10.03775 Fusion_MS2.14583.14583.5 −1 −0.13479404 JL021317_021517_hBAF45D_(—) NP 13.617 0.391489973 2.01E−08 1//17 27//99 10.11425 Fusion_MS2.15260.15260.4 0 6.255792785 JL021317_021517_BAF45D_10D_(—) NP 12.39775 0.444467349 6.50E−03 //17 24//130 11.3915 Fusion_MS2.13743.13743.5 −1 −0.732193576 JL021317_021517_BAF45D_5D_(—) NP 12.08825 0.403823348 2.89E−16 //17 22//130 8.7705 Fusion_MS2.13772.13772.6 −1 1.551477614 JL021317_021517_BAF45D_5D_(—) N 11.79475 0.452209336 //17 23//99 8.866 Fusion_MS2.12621.12621.6 −2 1.214326875 JL021317_021517_BAF45D_5D_(—) N 11.587 0.46415767 //17 22//99 8.507 Fusion_MS2.12633.12633.6 0 1.045951758 JL021317_021517_BAF45D_5D_(—) P 11.3195 0.43612861 3.33E−03 //17 27//130 10.95525 Fusion_MS2.13609.13609.5 −2 0.782158962 JL021317_021517_BAF45D_5D_(—) N 11.2315 0.388445044 //17 24//130 10.26075 Fusion_MS2.12608.12608.5 −1 11.61102963 JL021317_021517_BAF45D_85B_(—) N 10.80375 0.266542077 1//17 25//99 7.184 Fusion_MS2.13301.13301.4 −3 13.00974164 JL021317_021517_BAF45D_5D_(—) N 10.54075 0.371368929 //17 17//99 6.96525 Fusion_MS2.13481.13481.6 −1 0.224780949 JL021317_021517_BAF45D_85B_(—) N 9.3135 0.252569492 //17 25//99 5.74825 Fusion_MS2.13333.13333.4 −3 0.309774629 JL021317_021517_BAF45D_5D_(—) NP 9.26675 0.348131938 3.10E−10 //17 16//130 6.038 Fusion_MS2.13500.13500.6 −4 12.02870119 JL021317_021517_hBAF45D_(—) P 9.20975 0.218616106 6.34E−06 //17 18//99 5.6555 Fusion_MS2.15279.15279.4 −2 −0.549562056 JL021317_021517_BAF45D_10D_(—) NP 8.759 0.355709877 8.47E−06 //17 19//130 7.815 Fusion_MS2.13717.13717.5 0 2.143084683 JL021317_021517_BAF45D_5D_(—) N 7.4205 0.325282192 //17 21//99 6.392 Fusion_MS2.13770.13770.4 −1 1.387847575 JL021317_021517_BAF45D_5D_(—) P 6.48775 0.242941397 3.44E−03 //17 16//130 5.75 Fusion_MS2.13497.13497.5 −2 −3.790937417 JL021317_021517_BAF45D_85B_(—) NP 6.173 0.204163979 4.76E−03 2//17 18//130 3.025 Fusion_MS2.15242.15242.5 −4 2.332131262 JL021317_021517_hBAF45D_(—) P 6.0305 0.217884563 1.46E−05 1//17 18//130 5.3605 Fusion_MS2.14515.14515.5 −2 1.973954691 JL021317_021517_BAF45D_5D_(—) P 5.82 0.218185908 1.24E−04 1//17 14//130 5.104 Fusion_MS2.14309.14309.5 6 ARID1A:1938- 10.162 SMARCE1:228 0 0.924754019 JL021317_021517_BAF45D_85B_(—) NP 10.162 0.420160423 2.78E−02 2//18 24//126 8.47275 Fusion_MS2.12107.12107.5 −1 −3.571311319 JL021317_021517_BAF45D_100B_(—) P 7.0915 0.287221547 2.20E−01 //13 21//168 6.549 Fusion_MS2.11563.11563.6 7 ARID1A:1938- 3.89225 SMARCE1:271 −1 −4.3820983 JL021317_021517_BAF45D_5D_(—) P 3.89225 0.119069106 2.25E−02 //13 15//167 3.11675 Fusion_MS2.12460.12460.6 8 ARID1A:2159- 4.60825 SMARCE1:166 −2 3.072723687 JL021317_021517_hBAF45D_(—) P 4.60825 0.130526838 9.44E−03 //14 17//161 4.09875 Fusion_MS2.13140.13140.4 9 ARID1A:2159- 11.53025 SMARCE1:146 0 −1.217083475 JL021317_021517_BAF45D_100B_(—) NP 11.53025 0.40376972 4.06E−08 4//17 31//137 9.26975 Fusion_MS2.10109.10109.5 0 −2.990906035 JL021317_021517_BAF45D_100B_(—) P 10.89275 0.3709812 3.12E−04 //17 25//106 10.205 Fusion_MS2.10111.10111.4 0 4.551588414 JL021317_021517_BAF45D_100B_(—) P 9.2565 0.3048411 9.90E−09 //17 22//106 8.743 Fusion_MS2.10119.10119.4 10  ARID1A:2159- 5.49425 SMARCE1:79 0 −0.667022242 JL021317_021517_BAF45D_85B_(—) NP 5.49425 0.268864693 4.58E−08 2//8 13//37 2.809 Fusion_MS2.07763.07763.4 14 ARID1A- SMARCD1 1 ARID1A:1953- 13.5395 SMARCD1:156 −2 −3.730095272 JL021317_021517_BAF45D_85B_(—) NP 13.5395 0.372219931 1.03E−07 2//14 39//245 10.3255 Fusion_MS2.16988.16988.5 0 −1.693728503 JL021317_021517_BAF45D_85B_(—) NP 13.173 0.421880254 2.96E−10 1//14 34//245 8.752 Fusion_MS2.16993.16993.6 −1 0.405063248 JL021317_021517_BAF45D_85B_(—) P 7.94875 0.199619533 3.07E−05 //14 29//178 7.4575 Fusion_MS2.17007.17007.4 −3 3.456205983 JL021317_021517_BAF45D_85B_(—) N 7.73925 0.155960946 //14 23//245 5.2505 Fusion_MS2.16543.16543.5 −3 6.345590578 JL021317_021517_BAF45D_85B_(—) P 1.98675 0.059335195 2.08E−01 1//14 12//245 1.63725 Fusion_MS2.17044.17044.5 2 ARID1A:1230- 14.35775 SMARCD1:101 −4 1.388125641 JL021317_021517_BAF45D_70B_(—) P 14.35775 0.396748967 5.72E−21 //16 26//118 8.86475 Fusion_MS2.09010.09010.4 −2 3.943026644 JL021317_021517_BAF45D_70B_(—) NP 13.58375 0.367257415 1.77E−15 //16 30//157 11.4375 Fusion_MS2.09013.09013.5 −1 −4.390342439 JL021317_021517_BAF45D_70B_(—) NP 12.7695 0.354821679 7.05E−17 //16 27//118 9.41375 Fusion_MS2.09001.09001.4 3 ARID1A:1654- 18.37575 SMARCD1:101 −2 −2.277204721 JL021317_021517_BAF45D_85B_(—) NP 18.37575 0.411205594 3.50E−10 1//16 23//156 9.91225 Fusion_MS2.10466.10466.5 −3 −3.84915223 JL021317_021517_BAF45D_85B_(—) NP 17.097 0.441537647 9.49E−15 2//16 23//156 8.058 Fusion_MS2.10394.10394.5 −4 0.787432441 JL021317_021517_BAF45D_85B_(—) P 15.10225 0.408472513 5.99E−10 1//16 19//156 8.45275 Fusion_MS2.10737.10737.5 −1 −6.121210816 JL021317_021517_BAF45D_85B_(—) NP 14.17175 0.391344269 2.89E−10 1//16 18//156 7.24025 Fusion_MS2.10656.10656.5 −4 7.385544199 JL021317_021517_BAF45D_70B_(—) P 10.176 0.255223094 1.96E−02 2//16 18//156 5.81575 Fusion_MS2.11464.11464.5 −2 15.02417645 JL021317_021517_BAF45D_70B_(—) N 9.7005 0.252118204 1//16 16//156 5.99725 Fusion_MS2.11515.11515.5 4 ARID1A:2146- 8.9195 SMARCD1:156 0 −2.350030072 JL021317_021517_BAF45D_70B_(—) NP 8.9195 0.341710564 3.95E−11 2//12 15//55 3.5075 Fusion_MS2.11623.11623.4 −1 0.829571021 JL021317_021517_BAF45D_70B_(—) NP 8.647 0.348184985 1.66E−11 2//12 14//55 3.80825 Fusion_MS2.11613.11613.4 −1 2.2655199 JL021317_021517_hBAF45D_(—) NP 8.5955 0.345575524 1.51E−09 2//12 15//55 3.4275 Fusion_MS2.12509.12509.4 0 1.719825538 JL021317_021517_BAF45D_70B_(—) N 8.45575 0.309791171 2//12 13//56 3.1225 Fusion_MS2.10293.10293.4 −2 −1.324352301 JL021317_021517_BAF45D_85B_(—) NP 7.9025 0.323045478 1.93E−09 1//12 14//55 3.13275 Fusion_MS2.12135.12135.4 −1 1.496759081 JL021317_021517_hBAF45D_(—) N 7.488 0.285534519 //12 14//56 3.871 Fusion_MS2.09800.09800.4 −1 1.942861569 JL021317_021517_BAF45D_70B_(—) N 7.0835 0.228909822 //12 11//56 2.7995 Fusion_MS2.09105.09105.4 0 1.568911025 JL021317_021517_BAF45D_85B_(—) NP 7.01625 0.292118575 1.14E−14 //12 13//53 3.45225 Fusion_MS2.10655.10655.4 0 2.433010553 JL021317_021517_hBAF45D_(—) N 6.81 0.278288586 //12 12//56 3.071 Fusion_MS2.11110.11110.4 0 −1.015628735 JL021317_021517_BAF45D_85B_(—) NP 6.577 0.260805774 7.78E−12 1//12 13//66 3.08375 Fusion_MS2.10657.10657.5 −1 −0.196106752 JL021317_021517_BAF45D_100B_(—) NP 6.44175 0.273140689 2.46E−09 //12 11//55 2.84425 Fusion_MS2.12171.12171.4 0 1.048034799 JL021317_021517_BAF45D_85B_(—) N 6.21025 0.224829846 //12 13//54 3.66275 Fusion_MS2.09457.09457.4 0 3.961267581 JL021317_021517_hBAF45D_(—) N 5.85975 0.222457386 2//12 16//55 2.8935 Fusion_MS2.11165.11165.4 0 1.918456819 JL021317_021517_BAF45D_85B_(—) N 5.45375 0.20197952 1//12 16//53 4.108 Fusion_MS2.09664.09664.4 0 0.588765484 JL021317_021517_BAF45D_85B_(—) N 4.6315 0.168197995 //12 11//68 2.11525 Fusion_MS2.08512.08512.5 −2 8.165795237 JL021317_021517_BAF45D_85B_(—) N 4.44225 0.144266368 //12 11//68 2.54675 Fusion_MS2.09480.09480.5 5 ARID1A:1238- 8.17325 SMARCD1:101 −3 −1.644837592 JL021317_021517_BAF45D_70B_(—) NP 8.17325 0.211492929 6.54E−09 //19 14//210 3.4535 Fusion_MS2.09898.09898.5 −3 −1.332052874 JL021317_021517_BAF45D_70B_(—) P 7.3245 0.182101835 4.31E−07 1//19 15//210 2.6055 Fusion_MS2.09868.09868.5 6 ARID1A:1662- 16.2125 SMARCD1:101 −2 −0.448977526 JL021317_021517_BAF45D_85B_(—) NP 16.2125 0.48917553 6.67E−09 1//16 41//158 12.9715 Fusion_MS2.11597.11597.5 −2 −1.779552039 JL021317_021517_BAF45D_70B_(—) NP 16.03225 0.438578854 2.19E−10 //16 46//158 12.79575 Fusion_MS2.11192.11192.5 −1 6.241975858 JL021317_021517_BAF45D_100B_(—) P 15.32825 0.486248354 2.57E−12 //16 31//157 14.46225 Fusion_MS2.10797.10797.5 −1 7.631799252 JL021317_021517_BAF45D_85B_(—) NP 15.069 0.462935086 5.09E−11 //16 33//119 10.3985 Fusion_MS2.11634.11634.4 −2 5.815956386 JL021317_021517_BAF45D_85B_(—) NP 14.81175 0.422299994 1.00E−14 //16 35//119 10.44225 Fusion_MS2.11606.11606.4 −2 14.8665348 JL021317_021517_BAF45D_85B_(—) N 13.89175 0.411729401 //16 35//119 9.21675 Fusion_MS2.11622.11622.4 −1 −2.52111731 JL021317_021517_BAF45D_100B_(—) NP 13.18425 0.412226808 8.34E−14 //16 26//157 10.2315 Fusion_MS2.10802.10802.6 −1 1.47528961 JL021317_021517_BAF45D_100B_(—) N 12.59075 0.418207032 //16 22//118 9.5535 Fusion_MS2.09574.09574.6 −4 3.574053648 JL021317_021517_hBAF45D_(—) P 12.498 0.359566725 2.87E−11 //16 26//158 9.298 Fusion_MS2.12013.12013.5 −1 3.13574675 JL021317_021517_hBAF45D_(—) NP 9.82225 0.298630324 4.19E−12 //16 22//158 7.3435 Fusion_MS2.12038.12038.5 7 ARID1A:1938- 9.62375 SMARCD1:156 0 1.186531635 JL021317_021517_BAF45D_85B_(—) NP 9.62375 0.34775421 5.68E−08 2//18 23//123 6.37425 Fusion_MS2.12672.12672.5 −2 0.814262426 JL021317_021517_BAF45D_85B_(—) NP 9.56725 0.278835084 3.43E−03 3//18 27//96 6.60225 Fusion_MS2.12691.12691.4 8 ARID1A:2159- 20.909 SMARCD1:101 0 −0.621280098 JL021317_021517_BAF45D_85B_(—) P 20.909 0.575363575 8.77E−11 //16 38//124 20.232 Fusion_MS2.06818.06818.4 −1 2.087361158 JL021317_021517_hBAF45D_(—) P 20.9035 0.595210638 6.06E−05 //16 40//124 20.68975 Fusion_MS2.06898.06898.4 −1 2.629089408 JL021317_021517_BAF45D_85B_(—) P 20.8415 0.570749808 7.87E−12 //16 35//124 20.1205 Fusion_MS2.06816.06816.4 0 −5.172138568 JL021317_021517_BAF45D_85B_(—) NP 18.43025 0.553170256 2.72E−12 //16 41//161 17.2825 Fusion_MS2.06814.06814.5 −1 2.779658261 JL021317_021517_hBAF45D_(—) NP 16.83475 0.539982038 2.50E−11 //16 38//161 15.55075 Fusion_MS2.06891.06891.5 0 −2.173285749 JL021317_021517_BAF45D_85B_(—) NP 15.72525 0.526465123 1.93E−12 //16 34//161 14.44825 Fusion_MS2.06955.06955.5 −3 −1.782126351 JL021317_021517_BAF45D_85B_(—) P 14.56 0.448870117 7.89E−07 //16 33//124 14.02525 Fusion_MS2.07114.07114.4 −1 −5.032495856 JL021317_021517_BAF45D_85B_(—) P 13.86275 0.451511253 4.62E−04 //16 29//124 13.6205 Fusion_MS2.07177.07177.4 −2 1.777802157 JL021317_021517_BAF45D_85B_(—) P 13.55675 0.417111518 1.65E−04 //16 32//124 13.2605 Fusion_MS2.07117.07117.4 −1 −5.346265505 JL021317_021517_BAF45D_85B_(—) NP 12.53525 0.365459184 3.02E−12 //16 28//161 11.58575 Fusion_MS2.07387.07387.5 −2 11.56860995 JL021317_021517_BAF45D_85B_(—) N 9.821 0.31571672 //16 22//161 8.4495 Fusion_MS2.07151.07151.5 9 ARID1A:2159- 5.298 SMARCD1:131 −1 0.254361574 JL021317_021517_BAF45D_70B_(—) NP 5.298 0.178513065 9.04E−08 3//11 17//49 3.541 Fusion_MS2.07429.07429.4 −2 18.13614499 JL021317_021517_BAF45D_100B_(—) N 3.85075 0.156144192 3//12 11//58 2.146 Fusion_MS2.07651.07651.4 10  ARID1A:2159- 5.368 SMARCD1:125 0 0.559967068 JL021317_021517_BAF45D_100B_(—) N 5.368 0.207094771 4//9 11//35 2.1925 Fusion_MS2.04862.04862.4 0 1.234219567 JL021317_021517_BAF45D_5D_(—) N 4.149 0.221474898 1//9 7//35 1.061 Fusion_MS2.04703.04703.4 0 2.515785389 JL021317_021517_BAF45D_100B_(—) N 4.0015 0.149262361 2//9 9//35 0.908 Fusion_MS2.04390.04390.4 0 2.964334203 JL021317_021517_hBAF45D_(—) N 3.7845 0.18512902 1//9 6//35 1.09925 Fusion_MS2.04702.04702.4 11  ARID1A:2159- 5.087 SMARCD1:124 0 1.008512721 JL021317_021517_BAF45D_100B_(—) N 5.087 0.166584799 4//9 15//37 1.897 Fusion_MS2.04715.04715.4 −1 14.65800705 JL021317_021517_BAF45D_85B_(—) N 4.53975 0.145416253 3//9 9//37 1.98425 Fusion_MS2.05438.05438.4 0 0.718657412 JL021317_021517_BAF45D_5D_(—) N 3.8015 0.199260929 //7 7//30 2.768 Fusion_MS2.02386.02386.4 0 −6.713722442 JL021317_021517_BAF45D_D_(—) NP 3.686 0.151372662 5.64E−07 //13 10//66 1.5055 Fusion_MS2.04827.04827.4 0 2.610458194 JL021317_021517_BAF45D_5D_(—) N 3.53425 0.172137934 2//9 8//37 1.04675 Fusion_MS2.04675.04675.4 0 2.737090061 JL021317_021517_hBAF45D_(—) P 3.074 0.177119645 5.15E−07 //7 5//30 2.465 Fusion_MS2.02404.02404.4 0 −3.112497621 JL021317_021517_BAF45D_D_(—) P 2.441 0.133039023 9.44E−06 1//9 6//36 0.82125 Fusion_MS2.01768.01768.4 0 −3.36321788 JL021317_021517_BAF45D_100B_(—) P 2.06375 0.133317183 3.06E−03 //7 5//30 1.70975 Fusion_MS2.02385.02385.4 12  ARID1A:2159- 8.83625 SMARCD1:173 0 −7.878032281 JL021317_021517_BAF45D_100B_(—) NP 8.83625 0.319817945 1.64E−03 //14 20//83 5.79825 Fusion_MS2.11562.11562.5 0 −2.060521564 JL021317_021517_BAF45D_85B_(—) NP 7.27825 0.234933828 1.08E−10 5//14 28//71 5.052 Fusion_MS2.10309.10309.4 −1 −1.070044156 JL021317_021517_BAF45D_100B_(—) NP 6.73225 0.291439394 7.71E−11 4//12 20//57 3.72025 Fusion_MS2.09112.09112.4 0 −2.236241511 JL021317_021517_BAF45D_85B_(—) NP 6.396 0.180486772 3.09E−07 3//14 23//90 4.23325 Fusion_MS2.10310.10310.5 −2 0.555279839 JL021317_021517_hBAF45D_(—) NP 6.108 0.248136337 8.23E−11 2//14 23//71 3.7675 Fusion_MS2.10774.10774.4 0 −0.80493689 JL021317_021517_hBAF45D_(—) NP 5.40325 0.238939129 2.73E−12 //14 19//71 3.0955 Fusion_MS2.10757.10757.4 −1 −5.152860078 JL021317_021517_BAF45D_85B_(—) P 1.5925 0.06590246 1.77E−01 //14 7//90 1.22575 Fusion_MS2.10792.10792.5 13  ARID1A:1201- 6.39825 SMARCD1:101 −2 4.557491834 JL021317_021517_BAF45D_70B_(—) NP 6.39825 0.172320226 3.10E−04 //15 11//168 1.337 Fusion_MS2.10581.10581.5 15 ARID1A- SMARCC2 1 ARID1A:1934- 5.79325 SMARCC2:874 0 −1.520792561 JL021317_021517_BAF45D_85B_(—) NP 5.79325 0.210159254 4.81E−09 //10 9//52 1.91825 Fusion_MS2.06250.06250.4 2 ARID1A:2033- 5.77075 SMARCC2:874 −3 2.101274888 JL021317_021517_BAF45D_5D_(—) N 5.77075 0.150749076 //9 19//260 4.11575 Fusion_MS2.17945.17945.5 3 ARID1A:2159- 3.68575 SMARCC2:79 −1 7.157975779 JL021317_021517_BAF45D_100B_(—) P 3.68575 0.127208877 1.61E−02 1//12 6//60 0.54775 Fusion_MS2.07257.07257.4 4 ARID1A:2159- 6.02825 SMARCC2:874 0 1.698311179 JL021317_021517_BAF45D_100B_(—) NP 6.02825 0.286126207 1.06E−09 //10 12//53 3.629 Fusion_MS2.05748.05748.4 −2 17.30705246 JL021317_021517_BAF45D_100B_(—) N 3.7525 0.152460082 //10 8//53 2.4735 Fusion_MS2.05778.05778.4 5 ARID1A:2159- 4.77025 SMARCC2:902 0 −0.358371872 JL021317_021517_BAF45D_85B_(—) NP 4.77025 0.250150764 2.07E−02 5//8 11//30 2.066 Fusion_MS2.08557.08557.4 0 0.036818622 JL021317_021517_BAF45D_5D_(—) N 3.45725 0.125020341 2//9 9//36 1.08975 Fusion_MS2.07274.07274.4 6 ARID1A:1880- 12.514 SMARCC2:702 0 5.042807866 JL021317_021517_BAF45D_100B_(—) N 12.514 0.309155591 //18 27//166 8.45275 Fusion_MS2.12611.12611.7 7 ARID1A:1880- 18.02925 SMARCC2:694 −2 4.700811918 JL021317_021517_BAF45D_85B_(—) NP 18.02925 0.485133262 2.01E−09 1//18 38//229 10.8775 Fusion_MS2.09778.09778.5 −4 0.95152411 JL021317_021517_BAF45D_85B_(—) P 16.055 0.420183462 5.79E−09 1//18 32//229 9.4705 Fusion_MS2.09761.09761.5 −2 −0.517976973 JL021317_021517_BAF45D_70B_(—) NP 11.99275 0.265864527 5.58E−09 //18 29//229 7.65675 Fusion_MS2.09320.09320.5 8 ARID1A:1880- 18.31775 SMARCC2:592 0 −5.464105245 JL021317_021517_BAF45D_85B_(—) NP 18.31775 0.567983442 4.52E−12 1//18 54//234 14.58075 Fusion_MS2.05036.05036.5 −1 −3.53910193 JL021317_021517_BAF45D_85B_(—) NP 16.7285 0.552834647 3.18E−08 1//18 48//234 13.6445 Fusion_MS2.05060.05060.6 −2 0.353539032 JL021317_021517_BAF45D_85B_(—) NP 16.4535 0.510811692 2.80E−12 1//18 52//234 13.6715 Fusion_MS2.05029.05029.5 9 ARID1A:1880- 20.989 SMARCC2:718 0 −1.658763501 JL021317_021517_BAF45D_85B_(—) NP 20.989 0.669954355 3.69E−10 //18 45//175 18.37575 Fusion_MS2.05049.05049.4 −2 7.567350578 JL021317_021517_BAF45D_85B_(—) NP 20.18075 0.505080652 1.13E−08 //18 48//234 18.19275 Fusion_MS2.05042.05042.5 −4 1.295474742 JL021317_021517_BAF45D_85B_(—) P 20.08975 0.603939635 3.89E−09 2//18 46//234 17.97325 Fusion_MS2.05045.05045.6 −3 3.540137574 JL021317_021517_BAF45D_85B_(—) P 18.4035 0.573433873 6.62E−10 //18 44//175 17.5485 Fusion_MS2.05082.05082.4 0 −4.064367967 JL021317_021517_BAF45D_85B_(—) NP 16.9175 0.443028859 5.69E−08 //18 49//234 15.4935 Fusion_MS2.05028.05028.5 0 −8.510047537 JL021317_021517_BAF45D_85B_(—) NP 16.56825 0.517030738 2.67E−07 //18 41//234 14.98625 Fusion_MS2.05035.05035.6 0 −2.772674683 JL021317_021517_BAF45D_70B_(—) P 7.185 0.25271266 2.32E−05 //18 23//225 6.70575 Fusion_MS2.05354.05354.5 10  ARID1A:1880- 13.699 SMARCC2:584 −3 3.530198371 JL021317_021517_BAF45D_85B_(—) NP 13.699 0.427532613 5.22E−04 //18 37//234 12.53075 Fusion_MS2.06409.06409.5 0 4.680044831 JL021317_021517_BAF45D_85B_(—) NP 12.81625 0.349554746 2.25E−03 //18 40//234 11.71525 Fusion_MS2.06450.06450.5 11  ARID1A:1880- 23.2235 SMARCC2:874 −2 6.612309399 JL021317_021517_BAF45D_85B_(—) N 23.2235 0.65126616 //18 55//174 21.00175 Fusion_MS2.08458.08458.4 −2 3.606738047 JL021317_021517_BAF45D_100B_(—) NP 20.985 0.697106601 4.74E−18 1//18 52//172 16.313 Fusion_MS2.06228.06228.4 −2 3.199756469 JL021317_021517_BAF45D_85B_(—) N 20.21375 0.536757482 //18 52//237 18.67875 Fusion_MS2.08454.08454.5 −1 −1.271757174 JL021317_021517_hBAF45D_(—) NP 18.88325 0.508715096 2.46E−13 //18 41//233 16.45 Fusion_MS2.06339.06339.6 −2 2.998717665 JL021317_021517_BAF45D_100B_(—) NP 18.642 0.533306633 2.73E−10 //18 42//233 15.747 Fusion_MS2.06196.06196.6 −2 2.42135049 JL021317_021517_BAF45D_85B_(—) N 17.92875 0.538716365 1//18 41//174 15.7935 Fusion_MS2.08472.08472.6 −1 −1.81308497 JL021317_021517_BAF45D_100B_(—) NP 17.853 0.502045809 5.36E−10 //18 41//233 15.9025 Fusion_MS2.06357.06357.6 −1 −0.805958721 JL021317_021517_BAF45D_85B_(—) NP 16.90875 0.533155181 8.38E−13 //18 46//166 15.30375 Fusion_MS2.06775.06775.4 −1 2.593471974 JL021317_021517_BAF45D_100B_(—) N 16.413 0.458675088 1//18 40//172 14.371 Fusion_MS2.06217.06217.7 −1 2.430588628 JL021317_021517_BAF45D_100B_(—) NP 16.2245 0.464539312 2.14E−14 //18 39//233 12.98075 Fusion_MS2.06198.06198.5 0 3.543317988 JL021317_021517_BAF45D_100B_(—) NP 16.023 0.535188216 1.32E−19 //18 39//233 12.492 Fusion_MS2.06349.06349.5 −2 4.357619218 JL021317_021517_hBAF45D_(—) N 15.7945 0.432151798 //18 43//237 14.09875 Fusion_MS2.08624.08624.5 −1 2.068084472 JL021317_021517_BAF45D_85B_(—) NP 15.10425 0.419492585 9.23E−11 //18 42//224 13.61425 Fusion_MS2.06780.06780.5 −1 −4.871915887 JL021317_021517_BAF45D_85B_(—) NP 14.89 0.514290648 8.13E−13 //18 43//166 12.76475 Fusion_MS2.06770.06770.4 −2 1.30180793 JL021317_021517_BAF45D_85B_(—) NP 14.55325 0.420207314 2.31E−10 //18 39//224 12.56175 Fusion_MS2.06747.06747.5 −1 1.979482132 JL021317_021517_hBAF45D_(—) NP 14.26275 0.465509645 1.50E−07 //18 31//233 11.26775 Fusion_MS2.06295.06295.5 −1 5.904525281 JL021317_021517_hBAF45D_(—) N 13.9865 0.393675411 //18 41//237 12.141 Fusion_MS2.08617.08617.5 0 4.638735581 JL021317_021517_BAF45D_85B_(—) N 12.411 0.325338157 //18 38//237 10.30475 Fusion_MS2.07836.07836.5 0 −0.516640485 JL021317_021517_hBAF45D_(—) NP 11.06475 0.376051455 7.99E−09 //18 32//233 9.50575 Fusion_MS2.06377.06377.5 −1 3.330100833 JL021317_021517_hBAF45D_(—) N 9.6535 0.344460303 //18 28//172 8.17125 Fusion_MS2.06303.06303.7 −1 −0.543441724 JL021317_021517_BAF45D_100B_(—) NP 8.925 0.354335398 1.84E−07 //18 23//172 7.77925 Fusion_MS2.06305.06305.4 −1 2.488799806 JL021317_021517_BAF45D_85B_(—) N 4.99875 0.143590664 //18 18//174 3.295 Fusion_MS2.07876.07876.6 −1 8.381921862 JL021317_021517_BAF45D_10D_(—) P 4.872 0.240479775 1.92E−08 //18 16//233 4.03175 Fusion_MS2.06170.06170.6 12  ARID1A:1905- 4.434 SMARCC2:718 −3 −0.218129367 JL021317_021517_BAF45D_85B_(—) P 4.434 0.146476826 2.42E−05 //17 15//230 4.07975 Fusion_MS2.05259.05259.6 −3 0.920654267 JL021317_021517_BAF45D_85B_(—) P 4.29575 0.115453874 3.56E−09 //17 21//230 3.873 Fusion_MS2.05232.05232.5 13  ARID1A:1905- 18.23475 SMARCC2:874 −1 3.708723704 JL021317_021517_BAF45D_5D_(—) NP 18.23475 0.557305277 3.97E−19 //17 45//227 15.0835 Fusion_MS2.06507.06507.5 −3 1.292130017 JL021317_021517_BAF45D_85B_(—) N 17.10025 0.451104663 //17 41//231 14.615 Fusion_MS2.08620.08620.5 −1 9.520588652 JL021317_021517_BAF45D_85B_(—) N 15.92075 0.520830607 //17 40//170 14.3995 Fusion_MS2.08663.08663.4 −1 −4.158838755 JL021317_021517_BAF45D_5D_(—) NP 14.44775 0.436520885 3.49E−17 //17 41//227 12.23075 Fusion_MS2.06492.06492.6 −1 2.853864273 JL021317_021517_BAF45D_85B_(—) N 7.856 0.250410391 //17 18//231 6.4865 Fusion_MS2.08053.08053.5 14  ARID1A:1862- 4.62725 SMARCC2:795 −1 8.120827215 JL021317_021517_BAF45D_D_(—) N 4.62725 0.141266352 //8 19//136 3.3395 Fusion_MS2.11529.11529.4 15  ARID1A:1862- 10.44575 SMARCC2:592 −2 0.169326202 JL021317_021517_BAF45D_5D_(—) N 10.44575 0.318123677 // 28//195 7.10425 Fusion_MS2.09614.09614.7 −2 6.628566647 JL021317_021517_BAF45D_5D_(—) NP 5.90625 0.165223655 2.88E−05 // 24//273 3.4425 Fusion_MS2.09638.09638.6 16  ARID1A:1862- 8.5115 SMARCC2:585 −2 4.072449866 JL021317_021517_BAF45D_100B_(—) N 8.5115 0.224104792 // 24//195 5.8295 Fusion_MS2.12040.12040.6 −2 2.726215059 JL021317_021517_BAF45D_5D_(—) N 7.22375 0.231764442 // 22//195 5.84425 Fusion_MS2.09737.09737.7 17  ARID1A:1862- 10.693 SMARCC2:584 −4 2.861616875 JL021317_021517_BAF45D_100B_(—) P 10.693 0.287473284 8.01E−04 // 38//273 9.75975 Fusion_MS2.10760.10760.6 −2 4.350173513 JL021317_021517_BAF45D_100B_(—) NP 10.142 0.282330016 4.82E−04 // 32//273 9.152 Fusion_MS2.10745.10745.6 −1 0.013442572 JL021317_021517_BAF45D_100B_(—) N 9.292 0.268931884 // 28//195 8.3415 Fusion_MS2.10757.10757.7 −3 4.575085979 JL021317_021517_BAF45D_100B_(—) N 8.248 0.215155863 // 21//195 5.22975 Fusion_MS2.12027.12027.6 −3 1.914813155 JL021317_021517_BAF45D_5D_(—) P 6.91225 0.164667556 3.01E−04 // 30//273 6.25675 Fusion_MS2.10595.10595.5 −4 0.551787612 JL021317_021517_BAF45D_10D_(—) P 6.1305 0.166232815 9.39E−02 // 27//273 5.389 Fusion_MS2.10604.10604.6 18  ARID1A:1795- 3.4055 SMARCC2:592 0 1.480574253 JL021317_021517_BAF45D_50B_(—) P 3.4055 0.172596422 3.75E−06 //11 7//62 2.57775 Fusion_MS2.03146.03146.4 16 ARID1A- SMARCD3 1 ARID1A:2159- 3.386 SMARCD3:102 0 1.244386854 JL021317_021517_BAF45D_5D_(—) N 3.386 0.177477265 //7 6//31 2.192 Fusion_MS2.03231.03231.4 2 ARID1A:2159- 8.59625 SMARCD3:148 0 −0.949422976 JL021317_021517_BAF45D_85B_(—) NP 8.59625 0.26761254 3.12E−08 7//14 32//70 6.34575 Fusion_MS2.09386.09386.4 0 0.624097905 JL021317_021517_BAF45D_85B_(—) N 8.5805 0.283864031 4//14 27//71 5.691 Fusion_MS2.08400.08400.4 −2 12.7563852 JL021317_021517_BAF45D_70B_(—) N 7.7225 0.302576158 7//11 23//48 5.1155 Fusion_MS2.08638.08638.4 0 1.767699804 JL021317_021517_BAF45D_85B_(—) N 7.4975 0.201713794 5//14 23//91 4.9085 Fusion_MS2.08429.08429.5 0 −3.007328784 JL021317_021517_BAF45D_100B_(—) NP 7.33825 0.333769217 1.08E−11 6//12 25//57 4.30225 Fusion_MS2.08206.08206.4 0 0.195744014 JL021317_021517_hBAF45D_(—) N 5.58425 0.197564168 2//14 20//70 3.425 Fusion_MS2.09671.09671.4 −1 2.674333715 JL021317_021517_hBAF45D_(—) N 5.58 0.207697461 //14 15//71 2.821 Fusion_MS2.08558.08558.4 0 −0.093347202 JL021317_021517_BAF45D_85B_(—) NP 5.3305 0.162639207 2.37E−06 4//14 17//89 3.7975 Fusion_MS2.09374.09374.5 0 1.661552204 JL021317_021517_hBAF45D_(—) N 4.57675 0.206132054 //14 16//71 2.40525 Fusion_MS2.08563.08563.4 0 2.027064957 JL021317_021517_hBAF45D_(—) N 4.18275 0.168482639 //14 13//91 1.769 Fusion_MS2.08573.08573.5 3 ARID1A:1962- 6.903 SMARCD3:417 −1 14.46858641 JL021317_021517_BAF45D_100B_(—) N 6.903 0.217218918 //8 20//158 5.9805 Fusion_MS2.15967.15967.6 17 ARID1A- SMARCA2 1 ARID1A:2243- 5.333 SMARCA2:437 −1 −5.536870348 JL021317_021517_BAF45D_5D_(—) NP 5.333 0.177527005 7.43E−03 //11 16//166 3.6415 Fusion_MS2.13157.13157.5 2 ARID1A:1934- 8.89125 SMARCA2:846 −2 12.36280229 JL021317_021517_BAF45D_70B_(—) N 8.89125 0.223659552 //12 23//127 7.67625 Fusion_MS2.13376.13376.4 3 ARID1A:2159- 2.9025 SMARCA2:1460 0 0.366850522 JL021317_021517_BAF45D_10D_(—) P 2.9025 0.190415273 1.03E−05 //7 3//24 0.52875 Fusion_MS2.03163.03163.4 4 ARID1A:2159- 3.3315 SMARCA2:1191 0 8.416631971 JL021317_021517_BAF45D_100B_(—) P 3.3315 0.140816197 9.27E−03 1//8 5//42 0.16675 Fusion_MS2.05567.05567.4 18 ARID1A- SMARCA4 1 ARID1A:1047- 11.06575 SMARCA4:207 0 1.591225637 JL021317_021517_BAF45D_85B_(—) NP 11.06575 0.365628614 6.74E−07 6//18 32//127 8.71875 Fusion_MS2.12012.12012.5 −2 0.988955691 JL021317_021517_BAF45D_85B_(—) NP 9.3165 0.275017712 4.61E−11 //18 20//100 6.78125 Fusion_MS2.11967.11967.4 2 ARID1A:1047- 5.1275 SMARCA4:94 0 −2.251440132 JL021317_021517_BAF45D_85B_(—) NP 5.1275 0.157546242 1.22E−03 2//12 13//57 3.15475 Fusion_MS2.10819.10819.4 3 ARID1A:2159- 11.0355 SMARCA4:207 0 −2.849883367 JL021317_021517_BAF45D_85B_(—) NP 11.0355 0.327540662 1.61E−08 6//18 30//128 8.7445 Fusion_MS2.09177.09177.5 4 ARID1A:2159- 6.62975 SMARCA4:94 −2 2.643417095 JL021317_021517_BAF45D_85B_(—) NP 6.62975 0.21839639 9.83E−05 3//12 17//58 3.05925 Fusion_MS2.07339.07339.4 0 7.303371962 JL021317_021517_BAF45D_85B_(—) N 4.793 0.222723048 //12 12//58 1.975 Fusion_MS2.05786.05786.4 0 6.005970666 JL021317_021517_BAF45D_70B_(—) N 4.7065 0.185218709 //12 9//58 1.82875 Fusion_MS2.04578.04578.4 −1 3.961502896 JL021317_021517_BAF45D_85B_(—) N 4.0335 0.187630832 //12 13//58 1.7155 Fusion_MS2.06044.06044.4 19 ARID1A- SMARCB1 1 ARID1A:1905- 15.7445 SMARCB1:13 −1 2.270709394 JL021317_021517_BAF45D_85B_(—) P 15.7445 0.449810728 2.15E−05 3//17 46//229 15.3285 Fusion_MS2.07064.07064.5 −2 −2.246887063 JL021317_021517_BAF45D_85B_(—) P 10.357 0.342487723 1.06E−04 3//17 38//229 10.0375 Fusion_MS2.07077.07077.6 −1 0.200919732 JL021317_021517_BAF45D_85B_(—) P 10.0115 0.329136188 1.08E−05 2//17 35//229 9.67975 Fusion_MS2.07067.07067.6 2 ARID1A:1047- 6.243 SMARCB1:45 −1 3.024169229 JL021317_021517_BAF45D_85B_(—) N 6.243 0.335753469 //8 6//35 3.1045 Fusion_MS2.09756.09756.4 3 ARID1A:1880- 15.02625 SMARCB1:13 −1 1.475966928 JL021317_021517_BAF45D_85B_(—) P 15.02625 0.417807838 3.21E−03 //18 42//234 14.4235 Fusion_MS2.06741.06741.5 20 ARID1A- SMARCC1 1 ARID1A:1830- 14.20775 SMARCC1:615 −1 4.90845736 JL021317_021517_BAF45D_70B_(—) N 14.20775 0.424377968 3//12 36//112 12.22175 Fusion_MS2.12445.12445.4 2 ARID1A:1880- 13.5815 SMARCC1:615 −1 3.842712968 JL021317_021517_BAF45D_85B_(—) NP 13.5815 0.439587649 1.72E−10 1//18 43//234 12.04875 Fusion_MS2.04880.04880.5 −2 2.278904655 JL021317_021517_BAF45D_85B_(—) NP 13.407 0.452213509 1.96E−10 1//18 45//234 11.6995 Fusion_MS2.04817.04817.5 3 ARID1A:1880- 19.44925 SMARCC1:740 −1 −1.304634697 JL021317_021517_BAF45D_85B_(—) NP 19.44925 0.566364788 2.23E−08 1//18 50//235 17.05425 Fusion_MS2.04951.04951.6 0 −2.219296631 JL021317_021517_BAF45D_85B_(—) NP 18.73125 0.572331032 2.13E−07 1//18 45//235 16.26225 Fusion_MS2.04940.04940.6 −3 3.47178328 JL021317_021517_BAF45D_85B_(—) NP 18.647 0.586965075 3.44E−07 1//18 47//175 16.7475 Fusion_MS2.04961.04961.4 −1 −1.362858373 JL021317_021517_BAF45D_85B_(—) P 17.11325 0.559466793 2.80E−02 //18 45//175 16.72225 Fusion_MS2.04949.04949.4 0 2.77867751 JL021317_021517_hBAF45D_(—) NP 15.98625 0.529100748 5.56E−08 1//18 43//235 13.25525 Fusion_MS2.04958.04958.6 −2 −1.725744507 JL021317_021517_BAF45D_85B_(—) NP 15.2165 0.395187575 1.15E−09 //18 46//235 12.457 Fusion_MS2.05046.05046.5 −2 1.88622067 JL021317_021517_BAF45D_70B_(—) N 14.935 0.471113354 1//18 47//239 13.9255 Fusion_MS2.06936.06936.5 0 13.56707997 JL021317_021517_BAF45D_85B_(—) N 13.77675 0.428314939 1//18 32//175 10.86425 Fusion_MS2.04938.04938.6 −1 −5.616612387 JL021317_021517_BAF45D_85B_(—) NP 10.6215 0.335089518 2.08E−04 //18 29//235 8.3455 Fusion_MS2.05105.05105.6 −1 −2.477073953 JL021317_021517_hBAF45D_(—) P 9.9975 0.300401136 2.80E−11 //18 40//235 9.1605 Fusion_MS2.04953.04953.5 −3 11.55935645 JL021317_021517_BAF45D_85B_(—) N 8.7685 0.268158048 //18 24//175 6.2135 Fusion_MS2.05113.05113.6 4 ARID1A:1880- 18.295 SMARCC1:716 −3 2.136930897 JL021317_021517_BAF45D_85B_(—) NP 18.295 0.469204827 1.51E−05 4//18 40//229 13.26775 Fusion_MS2.10366.10366.6 0 −2.352585336 JL021317_021517_BAF45D_85B_(—) NP 18.0395 0.513163696 3.80E−11 3//18 47//229 11.20175 Fusion_MS2.10364.10364.5 −1 3.044308655 JL021317_021517_BAF45D_70B_(—) N 16.77875 0.491533741 //18 37//233 12.49325 Fusion_MS2.12075.12075.5 −2 1.807928058 JL021317_021517_BAF45D_70B_(—) N 16.649 0.516624517 1//18 39//233 12.05275 Fusion_MS2.12046.12046.5 −1 −3.259544251 JL021317_021517_BAF45D_85B_(—) NP 16.14325 0.412211937 4.12E−06 3//18 36//229 11.37975 Fusion_MS2.10399.10399.6 −2 4.660093028 JL021317_021517_BAF45D_85B_(—) NP 14.3755 0.446548109 8.24E−10 1//18 35//229 8.1275 Fusion_MS2.10350.10350.5 −2 0.088396972 JL021317_021517_BAF45D_85B_(—) NP 14.14825 0.38934601 7.68E−12 //18 34//168 8.38075 Fusion_MS2.10406.10406.4 −3 3.949887467 JL021317_021517_BAF45D_70B_(—) N 12.826 0.375122472 //18 27//170 10.423 Fusion_MS2.12112.12112.4 0 4.344873243 JL021317_021517_BAF45D_70B_(—) N 12.654 0.357498022 //18 31//170 10.4125 Fusion_MS2.12082.12082.4 0 1.282077258 JL021317_021517_BAF45D_70B_(—) N 5.19325 0.164322554 //18 22//233 2.4745 Fusion_MS2.11397.11397.5 5 ARID1A:1732- 2.26275 SMARCC1:65 −3 13.72593196 JL021317_021517_BAF45D_100B_(—) P 2.26275 0.054581308 1.26E−01 //7 9//221 0.70025 Fusion_MS2.14198.14198.5 6 ARID1A:2159- 5.07175 SMARCC1:317 0 0.810160408 JL021317_021517_BAF45D_85B_(—) NP 5.07175 0.280812247 3.15E−08 //8 6//34 2.256 Fusion_MS2.03172.03172.4 0 11.03251899 JL021317_021517_BAF45D_85B_(—) N 4.381 0.241643685 1//7 6//30 2.6415 Fusion_MS2.03159.03159.4 7 ARID1A:1862- 12.2215 SMARCC1:609 −3 10.87123498 JL021317_021517_BAF45D_5D_(—) NP 12.2215 0.363016649 7.61E−04 // 42//273 10.54975 Fusion_MS2.10077.10077.6 −3 11.55130624 JL021317_021517_BAF45D_5D_(—) N 11.2465 0.341454899 // 35//195 9.5145 Fusion_MS2.10092.10092.6 −3 1.903207705 JL021317_021517_BAF45D_5D_(—) N 7.99825 0.230274807 // 25//195 7.00225 Fusion_MS2.10076.10076.7 −1 8.049986125 JL021317_021517_BAF45D_5D_(—) P 6.65975 0.18362353 1.47E−02 // 30//273 5.92225 Fusion_MS2.10100.10100.5 8 ARID1A:1862- 12.1985 SMARCC1:615 −1 0.900201381 JL021317_021517_BAF45D_5D_(—) N 12.1985 0.372251636 // 33//195 9.849 Fusion_MS2.09603.09603.7 −2 3.404391522 JL021317_021517_BAF45D_5D_(—) N 9.61175 0.307516957 // 25//195 7.37075 Fusion_MS2.09569.09569.7 −4 2.067518684 JL021317_021517_BAF45D_5D_(—) P 6.96625 0.202504324 1.60E−02 // 28//273 5.32875 Fusion_MS2.09604.09604.6 −3 11.26455626 JL021317_021517_BAF45D_5D_(—) N 6.4765 0.175550586 // 28//195 4.704 Fusion_MS2.09580.09580.6 9 ARID1A:1862- 10.919 SMARCC1:608 −4 −0.756991811 JL021317_021517_BAF45D_5D_(—) P 10.919 0.30261207 1.88E−01 // 37//273 9.732 Fusion_MS2.10731.10731.6 −2 2.218259163 JL021317_021517_BAF45D_5D_(—) N 9.16625 0.248001245 // 26//195 8.22475 Fusion_MS2.10741.10741.7 −3 1.05067734 JL021317_021517_BAF45D_100B_(—) N 8.643 0.254291893 // 27//195 5.695 Fusion_MS2.12715.12715.6 −1 1.433859578 JL021317_021517_BAF45D_100B_(—) N 7.56775 0.215191583 // 24//195 4.96475 Fusion_MS2.12764.12764.6 −1 5.36672215 JL021317_021517_BAF45D_5D_(—) P 6.937 0.189122137 1.59E−01 // 29//273 6.65725 Fusion_MS2.10719.10719.6 −3 2.639253045 JL021317_021517_BAF45D_5D_(—) N 6.46875 0.203231279 // 16//195 4.34275 Fusion_MS2.12550.12550.7 −3 6.99505598 JL021317_021517_BAF45D_D_(—) N 6.2225 0.168444276 // 18//195 5.1475 Fusion_MS2.12541.12541.7 0 −4.658598595 JL021317_021517_BAF45D_100B_(—) P 6.18925 0.157107501 4.64E−02 // 23//273 5.36825 Fusion_MS2.10915.10915.6 10  ARID1A:1862- 11.886 SMARCC1:740 −2 1.433545708 JL021317_021517_BAF45D_5D_(—) N 11.886 0.367924966 // 31//195 8.7915 Fusion_MS2.09585.09585.7 11  ARID1A:1047- 11.35 SMARCC1:199 −2 3.778128376 JL021317_021517_BAF45D_100B_(—) NP 11.35 0.420323668 5.92E−07 7//13 24//62 7.9435 Fusion_MS2.08922.08922.4 0 −1.276999421 JL021317_021517_BAF45D_100B_(—) NP 5.245 0.191503733 2.03E−04 3//13 17//62 2.88575 Fusion_MS2.08927.08927.4 21 ARID1A- SS18 1 ARID1A:2159- 5.41925 SS18:13 0 1.418326658 JL021317_021517_hBAF45D_(—) NP 5.41925 0.272680386 2.08E−11 2//12 14//67 3.73725 Fusion_MS2.07511.07511.4 −1 −0.652458663 JL021317_021517_hBAF45D_(—) P 4.4025 0.210721551 7.53E−12 1//12 15//67 3.633 Fusion_MS2.07504.07504.4 2 ARID1A:1230- 1.65525 SS18:13 −2 12.46900815 JL021317_021517_BAF45D_70B_(—) P 1.65525 0.047592007 5.93E−03 //16 11//79 1.3535 Fusion_MS2.10077.10077.4 22 ARID1A- DPF2 1 ARID1A:1615- 6.0285 DPF2:188 −4 −2.079816415 JL021317_021517_BAF45D_50B_(—) P 6.0285 0.134897459 2.27E−04 //6 22//193 3.792 Fusion_MS2.14631.14631.4 2 ARID1A:1808- 14.85025 DPF2:18 −4 −0.731063471 JL021317_021517_BAF45D_100B_(—) P 14.85025 0.442511696 5.04E−07 //10 29//154 11.1155 Fusion_MS2.13216.13216.5 −2 5.765725637 JL021317_021517_BAF45D_100B_(—) NP 14.777 0.442478141 1.63E−04 //10 31//154 10.9025 Fusion_MS2.13211.13211.5 −2 −1.383850893 JL021317_021517_BAF45D_85B_(—) NP 11.87875 0.354917984 1.86E−06 //10 27//154 8.2785 Fusion_MS2.13148.13148.5 −3 8.112651844 JL021317_021517_BAF45D_85B_(—) NP 9.42125 0.270306134 3.63E−05 //10 24//154 6.17025 Fusion_MS2.13137.13137.5 −1 −2.117733683 JL021317_021517_BAF45D_100B_(—) NP 8.5745 0.276913885 4.85E−05 //10 23//154 6.697 Fusion_MS2.13225.13225.6 −2 10.0412195 JL021317_021517_BAF45D_100B_(—) N 7.36775 0.227497993 //10 21//154 5.033 Fusion_MS2.13075.13075.5 −3 1.488139697 JL021317_021517_BAF45D_100B_(—) NP 6.2175 0.198667561 3.83E−04 //10 18//154 5.03425 Fusion_MS2.13264.13264.6 −3 4.976437774 JL021317_021517_BAF45D_100B_(—) P 3.1915 0.080341859 5.90E−03 //10 11//113 1.90525 Fusion_MS2.13245.13245.4 3 ARID1A:1662- 5.93225 DPF2:108 0 −2.524222913 JL021317_021517_BAF45D_70B_(—) P 5.93225 0.162342816 7.11E−04 //17 16//106 4.3415 Fusion_MS2.17449.17449.4 4 ARID1A:1662- 8.45875 DPF2:130 0 1.434190875 JL021317_021517_BAF45D_100B_(—) NP 8.45875 0.349462921 3.68E−06 //16 17//83 5.46925 Fusion_MS2.12538.12538.4 −1 3.183404895 JL021317_021517_BAF45D_70B_(—) N 5.362 0.188875973 //15 15//77 4.14675 Fusion_MS2.13321.13321.4 0 −1.08685125 JL021317_021517_BAF45D_100B_(—) P 4.6 0.213576005 4.93E−04 //16 16//106 4.14875 Fusion_MS2.12525.12525.5 23 ARID1A- SMARCD2 1 ARID1A:1979- 14.98225 SMARCD2:480 −4 6.764685774 JL021317_021517_BAF45D_100B_(—) P 14.98225 0.353851513 4.15E−03 6//14 36//223 8.18175 Fusion_MS2.18531.18531.6 −3 −0.030127344 JL021317_021517_BAF45D_100B_(—) NP 14.4175 0.400163757 6.70E−09 //14 33//223 12.4225 Fusion_MS2.18539.18539.5 −1 2.872063437 JL021317_021517_BAF45D_100B_(—) N 11.646 0.314255646 5//14 27//161 6.5325 Fusion_MS2.18545.18545.7 2 ARID1A:2146- 9.123 SMARCD2:168 0 0.515042256 JL021317_021517_BAF45D_70B_(—) NP 9.123 0.322926622 4.92E−13 2//12 17//55 4.27075 Fusion_MS2.10589.10589.4 0 −1.168481236 JL021317_021517_BAF45D_70B_(—) NP 8.99725 0.332732383 2.90E−17 2//12 15//55 4.21275 Fusion_MS2.10750.10750.4 −2 4.513410549 JL021317_021517_hBAF45D_(—) NP 8.60825 0.353093788 1.08E−16 2//12 15//55 3.94925 Fusion_MS2.11435.11435.4 0 −0.411627831 JL021317_021517_BAF45D_85B_(—) NP 7.95775 0.355733125 3.36E−10 1//12 13//67 4.0965 Fusion_MS2.09831.09831.5 0 1.471028091 JL021317_021517_BAF45D_70B_(—) N 7.938 0.294550919 2//12 14//56 3.51325 Fusion_MS2.09285.09285.4 0 0.217027792 JL021317_021517_hBAF45D_(—) N 6.63925 0.324911912 //12 11//56 3.225 Fusion_MS2.10014.10014.4 0 2.585255745 JL021317_021517_BAF45D_85B_(—) NP 4.183 0.142366074 1.09E−09 //12 11//54 3.1435 Fusion_MS2.09845.09845.4 3 ARID1A:1938- 11.972 SMARCD2:168 −3 2.135436795 JL021317_021517_BAF45D_85B_(—) NP 11.972 0.485040008 2.89E−08 2//18 29//124 8.019 Fusion_MS2.11705.11705.5 0 0.575087519 JL021317_021517_BAF45D_85B_(—) NP 11.0435 0.442598641 2.93E−06 4//18 25//124 7.78775 Fusion_MS2.11709.11709.5 0 −2.263088777 JL021317_021517_BAF45D_85B_(—) NP 7.79325 0.231006936 2.31E−07 //18 22//97 5.262 Fusion_MS2.11713.11713.4 4 ARID1A:1953- 11.04925 SMARCD2:168 −1 8.339851674 JL021317_021517_BAF45D_85B_(—) NP 11.04925 0.278824316 6.95E−13 //14 32//178 9.151 Fusion_MS2.16607.16607.4 −1 −1.509338642 JL021317_021517_BAF45D_85B_(—) NP 10.61675 0.327278472 1.64E−09 1//14 27//245 7.5585 Fusion_MS2.16602.16602.6 5 ARID1A:2159- 4.12975 SMARCD2:139 −1 −1.899609554 JL021317_021517_hBAF45D_(—) NP 4.12975 0.171786606 2.14E−04 1//11 8//59 1.88475 Fusion_MS2.06905.06905.4 6 ARID1A:2159- 7.3405 SMARCD2:186 0 5.637956895 JL021317_021517_BAF45D_5D_(—) N 7.3405 0.275606368 //15 25//108 4.5625 Fusion_MS2.08848.08848.5 0 6.826668917 JL021317_021517_BAF45D_10D_(—) N 6.88675 0.206899401 //15 20//106 5.75125 Fusion_MS2.09846.09846.5 0 8.381150886 JL021317_021517_BAF45D_100B_(—) N 6.81325 0.237036199 //15 20//108 3.9885 Fusion_MS2.07640.07640.5 0 8.664476918 JL021317_021517_BAF45D_100B_(—) N 6.442 0.250189331 1//15 21//108 4.243 Fusion_MS2.08924.08924.5 0 4.66988825 JL021317_021517_hBAF45D_(—) N 5.89775 0.197864596 1//15 19//82 3.603 Fusion_MS2.09060.09060.4 0 7.823958857 JL021317_021517_hBAF45D_(—) N 4.3705 0.187478552 //15 13//108 2.1995 Fusion_MS2.07715.07715.5 0 5.34163419 JL021317_021517_hBAF45D_(—) N 3.4255 0.181147541 //15 11//82 1.4195 Fusion_MS2.08993.08993.6 0 7.15754948 JL021317_021517_BAF45D_100B_(—) N 3.1165 0.124874785 1//15 15//82 1.3065 Fusion_MS2.08849.08849.6 7 ARID1A:2159- 12.956 SMARCD2:185 −2 0.957365253 JL021317_021517_BAF45D_70B_(—) N 12.956 0.316065526 2//15 27//82 9.901 Fusion_MS2.12336.12336.4 0 1.109513342 JL021317_021517_BAF45D_85B_(—) NP 12.5995 0.364906742 1.08E−20 4//16 35//84 9.47 Fusion_MS2.09524.09524.4 0 1.818934217 JL021317_021517_BAF45D_85B_(—) N 10.83 0.330192994 6//16 33//84 8.03475 Fusion_MS2.08338.08338.4 0 0.158216335 JL021317_021517_hBAF45D_(—) NP 10.2445 0.331891664 4.51E−08 3//16 30//84 7.0955 Fusion_MS2.09815.09815.4 0 7.705355276 JL021317_021517_BAF45D_100B_(—) N 9.08325 0.312332371 2//15 25//82 6.211 Fusion_MS2.08888.08888.4 0 1.262181937 JL021317_021517_BAF45D_70B_(—) N 8.89425 0.232259202 //15 20//82 6.31175 Fusion_MS2.12310.12310.4 0 1.247032043 JL021317_021517_hBAF45D_(—) NP 8.6705 0.243433705 2.04E−11 4//16 24//109 5.78225 Fusion_MS2.09843.09843.5 −1 −1.620482638 JL021317_021517_BAF45D_100B_(—) NP 7.804 0.210793582 3.59E−03 //16 21//104 6.6005 Fusion_MS2.10698.10698.5 0 8.720316343 JL021317_021517_BAF45D_100B_(—) N 7.1245 0.257420555 //15 20//82 4.73375 Fusion_MS2.07657.07657.4 0 1.172505769 JL021317_021517_BAF45D_5D_(—) N 7.03925 0.230848063 //15 19//82 4.4635 Fusion_MS2.08844.08844.4 0 0.652471414 JL021317_021517_BAF45D_85B_(—) NP 6.611 0.2271392 1.44E−08 1//16 20//109 4.3895 Fusion_MS2.09443.09443.5 0 6.629259303 JL021317_021517_BAF45D_100B_(—) N 5.89325 0.18280729 //15 13//82 3.29275 Fusion_MS2.08739.08739.4 0 −2.124896481 JL021317_021517_BAF45D_85B_(—) NP 5.771 0.204319349 7.66E−08 //16 20//84 3.40925 Fusion_MS2.08958.08958.4 −1 1.129873476 JL021317_021517_hBAF45D_(—) N 5.66675 0.19794432 1//16 16//84 3.04 Fusion_MS2.08510.08510.4 −1 1.032990217 JL021317_021517_BAF45D_100B_(—) NP 5.581 0.218101528 2.82E−09 //16 13//109 3.15725 Fusion_MS2.09609.09609.5 0 1.484856296 JL021317_021517_BAF45D_85B_(—) NP 5.05775 0.158284695 3.05E−02 //16 11//109 2.675 Fusion_MS2.09618.09618.5 −1 10.45914152 JL021317_021517_BAF45D_85B_(—) N 5.02325 0.190281829 1//16 13//109 2.27375 Fusion_MS2.10063.10063.5 −3 14.39944848 JL021317_021517_BAF45D_100B_(—) N 5.00525 0.193563045 //16 16//84 2.844 Fusion_MS2.09593.09593.4 −3 13.92434591 JL021317_021517_BAF45D_85B_(—) N 4.291 0.132065309 2//16 15//84 1.932 Fusion_MS2.10038.10038.4 −3 11.0207937 JL021317_021517_hBAF45D_(—) N 3.997 0.17609481 //16 16//109 2.0875 Fusion_MS2.08496.08496.5 0 0.598493259 JL021317_021517_BAF45D_100B_(—) NP 3.7585 0.128471569 3.54E−06 //16 10//104 1.544 Fusion_MS2.10721.10721.6 −1 13.604168 JL021317_021517_hBAF45D_(—) N 3.53375 0.121675131 //16 13//84 1.164 Fusion_MS2.08526.08526.4 −2 4.424454409 JL021317_021517_BAF45D_100B_(—) N 3.23775 0.125598852 //12 7//56 1.078 Fusion_MS2.06010.06010.4 0 6.281255073 JL021317_021517_BAF45D_100B_(—) N 2.82675 0.119509153 //15 11//82 1.22425 Fusion_MS2.07641.07641.6 0 −2.795980234 JL021317_021517_BAF45D_5D_(—) P 2.7525 0.119858913 4.08E−05 //16 8//109 0.64025 Fusion_MS2.08595.08595.5 −1 4.61638348 JL021317_021517_hBAF45D_(—) N 2.273 0.130216837 1//16 19//109 1.2545 Fusion_MS2.08487.08487.5 8 ARID1A:2159- 6.935 SMARCD2:143 0 −0.475776833 JL021317_021517_BAF45D_70B_(—) NP 6.935 0.262913468 1.38E−08 5//11 22//49 4.0295 Fusion_MS2.06817.06817.4 0 3.344112174 JL021317_021517_BAF45D_100B_(—) NP 6.13625 0.213925882 5.81E−08 5//12 16//58 3.348 Fusion_MS2.06790.06790.4 0 0.373062088 JL021317_021517_BAF45D_100B_(—) N 5.452 0.225554889 3//12 18//58 2.93375 Fusion_MS2.05679.05679.4 24 BCL7B- SMARCC2 1 BCL7B:20- 6.838 SMARCC2:457 −4 14.12101384 JL021317_021517_BAF45D_100B_(—) P 6.838 0.264000154 1.01E−03 //15 12//96 3.58 Fusion_MS2.07234.07234.5 25 BCL7B- SMARCB1 1 BCL7B:20- 2.84625 SMARCB1:124 0 2.682389589 JL021317_021517_BAF45D_100B_(—) P 2.84625 0.128990959 9.63E−03 //9 8//42 2.24575 Fusion_MS2.04664.04664.4 26 ACTB- SMARCB1 1 ACTB:328- 13.2945 SMARCB1:324 −2 9.594846805 JL021317_021517_BAF45D_70B_(—) N 13.2945 0.324343116 3//9 28//202 8.16175 Fusion_MS2.17746.17746.5 −2 8.865054228 JL021317_021517_BAF45D_70B_(—) N 10.18625 0.23651551 1//9 18//147 5.58175 Fusion_MS2.17748.17748.4 27 ACTB- ACTL6A 1 ACTB:315- 5.81725 ACTL6A:242 −2 15.51294056 JL021317_021517_BAF45D_85B_(—) N 5.81725 0.208462489 //16 16//81 4.743 Fusion_MS2.10723.10723.4 2 ACTB:315- 9.57875 ACTL6A:238 −2 2.689853221 JL021317_021517_BAF45D_70B_(—) N 9.57875 0.348362519 //16 14//82 6.28125 Fusion_MS2.11596.11596.4 −2 5.436840354 JL021317_021517_BAF45D_70B_(—) N 9.01325 0.325405708 1//16 17//82 6.509 Fusion_MS2.10985.10985.4 0 1.029202713 JL021317_021517_BAF45D_70B_(—) N 8.39025 0.307639424 //16 15//82 6.1145 Fusion_MS2.10974.10974.4 −3 1.406775789 JL021317_021517_hBAF45D_(—) N 7.3855 0.280593442 //16 17//82 5.63475 Fusion_MS2.12472.12472.4 −2 1.152598331 JL021317_021517_BAF45D_70B_(—) N 7.0985 0.215324648 1//16 15//82 5.24625 Fusion_MS2.10743.10743.4 −2 9.381091949 JL021317_021517_BAF45D_70B_(—) N 4.232 0.108015671 //15 14//99 3.15575 Fusion_MS2.14139.14139.4 28 ACTB- BCL7A 1 ACTB:113- 4.606 BCL7A:47 −1 −5.768021827 JL021317_021517_BAF45D_70B_(—) P 4.606 0.104059824 1.38E−04 2//14 25//168 3.0835 Fusion_MS2.14133.14133.5 2 ACTB:50- 8.75075 BCL7A:67 −2 1.698461218 JL021317_021517_BAF45D_85B_(—) N 8.75075 0.264660961 //10 21//180 7.77425 Fusion_MS2.09738.09738.5 3 ACTB:50- 8.96525 BCL7A:15 −1 2.715746528 JL021317_021517_BAF45D_70B_(—) N 8.96525 0.222592579 //10 30//131 7.82675 Fusion_MS2.11051.11051.4 29 ACTB- BCL7C 1 ACTB:113- 7.213 BCL7C:47 −1 −1.672681621 JL021317_021517_BAF45D_70B_(—) NP 7.213 0.175539358 1.47E−07 1//14 24//167 3.68025 Fusion_MS2.15882.15882.5 30 ACTB- ACTBL2 1 ACTB:326- 8.90225 ACTBL2:292 −2 1.7145486 JL021317_021517_BAF45D_70B_(—) N 8.90225 0.24544051 //11 18//108 5.065 Fusion_MS2.18540.18540.4 −3 7.81118214 JL021317_021517_BAF45D_70B_(—) N 8.17725 0.217494514 //11 19//146 3.86375 Fusion_MS2.18109.18109.5 −2 10.9387981 JL021317_021517_BAF45D_85B_(—) N 8.107 0.219022275 //11 18//146 4.38075 Fusion_MS2.18352.18352.5 2 ACTB:68- 11.84925 ACTBL2:62 −1 12.43198901 JL021317_021517_BAF45D_D_(—) N 11.84925 0.283525752 //12 27//197 7.4265 Fusion_MS2.18843.18843.6 −1 0.222221632 JL021317_021517_BAF45D_D_(—) N 11.80675 0.28821555 //12 25//197 7.42825 Fusion_MS2.18866.18866.6 −2 7.721007183 JL021317_021517_BAF45D_D_(—) N 11.39725 0.275772167 //12 23//196 7.97225 Fusion_MS2.19828.19828.7 −3 9.94987522 JL021317_021517_BAF45D_D_(—) N 11.3535 0.299059635 //12 22//197 5.9445 Fusion_MS2.18816.18816.7 −3 0.251507875 JL021317_021517_BAF45D_D_(—) N 11.0545 0.298290587 //12 24//197 6.046 Fusion_MS2.19000.19000.7 0 8.264336646 JL021317_021517_BAF45D_5D_(—) N 7.85725 0.213431032 //13 14//183 5.09875 Fusion_MS2.16348.16348.5 −1 9.412751508 JL021317_021517_BAF45D_D_(—) N 7.436 0.17945098 //12 19//197 3.9515 Fusion_MS2.18784.18784.7 −1 15.2535106 JL021317_021517_BAF45D_85B_(—) N 6.91825 0.227648898 //13 15//134 4.872 Fusion_MS2.16497.16497.6 −1 5.99183042 JL021317_021517_BAF45D_D_(—) N 6.28825 0.153600479 //13 16//183 3.9755 Fusion_MS2.16279.16279.5 −2 2.614545704 JL021317_021517_BAF45D_D_(—) N 5.703 0.139517816 //12 20//197 3.234 Fusion_MS2.19031.19031.6 3 ACTB:68- 11.2925 ACTBL2:51 −3 8.812116283 JL021317_021517_BAF45D_D_(—) N 11.2925 0.299782314 //12 29//197 7.97725 Fusion_MS2.18463.18463.7 −2 11.98101041 JL021317_021517_BAF45D_D_(—) N 10.65325 0.243692241 //12 21//197 6.021 Fusion_MS2.18804.18804.6 −2 6.232507077 JL021317_021517_BAF45D_100B_(—) N 10.32 0.303248461 //9 19//130 7.16625 Fusion_MS2.15189.15189.6 −3 18.12981383 JL021317_021517_BAF45D_D_(—) N 9.8155 0.24101903 //12 18//196 5.7255 Fusion_MS2.19740.19740.7 −2 11.16608244 JL021317_021517_BAF45D_D_(—) N 7.6095 0.184806499 //12 15//196 4.578 Fusion_MS2.19604.19604.7 −2 10.50004161 JL021317_021517_BAF45D_85B_(—) N 7.03775 0.187116972 //9 17//177 4.14875 Fusion_MS2.15902.15902.5 −1 14.70837022 JL021317_021517_BAF45D_85B_(—) N 6.41525 0.171647781 //9 16//177 3.8505 Fusion_MS2.16444.16444.5 0 5.432568963 JL021317_021517_BAF45D_100B_(—) N 6.2345 0.172466735 //9 17//130 4.396 Fusion_MS2.15562.15562.6 −2 15.67526729 JL021317_021517_BAF45D_D_(—) N 6.16775 0.156760707 //9 16//177 3.74125 Fusion_MS2.16330.16330.5 −2 7.233478773 JL021317_021517_BAF45D_85B_(—) N 5.68075 0.182238868 //9 16//130 3.6675 Fusion_MS2.16146.16146.6 −2 13.3377001 JL021317_021517_BAF45D_85B_(—) N 5.31225 0.14921841 //9 10//130 3.22175 Fusion_MS2.16425.16425.6 −1 3.4523427 JL021317_021517_BAF45D_100B_(—) P 3.12275 0.089333734 2.70E−01 //10 5//186 0.211 Fusion_MS2.15290.15290.6 31 ACTB- SMARCA2 1 ACTB:50- 4.83925 SMARCA2:862 −3 14.28223748 JL021317_021517_BAF45D_10D_(—) N 4.83925 0.141504744 //10 13//131 3.33225 Fusion_MS2.12146.12146.7 2 ACTB:50- 4.0765 SMARCA2:846 0 3.688276756 JL021317_021517_BAF45D_100B_(—) N 4.0765 0.109708673 //11 17//176 2.7225 Fusion_MS2.15601.15601.5 3 ACTB:326- 6.22375 SMARCA2:846 0 −7.186417981 JL021317_021517_BAF45D_85B_(—) NP 6.22375 0.158248366 6.60E−05 //11 10//59 3.14075 Fusion_MS2.13729.13729.4 4 ACTB:68- 4.22375 SMARCA2:1434 0 4.504768663 JL021317_021517_BAF45D_85B_(—) N 4.22375 0.10269393 //12 12//132 1.4745 Fusion_MS2.18273.18273.4 5 ACTB:215- 5.7285 SMARCA2:437 0 17.36186692 JL021317_021517_BAF45D_50B_(—) N 5.7285 0.141163859 1//14 27//352 4.6455 Fusion_MS2.12210.12210.5 6 ACTB:291- 21.6925 SMARCA2:846 −1 −1.985100889 JL021317_021517_BAF45D_85B_(—) NP 21.6925 0.568737464 2.30E−10 //17 41//140 17.4475 Fusion_MS2.14989.14989.4 −1 −0.491051715 JL021317_021517_BAF45D_85B_(—) NP 19.7855 0.577291162 2.60E−09 1//17 42//187 15.659 Fusion_MS2.14976.14976.5 −2 4.360042589 JL021317_021517_BAF45D_100B_(—) NP 18.4035 0.546162749 1.48E−10 //17 37//187 14.8345 Fusion_MS2.14982.14982.5 −3 1.918513057 JL021317_021517_BAF45D_85B_(—) N 17.95075 0.470358191 1//17 40//186 13.523 Fusion_MS2.14311.14311.5 −3 7.105356408 JL021317_021517_BAF45D_100B_(—) NP 15.15 0.446211619 1.37E−03 //17 32//187 13.2085 Fusion_MS2.15002.15002.5 −3 3.049779176 JL021317_021517_BAF45D_85B_(—) NP 12.368 0.369001268 8.83E−10 //17 26//187 9.088 Fusion_MS2.14938.14938.5 0 −9.15633634 JL021317_021517_BAF45D_5D_(—) P 11.415 0.317953289 2.95E−06 //17 26//185 10.913 Fusion_MS2.14744.14744.5 −1 4.441429186 JL021317_021517_BAF45D_100B_(—) NP 7.657 0.178603501 2.66E−05 //17 21//140 5.62775 Fusion_MS2.14993.14993.4 −1 −4.468637077 JL021317_021517_BAF45D_10D_(—) NP 6.44125 0.226760663 4.75E−07 //17 20//187 5.23975 Fusion_MS2.14735.14735.5 −2 19.22563441 JL021317_021517_BAF45D_85B_(—) N 6.2475 0.142417507 //17 19//187 5.17625 Fusion_MS2.14436.14436.5 −1 9.166951198 JL021317_021517_BAF45D_85B_(—) N 5.634 0.119943796 //17 21//139 3.984 Fusion_MS2.14323.14323.4 32 SMARCB1- SMARCD2 1 SMARCB1:70- 5.767 SMARCD2:168 −2 11.18136857 JL021317_021517_BAF45D_85B_(—) N 5.767 0.239403877 //9 10//45 2.777 Fusion_MS2.05086.05086.4 2 SMARCB1:45- 3.36075 SMARCD2:514 −1 2.064363408 JL021317_021517_BAF45D_5D_(—) N 3.36075 0.178166251 //11 9//51 1.55875 Fusion_MS2.07860.07860.4 33 SMARCB1- SMARCD3 1 SMARCB1:108- 11.52025 SMARCD3:417 −1 12.46901164 JL021317_021517_BAF45D_D_(—) N 11.52025 0.330486108 //3 33//227 10.421 Fusion_MS2.14185.14185.5 34 SMARCB1- SMARCC1 1 SMARCB1:364- 8.93275 SMARCC1:948 0 0.51224363 JL021317_021517_BAF45D_5D_(—) N 8.93275 0.39164986 //15 22//88 7.87475 Fusion_MS2.10459.10459.4 0 4.550646567 JL021317_021517_BAF45D_85B_(—) N 8.61975 0.462892356 //15 22//84 7.59875 Fusion_MS2.12438.12438.4 −1 1.037875887 JL021317_021517_BAF45D_5D_(—) N 5.529 0.314693076 //15 14//113 4.48 Fusion_MS2.10461.10461.5 0 0.049604501 JL021317_021517_BAF45D_5D_(—) N 5.20575 0.290694103 //15 14//113 4.18675 Fusion_MS2.10468.10468.5 −3 14.83311938 JL021317_021517_BAF45D_100B_(—) N 4.095 0.207100592 //15 14//114 3.045 Fusion_MS2.08780.08780.5 2 SMARCB1:364- 4.9765 SMARCC1:317 0 1.326765075 JL021317_021517_BAF45D_D_(—) P 4.9765 0.220486919 8.97E−06 //11 14//56 4.6 Fusion_MS2.02305.02305.5 3 SMARCB1:45- 5.31525 SMARCC1:199 0 −4.732268788 JL021317_021517_BAF45D_100B_(—) NP 5.31525 0.185925913 3.89E−06 //13 9//65 2.79725 Fusion_MS2.06205.06205.4 4 SMARCB1:45- 4.2565 SMARCC1:740 0 −1.14575409 JL021317_021517_BAF45D_85B_(—) NP 4.2565 0.217401297 2.31E−02 //8 6//36 3.0055 Fusion_MS2.04813.04813.4 35 SMARCB1- SMARCC2 1 SMARCB1:363- 5.2025 SMARCC2:622 0 7.503178819 JL021317_021517_BAF45D_85B_(—) P 5.2025 0.116530407 1.68E−04 //15 15//138 3.264 Fusion_MS2.23289.23289.4 36 ACTL6A- SMARCA4 1 ACTL6A:379- 10.077 SMARCA4:1414 −1 −1.908458435 JL021317_021517_BAF45D_100B_(—) NP 10.077 0.354998943 9.15E−05 1//17 19//125 7.03925 Fusion_MS2.06243.06243.5 2 ACTL6A:379- 5.11325 SMARCA4:1390 −2 2.427955125 JL021317_021517_BAF45D_5D_(—) N 5.11325 0.137751047 //13 9//147 1.88175 Fusion_MS2.13077.13077.5 3 ACTL6A:379- 6.156 SMARCA4:835 0 2.847664548 JL021317_021517_BAF45D_85B_(—) NP 6.156 0.235825927 1.58E−05 1//13 15//93 3.34875 Fusion_MS2.08389.08389.5 −1 −3.149194553 JL021317_021517_BAF45D_70B_(—) NP 5.18675 0.191033479 3.32E−05 1//12 11//67 3.16575 Fusion_MS2.09244.09244.4 −1 2.626487867 JL021317_021517_BAF45D_85B_(—) P 4.15175 0.151897924 1.55E−05 //13 7//75 0.8565 Fusion_MS2.08407.08407.4 4 ACTL6A:89- 3.37125 SMARCA4:1140 0 4.129501088 JL021317_021517_BAF45D_85B_(—) P 3.37125 0.072387138 8.38E−03 //8 7//235 1.61975 Fusion_MS2.19836.19836.6 37 ACTL6A- BCL7C 1 ACTL6A:303- 4.30875 BCL7C:33 −2 1.527704309 JL021317_021517_BAF45D_70B_(—) N 4.30875 0.136206297 //16 11//81 2.1875 Fusion_MS2.17089.17089.4 38 ACTL6A- SMARCA2 1 ACTL6A:371- 7.56625 SMARCA2:1434 −2 −4.054861835 JL021317_021517_BAF45D_70B_(—) NP 7.56625 0.265850916 2.32E−07 2//12 19//67 5.7475 Fusion_MS2.13452.13452.4 −1 0.270508217 JL021317_021517_BAF45D_70B_(—) N 4.36775 0.148029214 //12 12//67 3.315 Fusion_MS2.13487.13487.4 2 ACTL6A:371- 8.26275 SMARCA2:1207 −3 −0.405056214 JL021317_021517_BAF45D_70B_(—) NP 8.26275 0.231058011 5.23E−06 //17 21//91 5.6215 Fusion_MS2.09419.09419.4 −1 5.188975468 JL021317_021517_BAF45D_85B_(—) NP 6.9775 0.21743195 1.26E−04 //17 21//91 5.1345 Fusion_MS2.09819.09819.4 −1 2.803619252 JL021317_021517_BAF45D_85B_(—) NP 5.94 0.182895851 4.24E−03 //17 15//120 3.608 Fusion_MS2.09820.09820.5 −1 1.66969391 JL021317_021517_BAF45D_70B_(—) NP 4.66875 0.166316371 1.42E−03 //17 20//120 3.02775 Fusion_MS2.09407.09407.5 3 ACTL6A:371- 4.16575 SMARCA2:95 −2 17.84226752 JL021317_021517_BAF45D_70B_(—) N 4.16575 0.106727899 1//17 10//96 2.0605 Fusion_MS2.26635.26635.4 4 ACTL6A:379- 14.90375 SMARCA2:460 −1 −1.495937263 JL021317_021517_BAF45D_D_(—) NP 14.90375 0.396039275 5.00E−07 //11 35//156 6.66625 Fusion_MS2.12934.12934.6 −2 3.345041902 JL021317_021517_BAF45D_70B_(—) N 14.883 0.420643557 //12 35//139 6.81 Fusion_MS2.16053.16053.5 −3 2.069020282 JL021317_021517_BAF45D_70B_(—) N 14.68675 0.375159651 //12 25//104 5.58375 Fusion_MS2.16087.16087.4 −2 10.98324475 JL021317_021517_BAF45D_10D_(—) N 14.00425 0.438091439 1//15 33//124 11.2665 Fusion_MS2.13228.13228.5 0 3.056534352 JL021317_021517_BAF45D_70B_(—) N 13.787 0.392238865 //12 33//139 6.02375 Fusion_MS2.16060.16060.5 −2 4.755931732 JL021317_021517_BAF45D_10D_(—) NP 13.5135 0.417276517 8.07E−11 //15 32//124 10.23625 Fusion_MS2.13234.13234.5 −1 1.610386387 JL021317_021517_BAF45D_D_(—) N 12.52925 0.326635557 //11 29//115 8.81425 Fusion_MS2.12920.12920.7 −3 1.199392171 JL021317_021517_BAF45D_100B_(—) N 12.35075 0.355217935 //12 29//146 4.55375 Fusion_MS2.14901.14901.5 0 3.404468069 JL021317_021517_BAF45D_85B_(—) N 12.215 0.321295176 //12 26//104 8.55125 Fusion_MS2.15303.15303.6 0 −0.08097327 JL021317_021517_BAF45D_D_(—) NP 12.029 0.349751403 1.02E−08 //11 21//156 2.73325 Fusion_MS2.12924.12924.5 −2 4.292066456 JL021317_021517_BAF45D_100B_(—) N 11.997 0.311440513 //12 22//139 3.754 Fusion_MS2.16043.16043.5 −3 4.365199206 JL021317_021517_BAF45D_85B_(—) N 11.85675 0.302835068 1//12 29//104 8.03325 Fusion_MS2.15328.15328.6 −1 5.299766968 JL021317_021517_BAF45D_85B_(—) N 11.7225 0.335321376 //12 24//146 4.2505 Fusion_MS2.14883.14883.5 −3 2.900863353 JL021317_021517_BAF45D_D_(—) N 11.371 0.280301723 //11 29//115 8.424 Fusion_MS2.12374.12374.7 0 3.796816768 JL021317_021517_BAF45D_100B_(—) N 11.06725 0.301716147 //12 22//139 4.149 Fusion_MS2.16047.16047.5 −3 0.776956865 JL021317_021517_BAF45D_D_(—) N 10.369 0.310756136 //12 15//139 3.1315 Fusion_MS2.15894.15894.5 −1 −0.651898588 JL021317_021517_BAF45D_100B_(—) NP 10.25625 0.345444594 2.44E−11 //15 19//124 2.70125 Fusion_MS2.14067.14067.5 −2 10.32311851 JL021317_021517_BAF45D_85B_(—) N 10.20475 0.273461157 1//12 27//139 7.72925 Fusion_MS2.15348.15348.5 −2 4.962342186 JL021317_021517_BAF45D_100B_(—) N 9.9705 0.263741932 4//12 22//109 4.0475 Fusion_MS2.14440.14440.6 −2 6.983752007 JL021317_021517_BAF45D_100B_(—) N 9.91675 0.270760809 //12 23//136 2.65325 Fusion_MS2.14133.14133.5 −1 1.798904689 JL021317_021517_hBAF45D_(—) N 9.879 0.261837554 //12 14//139 2.8065 Fusion_MS2.16854.16854.5 0 1.395381203 JL021317_021517_BAF45D_100B_(—) N 9.66125 0.260190135 3//12 27//109 3.46625 Fusion_MS2.14905.14905.6 −3 4.963808878 JL021317_021517_BAF45D_100B_(—) N 9.62825 0.275628364 //12 22//109 3.509 Fusion_MS2.14953.14953.6 −1 1.687005538 JL021317_021517_BAF45D_10D_(—) NP 9.44 0.259301479 1.17E−06 //12 14//143 1.56375 Fusion_MS2.13062.13062.5 −3 11.38246053 JL021317_021517_BAF45D_D_(—) N 9.29525 0.250542446 //11 15//115 3.63025 Fusion_MS2.12085.12085.6 −3 10.34369725 JL021317_021517_BAF45D_D_(—) N 8.89375 0.233993712 //11 22//156 3.62425 Fusion_MS2.13241.13241.5 −1 1.290040502 JL021317_021517_BAF45D_100B_(—) N 8.82575 0.254876904 1//12 22//139 6.25625 Fusion_MS2.15355.15355.5 −1 3.339556477 JL021317_021517_BAF45D_100B_(—) N 8.70625 0.270699894 //12 15//146 1.865 Fusion_MS2.14456.14456.5 −1 2.217528052 JL021317_021517_BAF45D_100B_(—) N 8.6815 0.240901838 //12 10//139 1.5975 Fusion_MS2.15156.15156.5 0 −1.706189794 JL021317_021517_BAF45D_D_(—) NP 8.5575 0.258538649 4.89E−06 //11 19//156 2.5665 Fusion_MS2.13017.13017.6 −1 −4.199184094 JL021317_021517_BAF45D_D_(—) NP 8.462 0.227405875 3.31E−06 //11 23//156 3.60575 Fusion_MS2.13217.13217.6 −2 2.834759659 JL021317_021517_BAF45D_5D_(—) N 8.421 0.207682348 //12 22//109 5.30225 Fusion_MS2.14113.14113.6 −3 3.520087411 JL021317_021517_BAF45D_D_(—) NP 8.37075 0.261500133 9.35E−09 //11 18//156 2.38075 Fusion_MS2.13516.13516.6 −3 9.947224404 JL021317_021517_BAF45D_D_(—) N 8.33225 0.239935785 //11 19//115 5.09575 Fusion_MS2.11474.11474.7 −3 6.121476403 JL021317_021517_BAF45D_D_(—) P 8.14725 0.248497834 2.20E−04 //11 11//156 2.04875 Fusion_MS2.12121.12121.5 0 0.523212545 JL021317_021517_BAF45D_10D_(—) NP 7.99975 0.220530669 8.97E−05 1//12 18//143 2.3705 Fusion_MS2.13060.13060.6 −2 2.802490016 JL021317_021517_BAF45D_D_(—) NP 7.89 0.227043826 3.48E−05 //11 19//156 2.3635 Fusion_MS2.13256.13256.5 0 0.360115011 JL021317_021517_BAF45D_100B_(—) N 7.85725 0.235560852 1//12 14//109 2.724 Fusion_MS2.14459.14459.6 −3 0.790072931 JL021317_021517_BAF45D_D_(—) NP 7.77 0.240226314 3.92E−04 //11 14//156 1.91625 Fusion_MS2.12911.12911.5 −1 2.180500907 JL021317_021517_BAF45D_100B_(—) N 7.7305 0.242145654 //12 17//104 4.8655 Fusion_MS2.15375.15375.6 −3 8.354074524 JL021317_021517_BAF45D_5D_(—) N 7.687 0.217740451 1//12 23//102 4.695 Fusion_MS2.13318.13318.6 0 18.10533526 JL021317_021517_BAF45D_10D_(—) N 7.5285 0.211876451 1//15 21//94 4.04425 Fusion_MS2.13231.13231.6 −1 −1.62287688 JL021317_021517_BAF45D_D_(—) NP 7.17525 0.179842095 2.24E−08 //11 19//156 2.86225 Fusion_MS2.12393.12393.6 −1 2.315721796 JL021317_021517_BAF45D_D_(—) N 7.1045 0.208483728 //11 19//115 4.3285 Fusion_MS2.12344.12344.7 −3 −3.868787258 JL021317_021517_BAF45D_D_(—) NP 6.48525 0.219764487 1.77E−04 //11 16//156 1.86625 Fusion_MS2.13469.13469.6 −1 −4.738705413 JL021317_021517_BAF45D_5D_(—) P 6.40875 0.169563837 1.10E−02 //12 8//143 1.3125 Fusion_MS2.12246.12246.6 −4 −0.774710783 JL021317_021517_BAF45D_100B_(—) P 6.13675 0.19554065 1.45E−05 //15 14//124 2.12725 Fusion_MS2.14372.14372.5 −2 6.751702018 JL021317_021517_BAF45D_D_(—) N 6.046 0.171102715 //11 22//115 4.553 Fusion_MS2.12671.12671.7 −2 −5.731971954 JL021317_021517_BAF45D_10D_(—) NP 6.008 0.173983551 2.62E−02 //12 13//143 1.87 Fusion_MS2.13311.13311.5 −2 0.492980598 JL021317_021517_BAF45D_D_(—) NP 5.77475 0.196336592 5.41E−06 //11 15//115 1.8015 Fusion_MS2.12962.12962.4 −3 0.08370266 JL021317_021517_BAF45D_D_(—) NP 5.728 0.180950877 2.34E−03 //11 16//156 2.5655 Fusion_MS2.12698.12698.6 −2 1.222581696 JL021317_021517_BAF45D_5D_(—) N 5.628 0.226383218 //12 10//104 2.2375 Fusion_MS2.15152.15152.6 0 3.866293221 JL021317_021517_BAF45D_5D_(—) N 5.59425 0.184900266 //12 13//109 2.79475 Fusion_MS2.13646.13646.6 −2 10.43183781 JL021317_021517_BAF45D_100B_(—) N 5.58425 0.1578899 //12 14//109 2.66075 Fusion_MS2.13243.13243.6 −3 9.101725643 JL021317_021517_BAF45D_85B_(—) N 5.57525 0.15995553 //12 20//109 2.22275 Fusion_MS2.15179.15179.6 −3 16.0229796 JL021317_021517_BAF45D_10D_(—) N 5.494 0.170351307 //11 14//115 2.99675 Fusion_MS2.12356.12356.7 −2 16.22983683 JL021317_021517_BAF45D_10D_(—) N 5.2655 0.172165184 1//12 16//107 1.74625 Fusion_MS2.13351.13351.6 −3 −3.496762045 JL021317_021517_BAF45D_10D_(—) P 4.90075 0.148943122 1.77E−03 //12 12//143 1.45225 Fusion_MS2.13325.13325.6 −2 −5.658239896 JL021317_021517_BAF45D_10D_(—) P 4.50125 0.154817796 9.25E−05 //15 15//124 2.934 Fusion_MS2.13571.13571.6 −1 1.676654843 JL021317_021517_BAF45D_5D_(—) N 4.396 0.131766681 1//12 12//102 1.2215 Fusion_MS2.13331.13331.7 −2 −0.379098571 JL021317_021517_BAF45D_D_(—) P 4.03525 0.118997066 1.21E−03 //11 11//156 0.759 Fusion_MS2.11494.11494.6 −3 −1.633846991 JL021317_021517_BAF45D_10D_(—) P 3.917 0.15698455 2.10E−01 //12 8//143 1.081 Fusion_MS2.13159.13159.6 −3 −3.339887504 JL021317_021517_BAF45D_10D_(—) P 3.83925 0.125551849 2.12E−03 //11 11//156 2.0815 Fusion_MS2.12327.12327.5 5 ACTL6A:379- 10.68425 SMARCA2:463 0 −1.120208572 JL021317_021517_BAF45D_85B_(—) NP 10.68425 0.421802211 3.75E−11 1//12 25//68 8.3555 Fusion_MS2.09784.09784.4 −1 0.831103221 JL021317_021517_hBAF45D_(—) NP 8.64075 0.283791773 1.59E−07 //12 20//68 6.773 Fusion_MS2.10139.10139.4 −1 −0.15490757 JL021317_021517_BAF45D_5D_(—) NP 8.09075 0.276134812 1.40E−07 //13 18//94 5.0445 Fusion_MS2.08944.08944.5 −2 2.237840584 JL021317_021517_BAF45D_5D_(—) NP 7.8855 0.270988694 1.08E−09 //13 16//76 3.8175 Fusion_MS2.08946.08946.4 0 −0.052295468 JL021317_021517_BAF45D_85B_(—) NP 7.50525 0.246178699 1.61E−05 2//12 22//83 4.97425 Fusion_MS2.09766.09766.5 −1 −0.149861057 JL021317_021517_hBAF45D_(—) NP 6.2435 0.238260604 1.40E−06 //12 12//83 4.30025 Fusion_MS2.10149.10149.5 −3 11.35900619 JL021317_021517_BAF45D_85B_(—) N 5.95825 0.19641827 1//12 17//83 3.91775 Fusion_MS2.10043.10043.5 0 −0.756842117 JL021317_021517_BAF45D_5D_(—) NP 5.66025 0.183078889 5.11E−10 //13 13//94 3.002 Fusion_MS2.08955.08955.6 −2 2.862476521 JL021317_021517_hBAF45D_(—) NP 5.45075 0.198158651 1.62E−06 //12 10//83 3.876 Fusion_MS2.10135.10135.5 −1 11.21124191 JL021317_021517_BAF45D_85B_(—) N 5.21775 0.172479051 2//12 14//83 3.50475 Fusion_MS2.10045.10045.5 −2 4.115494111 JL021317_021517_BAF45D_D_(—) P 4.7335 0.16442615 1.09E−04 //13 10//94 3.95175 Fusion_MS2.08905.08905.5 0 −0.866641185 JL021317_021517_BAF45D_5D_(—) NP 4.726 0.171723411 7.11E−04 //13 10//94 3.804 Fusion_MS2.09093.09093.5 −1 11.14039529 JL021317_021517_BAF45D_100B_(—) N 4.0545 0.141666667 //13 9//94 1.55725 Fusion_MS2.09352.09352.5 −2 0.99800836 JL021317_021517_BAF45D_D_(—) N 3.846 0.121021413 //9 14//117 1.6295 Fusion_MS2.12659.12659.6 −1 12.86172059 JL021317_021517_BAF45D_5D_(—) N 3.415 0.124591839 //13 9//94 1.27375 Fusion_MS2.09306.09306.5 −2 10.87085612 JL021317_021517_BAF45D_5D_(—) N 2.61375 0.109104001 //13 8//76 1.22675 Fusion_MS2.09355.09355.6 6 ACTL6A:379- 8.431 SMARCA2:1434 −1 −2.47485181 JL021317_021517_BAF45D_70B_(—) NP 8.431 0.247145558 8.11E−08 1//12 16//67 6.16875 Fusion_MS2.14195.14195.4 7 ACTL6A:379- 8.99975 SMARCA2:846 −1 2.513301148 JL021317_021517_BAF45D_100B_(—) NP 8.99975 0.314440194 1.03E−05 1//11 12//75 4.43725 Fusion_MS2.12591.12591.5 8 ACTL6A:240- 3.25875 SMARCA2:1460 −2 12.18761415 JL021317_021517_BAF45D_D_(—) N 3.25875 0.121413934 1//10 10//65 1.35875 Fusion_MS2.08702.08702.5 39 ACTL6A- ARID1A 1 ACTL6A:413- 6.711 ARID1A:1804 −1 7.994927048 JL021317_021517_BAF45D_85B_(—) N 6.711 0.154095199 //7 21//188 5.195 Fusion_MS2.21847.21847.6 2 ACTL6A:421- 15.9915 ARID1A:2243 −1 5.189151172 JL021317_021517_BAF45D_5D_(—) N 15.9915 0.463851141 //11 25//121 10.00425 Fusion_MS2.14364.14364.4 −2 3.547839494 JL021317_021517_BAF45D_10D_(—) N 15.90625 0.503099647 //11 24//121 9.4565 Fusion_MS2.14333.14333.4 −3 4.343659612 JL021317_021517_hBAF45D_(—) N 13.698 0.368181268 //11 25//121 8.54675 Fusion_MS2.15169.15169.4 −2 −2.307196107 JL021317_021517_BAF45D_85B_(—) NP 13.468 0.362023547 1.32E−08 //11 20//121 7.3485 Fusion_MS2.13460.13460.4 −3 12.83568315 JL021317_021517_BAF45D_D_(—) N 13.2835 0.361677217 //11 23//121 7.901 Fusion_MS2.14439.14439.4 0 3.117793132 JL021317_021517_BAF45D_5D_(—) N 12.97 0.411680686 //11 20//121 7.0165 Fusion_MS2.13325.13325.4 −1 1.18283221 JL021317_021517_hBAF45D_(—) N 12.94375 0.339650739 //11 26//121 8.1035 Fusion_MS2.15175.15175.4 −3 1.847764526 JL021317_021517_BAF45D_10D_(—) NP 12.27775 0.3709234 2.91E−06 //11 23//164 8.775 Fusion_MS2.13291.13291.5 −2 12.83928016 JL021317_021517_BAF45D_5D_(—) N 11.962 0.385734094 //11 19//121 6.1715 Fusion_MS2.13351.13351.4 −3 −3.368299836 JL021317_021517_BAF45D_D_(—) NP 11.9155 0.337946878 2.30E−04 //11 24//164 8.89575 Fusion_MS2.13337.13337.5 −2 5.616822637 JL021317_021517_BAF45D_D_(—) N 11.871 0.326790728 //11 23//164 8.84975 Fusion_MS2.13340.13340.5 −1 5.098145975 JL021317_021517_BAF45D_D_(—) NP 11.5135 0.364212957 6.94E−10 //11 19//121 5.29975 Fusion_MS2.13332.13332.4 −3 −1.954560768 JL021317_021517_BAF45D_D_(—) NP 11.4335 0.322693084 2.98E−09 //11 18//121 5.5105 Fusion_MS2.13353.13353.4 −2 9.44731513 JL021317_021517_BAF45D_D_(—) NP 11.23775 0.328210108 1.18E−11 //11 20//121 5.689 Fusion_MS2.13336.13336.4 −3 14.84076531 JL021317_021517_BAF45D_10D_(—) N 11.13025 0.33693826 //11 19//121 5.96275 Fusion_MS2.14368.14368.4 −3 0.451916317 JL021317_021517_BAF45D_5D_(—) NP 10.9475 0.308371595 5.36E−05 //11 21//164 7.71175 Fusion_MS2.13352.13352.5 0 0.866521929 JL021317_021517_BAF45D_100B_(—) NP 10.55425 0.280742938 3.23E−05 //11 18//121 5.71225 Fusion_MS2.13525.13525.4 0 6.59520209 JL021317_021517_BAF45D_D_(—) N 10.2895 0.253286235 //11 22//121 6.1955 Fusion_MS2.14445.14445.4 −2 15.42409221 JL021317_021517_BAF45D_D_(—) N 10.03325 0.281777459 //11 17//121 5.34275 Fusion_MS2.13360.13360.4 −1 2.038775334 JL021317_021517_BAF45D_85B_(—) NP 9.372 0.233116932 8.83E−03 //11 22//164 6.53025 Fusion_MS2.13467.13467.5 0 6.831256717 JL021317_021517_BAF45D_D_(—) N 9.20275 0.250667339 //11 22//121 5.564 Fusion_MS2.14457.14457.4 −4 14.03157451 JL021317_021517_BAF45D_10D_(—) P 8.057 0.290939949 3.10E−11 //11 13//121 3.87375 Fusion_MS2.13299.13299.4 −3 3.794394283 JL021317_021517_BAF45D_D_(—) N 7.5945 0.204855351 //11 19//121 5.35675 Fusion_MS2.14483.14483.4 −3 5.447583592 JL021317_021517_BAF45D_85B_(—) NP 7.22425 0.159525019 1.54E−02 //11 17//164 5.405 Fusion_MS2.13678.13678.5 −1 −7.596726162 JL021317_021517_BAF45D_10D_(—) NP 6.95775 0.257298966 2.51E−09 //11 13//121 2.86675 Fusion_MS2.13278.13278.4 −1 4.538718469 JL021317_021517_BAF45D_5D_(—) N 5.65525 0.177427957 //11 15//121 2.94675 Fusion_MS2.13372.13372.4 −2 1.896248217 JL021317_021517_BAF45D_85B_(—) N 4.668 0.107730121 //11 13//121 2.00675 Fusion_MS2.14755.14755.4 3 ACTL6A:371- 5.28525 ARID1A:1047 −1 5.401656095 JL021317_021517_BAF45D_70B_(—) NP 5.28525 0.185236134 3.29E−08 2//13 15//62 2.97775 Fusion_MS2.10250.10250.4 4 ACTL6A:371- 7.18675 ARID1A:1201 −1 1.739119002 JL021317_021517_BAF45D_50B_(—) NP 7.18675 0.192071786 2.56E−04 //15 20//129 5.712 Fusion_MS2.10930.10930.4 5 ACTL6A:371- 7.7915 ARID1A:1230 −1 −0.070731053 JL021317_021517_BAF45D_70B_(—) NP 7.7915 0.253588283 3.93E−05 4//16 21//79 4.9775 Fusion_MS2.09986.09986.4 −2 19.90569983 JL021317_021517_BAF45D_70B_(—) N 6.1905 0.185122608 4//16 17//79 3.5945 Fusion_MS2.09970.09970.4 40 ACTL6A- SMARCE1 1 ACTL6A:371- 10.64275 SMARCE1:146 −1 2.227729489 JL021317_021517_BAF45D_85B_(—) NP 10.64275 0.316136937 4.05E−06 3//17 29//133 8.48775 Fusion_MS2.11810.11810.5 −1 −1.723468083 JL021317_021517_BAF45D_85B_(—) NP 9.562 0.273090764 7.98E−05 //17 25//102 7.65525 Fusion_MS2.11799.11799.4 2 ACTL6A:379- 19.88975 SMARCE1:146 −2 3.17964002 JL021317_021517_BAF45D_85B_(—) NP 19.88975 0.633936255 1.82E−15 5//17 35//101 12.1325 Fusion_MS2.12863.12863.4 −2 0.436092155 JL021317_021517_BAF45D_100B_(—) NP 14.5355 0.473060713 3.80E−08 //17 28//130 12.66675 Fusion_MS2.12138.12138.5 −2 2.214835455 JL021317_021517_BAF45D_5D_(—) NP 13.37675 0.426214752 1.32E−05 //17 26//130 11.9125 Fusion_MS2.11989.11989.5 −1 3.636184238 JL021317_021517_BAF45D_85B_(—) NP 12.283 0.393056 6.22E−09 4//17 30//132 7.98475 Fusion_MS2.12862.12862.5 −3 7.712789418 JL021317_021517_BAF45D_85B_(—) NP 12.122 0.361026313 7.65E−07 1//17 18//101 5.6535 Fusion_MS2.12899.12899.4 −1 0.246060819 JL021317_021517_BAF45D_100B_(—) NP 9.60125 0.321456073 2.29E−06 1//17 21//130 7.556 Fusion_MS2.12170.12170.6 −1 14.9275534 JL021317_021517_BAF45D_85B_(—) N 8.75975 0.275385897 2//17 23//132 6.6115 Fusion_MS2.13127.13127.5 −2 1.702936284 JL021317_021517_BAF45D_5D_(—) NP 8.2675 0.311787001 9.52E−10 //17 20//130 6.0485 Fusion_MS2.12016.12016.6 −3 −2.628457645 JL021317_021517_BAF45D_85B_(—) NP 8.08375 0.251712595 5.84E−05 4//17 22//101 5.072 Fusion_MS2.13131.13131.4 −2 −0.072120218 JL021317_021517_BAF45D_100B_(—) P 6.989 0.226206852 4.67E−02 2//17 20//130 6.35475 Fusion_MS2.12467.12467.5 −2 12.07385591 JL021317_021517_BAF45D_85B_(—) N 5.5735 0.155734384 //17 13//101 3.6715 Fusion_MS2.13159.13159.4 3 ACTL6A:379- 11.868 SMARCE1:92 0 13.29569153 JL021317_021517_BAF45D_100B_(—) N 11.868 0.321090865 2//13 13//115 2.6315 Fusion_MS2.14888.14888.4 −2 12.9573759 JL021317_021517_BAF45D_D_(—) N 10.52425 0.306592574 //13 11//155 1.8575 Fusion_MS2.13740.13740.5 −1 15.09710124 JL021317_021517_BAF45D_10D_(—) N 7.08725 0.203729788 1//13 14//155 2.0585 Fusion_MS2.14054.14054.5 4 ACTL6A:379- 4.35525 SMARCE1:305 −1 1.298622068 JL021317_021517_BAF45D_D_(—) N 4.35525 0.121529425 //12 11//66 2.866 Fusion_MS2.12704.12704.4 5 ACTL6A:379- 4.571 SMARCE1:240 0 19.61568775 JL021317_021517_BAF45D_10D_(—) N 4.571 0.147914442 //9 10//124 2.63975 Fusion_MS2.15565.15565.6 6 ACTL6A:303- 9.0565 SMARCE1:92 −3 2.267929858 JL021317_021517_BAF45D_70B_(—) NP 9.0565 0.289451396 1.84E−06 //14 14//81 5.59275 Fusion_MS2.17456.17456.4 41 ACTL6A- SMARCC2 1 ACTL6A:242- 4.53575 SMARCC2:312 −2 0.914439565 JL021317_021517_BAF45D_70B_(—) N 4.53575 0.124051308 //15 10//74 2.14175 Fusion_MS2.11039.11039.4 −2 2.599970034 JL021317_021517_hBAF45D_(—) N 4.13975 0.139599386 //14 9//64 1.9615 Fusion_MS2.11876.11876.4 2 ACTL6A:242- 3.435 SMARCC2:694 −2 10.18365229 JL021317_021517_BAF45D_70B_(—) N 3.435 0.102678305 //16 8//102 1.0985 Fusion_MS2.16307.16307.4 3 ACTL6A:194- 10.5145 SMARCC2:940 −3 5.130951791 JL021317_021517_BAF45D_85B_(—) N 10.5145 0.21374845 //3 27//252 8.44025 Fusion_MS2.17453.17453.6 −3 3.469489627 JL021317_021517_BAF45D_5D_(—) N 7.989 0.175959474 //3 21//252 5.68475 Fusion_MS2.17235.17235.6 −4 −4.54613313 JL021317_021517_BAF45D_85B_(—) P 6.99575 0.151616783 2.31E−02 //3 23//356 4.68725 Fusion_MS2.16545.16545.6 −2 4.675630235 JL021317_021517_BAF45D_10D_(—) P 6.081 0.15155329 2.72E−06 //3 20//356 4.6645 Fusion_MS2.16330.16330.6 −3 2.83127756 JL021317_021517_BAF45D_100B_(—) P 5.841 0.128727273 2.33E−04 //3 19//356 4.15925 Fusion_MS2.16520.16520.6 4 ACTL6A:379- 6.4515 SMARCC2:828 0 11.93458435 JL021317_021517_BAF45D_10D_(—) N 6.4515 0.212713695 2//14 12//159 1.0865 Fusion_MS2.13362.13362.5 −1 13.31924491 JL021317_021517_BAF45D_10D_(—) N 6.37475 0.196336449 1//14 10//153 1.2875 Fusion_MS2.12296.12296.5 −1 15.41490078 JL021317_021517_BAF45D_100B_(—) N 6.102 0.149990782 1//14 11//115 2.0025 Fusion_MS2.14428.14428.4 −3 1.951513942 JL021317_021517_BAF45D_10D_(—) N 5.1685 0.140273028 2//14 10//115 1.57125 Fusion_MS2.13996.13996.6 5 ACTL6A:379- 9.60975 SMARCC2:885 0 9.736490766 JL021317_021517_BAF45D_10D_(—) N 9.60975 0.260638731 //16 21//137 7.108 Fusion_MS2.13894.13894.5 42 ACTL6A- SMARCD1 1 ACTL6A:421- 10.176 SMARCD1:327 −1 1.26360025 JL021317_021517_BAF45D_85B_(—) N 10.176 0.356602187 1//14 19//66 8.5 Fusion_MS2.06214.06214.4 0 2.669451814 JL021317_021517_hBAF45D_(—) N 8.7235 0.392164355 //14 16//66 7.08 Fusion_MS2.06276.06276.4 0 1.569101456 JL021317_021517_BAF45D_100B_(—) NP 8.3515 0.321935894 1.46E−08 //15 17//93 4.53125 Fusion_MS2.05158.05158.5 −1 10.15867163 JL021317_021517_BAF45D_100B_(—) N 8.11925 0.264337224 1//15 17//71 5.97575 Fusion_MS2.05169.05169.4 0 0.002493605 JL021317_021517_BAF45D_100B_(—) NP 7.69325 0.363454906 6.27E−09 //15 11//93 3.565 Fusion_MS2.05181.05181.6 0 2.531065774 JL021317_021517_BAF45D_85B_(—) N 7.171 0.290259254 //14 14//86 3.43375 Fusion_MS2.06221.06221.5 0 3.680837802 JL021317_021517_BAF45D_100B_(—) N 6.33125 0.269037097 //15 15//99 1.5115 Fusion_MS2.05551.05551.5 0 −1.981335947 JL021317_021517_BAF45D_100B_(—) NP 6.26025 0.273075245 2.16E−07 //15 12//93 3.30225 Fusion_MS2.05257.05257.5 0 2.791196229 JL021317_021517_BAF45D_100B_(—) N 3.502 0.190093636 //15 8//75 1.173 Fusion_MS2.05557.05557.4 2 ACTL6A:194- 8.9475 SMARCD1:353 −1 1.213101373 JL021317_021517_BAF45D_70B_(—) N 8.9475 0.196025808 //3 26//252 7.56975 Fusion_MS2.16672.16672.6 3 ACTL6A:135- 15.679 SMARCD1:327 −2 0.655082289 JL021317_021517_BAF45D_10D_(—) NP 15.679 0.457627366 3.58E−10 1//14 33//165 12.98 Fusion_MS2.16370.16370.5 −2 −1.835122917 JL021317_021517_BAF45D_10D_(—) NP 14.22025 0.413770277 5.96E−15 1//14 32//165 11.596 Fusion_MS2.16382.16382.6 −3 16.28002547 JL021317_021517_BAF45D_10D_(—) N 9.6965 0.313239974 //14 22//165 8.1525 Fusion_MS2.16496.16496.5 −1 2.504656604 JL021317_021517_BAF45D_10D_(—) NP 9.0325 0.280251319 2.88E−08 //14 21//165 7.732 Fusion_MS2.16486.16486.5 −2 1.322143303 JL021317_021517_BAF45D_5D_(—) N 8.6845 0.290087683 //14 26//165 7.70225 Fusion_MS2.14849.14849.5 −1 18.4584135 JL021317_021517_BAF45D_5D_(—) N 7.4395 0.239767307 //14 18//165 5.908 Fusion_MS2.14823.14823.5 −3 −3.942156938 JL021317_021517_BAF45D_10D_(—) NP 4.9195 0.182619671 1.94E−05 //14 15//123 2.972 Fusion_MS2.16404.16404.4 43 ACTL6A- ARID1B 1 ACTL6A:135- 5.14025 ARID1B:1566 −1 2.202086318 JL021317_021517_BAF45D_D_(—) N 5.14025 0.107469162 //14 19//161 3.05875 Fusion_MS2.18326.18326.5 2 ACTL6A:371- 9.105 ARID1B:1360 −3 −3.28437312 JL021317_021517_BAF45D_100B_(—) NP 9.105 0.214505318 1.08E−04 2//14 36//321 7.349 Fusion_MS2.09303.09303.6 −3 7.922621144 JL021317_021517_BAF45D_85B_(—) NP 8.251 0.208529728 3.59E−05 1//14 34//310 6.1005 Fusion_MS2.09771.09771.6 3 ACTL6A:371- 2.1095 ARID1B:1372 −1 3.873018546 JL021317_021517_BAF45D_85B_(—) P 2.1095 0.056807777 9.89E−04 1//14 9//64 0.778 Fusion_MS2.09032.09032.4 44 ACTL6A- DPF2 1 ACTL6A:242- 2.396 DPF2:285 −2 9.548081055 JL021317_021517_BAF45D_85B_(—) P 2.396 0.093751223 8.02E−02 //16 9//135 2.22225 Fusion_MS2.07716.07716.5 2 ACTL6A:379- 9.557 DPF2:130 0 1.104021344 JL021317_021517_BAF45D_70B_(—) NP 9.557 0.36427741 1.02E−04 //12 21//69 7.87475 Fusion_MS2.10125.10125.4 −1 −3.527945865 JL021317_021517_BAF45D_85B_(—) NP 4.5075 0.151326943 1.27E−05 //13 9//77 1.7615 Fusion_MS2.09511.09511.4 3 ACTL6A:379- 4.4865 DPF2:188 −3 15.90552817 JL021317_021517_BAF45D_70B_(—) N 4.4865 0.168833612 //12 9//66 2.621 Fusion_MS2.10142.10142.4 4 ACTL6A:379- 2.999 DPF2:241 −3 5.766770177 JL021317_021517_BAF45D_10D_(—) P 2.999 0.118084813 1.63E−01 //5 13//276 2.709 Fusion_MS2.08976.08976.6 45 ACTL6A- SMARCB1 1 ACTL6A:135- 13.404 SMARCB1:45 0 −1.364089236 JL021317_021517_BAF45D_100B_(—) P 13.404 0.409038893 1.50E−02 //14 35//167 13.11825 Fusion_MS2.18199.18199.5 −3 2.38115091 JL021317_021517_BAF45D_100B_(—) P 12.89775 0.375529545 7.61E−03 //14 34//167 12.633 Fusion_MS2.18194.18194.5 2 ACTL6A:371- 2.85325 SMARCB1:124 0 1.100933528 JL021317_021517_BAF45D_70B_(—) N 2.85325 0.110242838 2//13 8//62 1.84475 Fusion_MS2.07954.07954.4 −2 3.952360415 JL021317_021517_BAF45D_85B_(—) N 2.4735 0.119101502 //13 7//65 1.536 Fusion_MS2.05255.05255.4 3 ACTL6A:62- 11.94175 SMARCB1:16 −4 4.249775362 JL021317_021517_BAF45D_85B_(—) P 11.94175 0.303699041 1.75E−11 //13 13//143 3.03825 Fusion_MS2.19944.19944.4 −2 −2.716343963 JL021317_021517_BAF45D_70B_(—) P 8.26325 0.200535116 2.81E−03 //13 11//143 1.3985 Fusion_MS2.19568.19568.4 4 ACTL6A:379- 3.51275 SMARCB1:45 0 −3.44790473 JL021317_021517_BAF45D_100B_(—) P 3.51275 0.130597639 2.29E−03 //13 11//77 2.823 Fusion_MS2.08788.08788.4 5 ACTL6A:379- 6.7055 SMARCB1:124 0 1.113693855 JL021317_021517_BAF45D_70B_(—) N 6.7055 0.2012304 1//12 19//68 5.6975 Fusion_MS2.09309.09309.4 0 6.539406594 JL021317_021517_BAF45D_85B_(—) N 4.88225 0.157089078 //13 12//76 2.94125 Fusion_MS2.08898.08898.4 6 ACTL6A:238- 6.07725 SMARCB1:71 0 −0.256802047 JL021317_021517_BAF45D_100B_(—) P 6.07725 0.203818292 6.71E−06 //13 3//58 0.0675 Fusion_MS2.08489.08489.4 −2 2.878216544 JL021317_021517_hBAF45D_(—) P 4.21225 0.142795396 2.65E−03 //13 1//58 0.03325 Fusion_MS2.08592.08592.4 46 ACTL6A- SMARCC1 1 ACTL6A:194- 10.51425 SMARCC1:948 −2 −4.202956692 JL021317_021517_BAF45D_100B_(—) P 10.51425 0.229195959 3.73E−06 //3 28//356 7.684 Fusion_MS2.16453.16453.6 −3 0.371439046 JL021317_021517_BAF45D_5D_(—) NP 10.308 0.246765216 5.36E−05 //3 30//356 8.5695 Fusion_MS2.16312.16312.6 −3 2.543164861 JL021317_021517_BAF45D_70B_(—) N 9.85525 0.210312633 //3 27//252 6.69675 Fusion_MS2.17584.17584.6 −4 4.60837935 JL021317_021517_BAF45D_5D_(—) P 9.36175 0.232212176 1.77E−04 //3 25//356 7.56475 Fusion_MS2.16293.16293.6 −3 6.333151517 JL021317_021517_BAF45D_D_(—) NP 7.742 0.177205049 6.38E−04 //3 27//356 5.3975 Fusion_MS2.16300.16300.6 −3 1.305396144 JL021317_021517_BAF45D_5D_(—) N 7.288 0.166368005 //3 21//252 5.502 Fusion_MS2.16322.16322.7 −2 7.581901868 JL021317_021517_BAF45D_100B_(—) P 5.89675 0.143889851 2.59E−05 //3 18//356 4.237 Fusion_MS2.16469.16469.5 2 ACTL6A:89- 9.505 SMARCC1:948 −3 2.294854393 JL021317_021517_BAF45D_D_(—) N 9.505 0.225965196 //8 22//235 7.15325 Fusion_MS2.19582.19582.5 3 ACTL6A:135- 10.9 SMARCC1:948 −3 3.866804176 JL021317_021517_BAF45D_5D_(—) NP 10.9 0.331211352 9.36E−06 //14 24//161 8.7815 Fusion_MS2.18408.18408.5 −2 5.217622493 JL021317_021517_BAF45D_10D_(—) NP 9.00575 0.346015676 2.53E−06 //14 22//161 7.0095 Fusion_MS2.18532.18532.5 −2 6.824719242 JL021317_021517_BAF45D_5D_(—) NP 8.8425 0.274581955 3.66E−06 //14 18//161 6.7955 Fusion_MS2.18428.18428.6 4 ACTL6A:371- 3.84625 SMARCC1:199 0 −9.725873722 JL021317_021517_BAF45D_85B_(—) P 3.84625 0.152408218 5.73E−03 1//13 5//58 0.7165 Fusion_MS2.07700.07700.4 5 ACTL6A:379- 13.26525 SMARCC1:201 −2 −3.329937135 JL021317_021517_BAF45D_5D_(—) NP 13.26525 0.399670086 1.15E−10 //15 20//210 8.11875 Fusion_MS2.11849.11849.6 6 ACTL6A:379- 8.30425 SMARCC1:199 −2 0.479875682 JL021317_021517_BAF45D_85B_(—) P 8.30425 0.286778672 1.02E−03 //12 19//65 7.5845 Fusion_MS2.08799.08799.4 47 SMARCA4- SMARCC1 1 SMARCA4:437- 4.33825 SMARCC1:925 −1 15.01478918 JL021317_021517_hBAF45D_(—) N 4.33825 0.144492739 //17 9//86 1.17775 Fusion_MS2.14268.14268.4 2 SMARCA4:626- 8.59925 SMARCC1:317 −2 12.89242419 JL021317_021517_BAF45D_85B_(—) N 8.59925 0.296500302 //19 27//103 6.10325 Fusion_MS2.07880.07880.4 −1 0.4665645 JL021317_021517_BAF45D_85B_(—) NP 6.4865 0.229014776 1.64E−03 //19 20//103 4.75675 Fusion_MS2.07919.07919.4 3 SMARCA4:1610- 5.01075 SMARCC1:199 0 −7.818650346 JL021317_021517_BAF45D_100B_(—) P 5.01075 0.211085601 2.69E−04 //13 16//63 4.203 Fusion_MS2.04693.04693.4 4 SMARCA4:357- 7.256 SMARCC1:740 −1 2.313482269 JL021317_021517_BAF45D_70B_(—) NP 7.256 0.273481079 1.65E−05 3//10 17//42 4.505 Fusion_MS2.06173.06173.4 5 SMARCA4:399- 11.71075 SMARCC1:608 0 1.427796624 JL021317_021517_BAF45D_70B_(—) N 11.71075 0.392688284 //11 23//63 10.091 Fusion_MS2.13174.13174.4 0 10.82854255 JL021317_021517_BAF45D_70B_(—) N 9.431 0.346524103 //11 20//63 7.956 Fusion_MS2.13231.13231.4 6 SMARCA4:399- 5.6875 SMARCC1:609 0 −1.953315572 JL021317_021517_BAF45D_70B_(—) NP 5.6875 0.246762262 2.46E−04 2//8 12//37 3.2015 Fusion_MS2.06995.06995.4 0 −0.351123793 JL021317_021517_hBAF45D_(—) NP 4.69375 0.17893222 3.05E−04 1//8 7//37 2.60725 Fusion_MS2.07964.07964.4 7 SMARCA4:399- 7.9535 SMARCC1:615 −1 5.125496429 JL021317_021517_BAF45D_70B_(—) N 7.9535 0.314965151 1//11 19//63 6.12725 Fusion_MS2.11129.11129.4 0 7.515694234 JL021317_021517_BAF45D_70B_(—) N 5.55575 0.197464058 //11 12//63 4.25425 Fusion_MS2.11146.11146.4 0 0.00636397 JL021317_021517_BAF45D_70B_(—) N 4.1355 0.159057692 2//8 8//38 1.917 Fusion_MS2.05944.05944.4 8 SMARCA4:399- 5.84025 SMARCC1:740 0 3.712703525 JL021317_021517_BAF45D_70B_(—) NP 5.84025 0.231242081 1.02E−07 4//8 11//39 2.8445 Fusion_MS2.06134.06134.4 9 SMARCA4:1408- 3.08025 SMARCC1:199 0 −1.288138599 JL021317_021517_BAF45D_100B_(—) P 3.08025 0.11639177 5.76E−03 //13 9//63 2.35575 Fusion_MS2.03525.03525.4 10  SMARCA4:835- 3.30175 SMARCC1:317 0 7.293700568 JL021317_021517_BAF45D_100B_(—) P 3.30175 0.175494313 5.67E−08 //12 12//55 2.44275 Fusion_MS2.04283.04283.4 11  SMARCA4:835- 3.3605 SMARCC1:199 0 −1.162918304 JL021317_021517_BAF45D_85B_(—) NP 3.3605 0.126794574 4.91E−03 3//13 11//60 1.185 Fusion_MS2.06092.06092.4 12  SMARCA4:499- 6.61325 SMARCC1:199 0 −4.018783501 JL021317_021517_BAF45D_85B_(—) NP 6.61325 0.237438291 7.82E−05 //13 14//65 4.25975 Fusion_MS2.06345.06345.4 13  SMARCA4:1375- 4.589 SMARCC1:317 −2 5.366955289 JL021317_021517_BAF45D_10D_(—) NP 4.589 0.187107559 1.58E−10 //16 13//109 2.1515 Fusion_MS2.04989.04989.5 14  SMARCA4:1414- 4.9365 SMARCC1:740 0 0.06457996 JL021317_021517_BAF45D_85B_(—) NP 4.9365 0.285140794 6.86E−03 //17 13//105 3.426 Fusion_MS2.03087.03087.4 15  SMARCA4:405- 5.538 SMARCC1:317 0 −1.852858817 JL021317_021517_BAF45D_100B_(—) NP 5.538 0.243364387 1.11E−08 1//13 18//65 4.595 Fusion_MS2.07635.07635.4 16  SMARCA4:405- 8.1215 SMARCC1:592 0 7.391155621 JL021317_021517_BAF45D_70B_(—) NP 8.1215 0.299625537 2.88E−03 1//12 16//68 6.07475 Fusion_MS2.14962.14962.4 17  SMARCA4:405- 7.1845 SMARCC1:590 −1 −0.174096681 JL021317_021517_BAF45D_100B_(—) NP 7.1845 0.229309629 3.56E−06 //14 17//105 5.539 Fusion_MS2.12566.12566.5 −2 −0.100543838 JL021317_021517_BAF45D_85B_(—) NP 6.71275 0.209175327 1.93E−03 1//14 15//107 4.34475 Fusion_MS2.13462.13462.5 18  SMARCA4:405- 11.43675 SMARCC1:588 −1 −4.426437606 JL021317_021517_BAF45D_70B_(—) NP 11.43675 0.300208683 1.23E−10 //16 31//108 9.933 Fusion_MS2.13465.13465.4 0 −6.56226267 JL021317_021517_BAF45D_70B_(—) NP 11.305 0.317913386 1.77E−04 //16 24//142 9.5275 Fusion_MS2.13481.13481.5 −1 3.418171735 JL021317_021517_hBAF45D_(—) P 9.925 0.291324831 5.30E−06 //16 25//109 9.0365 Fusion_MS2.15248.15248.4 −1 2.880370009 JL021317_021517_BAF45D_50B_(—) NP 9.769 0.23986839 1.69E−04 //16 24//109 8.6135 Fusion_MS2.13774.13774.4 0 −9.873213789 JL021317_021517_hBAF45D_(—) P 8.6965 0.254246455 9.63E−06 //16 23//109 7.904 Fusion_MS2.15258.15258.4 48 SMARCA4- SMARCD1 1 SMARCA4:455- 17.404 SMARCD1:101 −1 8.208812031 JL021317_021517_BAF45D_85B_(—) P 17.404 0.495939361 3.05E−02 //16 34//124 17.285 Fusion_MS2.08025.08025.4 −1 1.238497914 JL021317_021517_BAF45D_85B_(—) P 13.172 0.412999514 2.67E−04 //16 27//162 12.77375 Fusion_MS2.08020.08020.5 2 SMARCA4:207- 16.1785 SMARCD1:101 0 1.020674413 JL021317_021517_BAF45D_85B_(—) NP 16.1785 0.383136182 1.37E−04 //16 31//156 13.33575 Fusion_MS2.09798.09798.5 3 SMARCA4:1414- 8.386 SMARCD1:101 0 3.002778635 JL021317_021517_BAF45D_100B_(—) P 8.386 0.346235627 8.33E−03 //16 20//157 7.8175 Fusion_MS2.05907.05907.5 4 SMARCA4:997- 4.84425 SMARCD1:181 −1 16.98334986 JL021317_021517_BAF45D_70B_(—) N 4.84425 0.110179225 1//9 13//172 1.94325 Fusion_MS2.18900.18900.5 5 SMARCA4:94- 19.4715 SMARCD1:101 −2 −0.256606357 JL021317_021517_BAF45D_85B_(—) NP 19.4715 0.574566969 3.57E−07 //16 37//122 16.8145 Fusion_MS2.08692.08692.4 −2 1.249957717 JL021317_021517_BAF45D_85B_(—) NP 15.20175 0.472104037 2.09E−09 //16 32//161 13.97175 Fusion_MS2.08691.08691.5 6 SMARCA4:437- 12.02125 SMARCD1:127 −1 3.627151628 JL021317_021517_BAF45D_85B_(—) N 12.02125 0.434332942 1//17 29//118 10.49275 Fusion_MS2.09672.09672.5 0 −2.97422919 JL021317_021517_BAF45D_85B_(—) NP 11.66625 0.354182795 5.64E−03 //17 28//94 10.24625 Fusion_MS2.10241.10241.4 7 SMARCA4:437- 15.02625 SMARCD1:124 0 −3.120944741 JL021317_021517_BAF45D_5D_(—) P 15.02625 0.474246082 1.60E−05 1//17 32//117 14.204 Fusion_MS2.08912.08912.5 −2 1.665002565 JL021317_021517_BAF45D_10D_(—) P 9.812 0.391939124 2.21E−04 //17 23//114 9.38675 Fusion_MS2.08167.08167.5 −1 2.508918809 JL021317_021517_BAF45D_85B_(—) P 9.5845 0.353847858 2.92E−06 //16 25//85 9.36225 Fusion_MS2.09585.09585.4 −1 −1.153118692 JL021317_021517_BAF45D_10D_(—) P 9.17175 0.348192931 7.33E−06 1//17 25//114 8.5125 Fusion_MS2.08191.08191.5 0 −0.576918978 JL021317_021517_BAF45D_10D_(—) P 8.88425 0.338029107 3.37E−06 //17 21//91 8.27975 Fusion_MS2.08176.08176.4 8 SMARCA4:357- 12.64675 SMARCD1:101 0 −5.524122012 JL021317_021517_BAF45D_85B_(—) NP 12.64675 0.440453801 1.51E−06 2//16 31//124 11.55225 Fusion_MS2.08874.08874.4 0 −1.789376859 JL021317_021517_BAF45D_85B_(—) NP 10.787 0.390359527 4.57E−06 //16 27//124 9.624 Fusion_MS2.08857.08857.4 −1 0.897852223 JL021317_021517_BAF45D_85B_(—) P 8.8025 0.263587363 9.79E−02 2//16 21//163 8.3585 Fusion_MS2.08867.08867.5 0 0.604931035 JL021317_021517_BAF45D_85B_(—) P 8.7195 0.264937788 3.73E−03 2//16 22//163 8.0845 Fusion_MS2.08899.08899.5 49 SMARCA4- SMARCC2 1 SMARCA4:405- 10.65675 SMARCC2:617 0 1.961637464 JL021317_021517_BAF45D_D_(—) NP 10.65675 0.2593893 1.37E−03 //2 31//250 9.60475 Fusion_MS2.21676.21676.6 −3 7.35982563 JL021317_021517_BAF45D_D_(—) NP 7.6765 0.18269986 1.28E−02 //2 23//250 6.1285 Fusion_MS2.20518.20518.6 2 SMARCA4:405- 8.217 SMARCC2:568 0 3.023745642 JL021317_021517_BAF45D_85B_(—) NP 8.217 0.22257134 3.85E−04 //12 13//66 6.2885 Fusion_MS2.12627.12627.4 0 0.461016612 JL021317_021517_BAF45D_85B_(—) NP 6.69675 0.189642478 8.94E−07 //12 16//82 4.5275 Fusion_MS2.12646.12646.5 3 SMARCA4:207- 8.722 SMARCC2:2 0 −3.800446137 JL021317_021517_BAF45D_85B_(—) P 8.722 0.398820275 1.32E−03 //18 21//123 8.62375 Fusion_MS2.09557.09557.5 4 SMARCA4:399- 5.10075 SMARCC2:584 0 −1.245432911 JL021317_021517_BAF45D_70B_(—) NP 5.10075 0.210253504 3.41E−04 1//8 11//40 2.30675 Fusion_MS2.08193.08193.4 −1 −4.097486218 JL021317_021517_hBAF45D_(—) NP 3.90175 0.156533339 1.33E−04 //8 7//40 2.39725 Fusion_MS2.09005.09005.4 5 SMARCA4:399- 5.7075 SMARCC2:592 0 −0.524745405 JL021317_021517_BAF45D_70B_(—) NP 5.7075 0.192042396 7.78E−05 3//8 9//40 2.02575 Fusion_MS2.06175.06175.4 6 SMARCA4:348- 10.6425 SMARCC2:704 −3 −2.665351351 JL021317_021517_BAF45D_70B_(—) NP 10.6425 0.257928093 1.21E−11 //13 36//346 6.20475 Fusion_MS2.13131.13131.6 −3 12.79349028 JL021317_021517_BAF45D_70B_(—) NP 9.85225 0.240806824 7.73E−10 //13 39//346 6.6 Fusion_MS2.13141.13141.6 −2 3.887412231 JL021317_021517_BAF45D_70B_(—) P 4.11025 0.103277803 3.40E−02 //13 21//346 2.8895 Fusion_MS2.13237.13237.6 7 SMARCA4:437- 11.54325 SMARCC2:2 0 0.772136363 JL021317_021517_BAF45D_85B_(—) P 11.54325 0.40663144 4.52E−02 2//17 30//121 11.33475 Fusion_MS2.11053.11053.5 0 −2.582520723 JL021317_021517_BAF45D_100B_(—) P 9.5805 0.317608447 8.10E−02 1//17 24//114 9.204 Fusion_MS2.10193.10193.5 8 SMARCA4:1610- 5.8755 SMARCC2:275 −1 6.514995246 JL021317_021517_BAF45D_85B_(—) N 5.8755 0.21702835 //16 15//112 4.9725 Fusion_MS2.08232.08232.4 50 SMARCA4- SMARCE1 1 SMARCA4:455- 15.7825 SMARCE1:166 −2 2.762721785 JL021317_021517_BAF45D_50B_(—) NP 15.7825 0.450156874 4.17E−03 //14 40//160 14.84375 Fusion_MS2.12410.12410.4 −3 8.26717811 JL021317_021517_hBAF45D_(—) P 10.2025 0.292264062 1.47E−02 //14 28//160 9.346 Fusion_MS2.13792.13792.4 −1 3.4429015 JL021317_021517_BAF45D_50B_(—) N 9.8485 0.223177765 //14 20//156 7.81075 Fusion_MS2.13528.13528.4 −2 2.793400019 JL021317_021517_BAF45D_50B_(—) N 6.4 0.146662847 //14 20//156 4.73175 Fusion_MS2.13498.13498.4 −1 9.509207672 JL021317_021517_hBAF45D_(—) N 5.51275 0.145202286 //14 17//158 4.00975 Fusion_MS2.13999.13999.4 2 SMARCA4:207- 5.3205 SMARCE1:146 −3 1.237084032 JL021317_021517_BAF45D_100B_(—) NP 5.3205 0.144423784 5.06E−02 //17 14//130 3.82025 Fusion_MS2.12745.12745.5 3 SMARCA4:94- 8.6035 SMARCE1:240 −1 12.9681465 JL021317_021517_BAF45D_70B_(—) N 8.6035 0.223644706 //13 15//73 6.701 Fusion_MS2.13215.13215.4 51 SMARCA4- SMARCB1 1 SMARCA4:496- 3.76525 SMARCB1:124 0 −2.765841653 JL021317_021517_BAF45D_100B_(—) NP 3.76525 0.140754378 1.65E−03 1//10 12//42 2.4925 Fusion_MS2.03764.03764.4 2 SMARCA4:1408- 2.53475 SMARCB1:124 −2 20.06953585 JL021317_021517_BAF45D_D_(—) N 2.53475 0.147052851 //8 4//30 0.938 Fusion_MS2.02186.02186.4 3 SMARCA4:1131- 4.7725 SMARCB1:364 0 −0.782820292 JL021317_021517_BAF45D_100B_(—) P 4.7725 0.230127541 1.61E−06 //12 10//57 3.7975 Fusion_MS2.04127.04127.4 4 SMARCA4:499- 3.8295 SMARCB1:124 0 0.239690163 JL021317_021517_BAF45D_70B_(—) N 3.8295 0.124593311 2//8 12//30 1.5275 Fusion_MS2.06794.06794.4 0 0.016119791 JL021317_021517_BAF45D_100B_(—) NP 3.2995 0.13299341 2.67E−04 1//8 6//30 1.42725 Fusion_MS2.03710.03710.4 5 SMARCA4:835- 3.7665 SMARCB1:124 0 4.083848584 JL021317_021517_BAF45D_70B_(—) N 3.7665 0.129488612 //12 14//55 2.69975 Fusion_MS2.06431.06431.4 0 −0.855209661 JL021317_021517_BAF45D_100B_(—) NP 3.6955 0.153774134 6.35E−04 //12 14//55 2.4 Fusion_MS2.03723.03723.4 6 SMARCA4:1122- 2.40575 SMARCB1:124 0 2.901235989 JL021317_021517_BAF45D_5D_(—) N 2.40575 0.115486163 //8 6//30 1.22 Fusion_MS2.05988.05988.4 52 SMARCA4- SMARCD3 1 SMARCA4:437- 14.02875 SMARCD3:102 −1 3.532690693 JL021317_021517_BAF45D_5D_(—) P 14.02875 0.443968859 7.94E−04 //17 29//115 13.71925 Fusion_MS2.09550.09550.5 −1 5.831319994 JL021317_021517_BAF45D_5D_(—) N 12.26975 0.447980941 //17 32//91 10.8175 Fusion_MS2.08931.08931.4 0 −2.177316725 JL021317_021517_BAF45D_5D_(—) NP 12.12675 0.428673689 1.00E−04 //17 26//114 10.25175 Fusion_MS2.08904.08904.5 0 −1.818196761 JL021317_021517_BAF45D_10D_(—) P 11.763 0.420527671 1.94E−04 //17 25//114 11.174 Fusion_MS2.08924.08924.5 −1 2.156064166 JL021317_021517_BAF45D_10D_(—) P 11.04725 0.405522722 1.36E−04 //17 24//114 10.60325 Fusion_MS2.08917.08917.5 2 SMARCA4:1414- 4.3985 SMARCD3:417 −2 7.074415321 JL021317_021517_BAF45D_85B_(—) N 4.3985 0.112796512 //17 11//100 3.40325 Fusion_MS2.16119.16119.4 53 SMARCA4- SS18 1 SMARCA4:94- 6.291 SS18:13 −2 6.911029793 JL021317_021517_BAF45D_70B_(—) N 6.291 0.186543708 //15 11//74 1.80225 Fusion_MS2.09471.09471.4 0 5.828733237 JL021317_021517_BAF45D_70B_(—) N 5.97625 0.163432877 1//15 10//74 1.0605 Fusion_MS2.09461.09461.4 54 ACTBL2- ACTL6A 1 ACTBL2:192- 16.77 ACTL6A:242 −1 2.632474083 JL021317_021517_BAF45D_5D_(—) NP 16.77 0.515976186 8.62E−11 //13 47//148 15.511 Fusion_MS2.18647.18647.5 −3 10.01219943 JL021317_021517_BAF45D_5D_(—) N 14.4755 0.464949331 //13 38//148 12.72875 Fusion_MS2.18617.18617.5 −1 −0.808635605 JL021317_021517_BAF45D_85B_(—) NP 11.87225 0.358683666 2.39E−09 1//15 22//74 10.32625 Fusion_MS2.18768.18768.4 −3 3.195185598 JL021317_021517_BAF45D_D_(—) P 11.404 0.349339092 6.42E−05 //13 27//148 10.487 Fusion_MS2.18408.18408.5 −2 3.832439708 JL021317_021517_BAF45D_85B_(—) N 11.3465 0.357567163 //15 21//74 9.70225 Fusion_MS2.17205.17205.4 −2 2.31065638 JL021317_021517_BAF45D_100B_(—) N 10.98775 0.374274036 //12 30//147 9.6565 Fusion_MS2.17453.17453.5 0 1.30660885 JL021317_021517_BAF45D_70B_(—) NP 10.78775 0.348559751 1.40E−10 //15 25//75 8.45575 Fusion_MS2.20668.20668.4 0 2.981920712 JL021317_021517_BAF45D_70B_(—) N 10.6615 0.332496492 1//15 25//74 8.08375 Fusion_MS2.18812.18812.4 0 −4.926890184 JL021317_021517_BAF45D_100B_(—) NP 9.89275 0.336230776 1.57E−06 //15 21//74 8.9795 Fusion_MS2.18673.18673.4 0 0.659156756 JL021317_021517_BAF45D_5D_(—) NP 9.6045 0.368631139 2.33E−08 //13 25//148 8.2205 Fusion_MS2.18634.18634.6 0 −2.466723063 JL021317_021517_BAF45D_100B_(—) NP 9.47075 0.352295131 1.07E−15 //15 22//75 7.41675 Fusion_MS2.20223.20223.4 0 1.202925129 JL021317_021517_BAF45D_85B_(—) NP 9.05075 0.313250614 1.62E−06 //15 20//97 6.63275 Fusion_MS2.18799.18799.5 −1 −3.185452951 JL021317_021517_BAF45D_85B_(—) NP 9.009 0.330635838 2.24E−10 //15 19//75 6.74125 Fusion_MS2.20384.20384.4 0 1.639509323 JL021317_021517_BAF45D_85B_(—) NP 8.57 0.200399864 1.49E−09 //13 21//111 5.708 Fusion_MS2.20069.20069.4 0 2.35494535 JL021317_021517_BAF45D_5D_(—) NP 8.54325 0.321949427 4.85E−09 //13 23//110 5.111 Fusion_MS2.18633.18633.4 −1 1.850845378 JL021317_021517_BAF45D_85B_(—) N 8.13525 0.305555034 //15 19//97 6.3565 Fusion_MS2.17215.17215.5 0 −2.657938539 JL021317_021517_BAF45D_100B_(—) NP 7.94 0.290602983 2.61E−09 //15 18//97 5.895 Fusion_MS2.18695.18695.5 0 2.744068626 JL021317_021517_hBAF45D_(—) NP 6.5525 0.235570096 4.77E−11 //15 17//75 4.878 Fusion_MS2.21498.21498.4 0 −3.166468645 JL021317_021517_BAF45D_85B_(—) NP 5.513 0.187386346 1.45E−03 //13 18//149 3.90325 Fusion_MS2.20072.20072.5 0 1.846402408 JL021317_021517_BAF45D_10D_(—) NP 4.3965 0.224397091 6.62E−09 //15 12//97 3.4 Fusion_MS2.18694.18694.5 −1 2.833909862 JL021317_021517_BAF45D_10D_(—) NP 3.61775 0.216017316 7.07E−05 //15 10//75 2.124 Fusion_MS2.20150.20150.4 2 ACTBL2:192- 7.77975 ACTL6A:240 −2 4.263368815 JL021317_021517_BAF45D_85B_(—) N 7.77975 0.299278707 //15 19//97 6.4955 Fusion_MS2.17247.17247.5 −1 −1.066026515 JL021317_021517_hBAF45D_(—) P 7.51875 0.286920435 3.22E−04 //15 21//74 7.2635 Fusion_MS2.19846.19846.4 0 1.593679567 JL021317_021517_hBAF45D_(—) P 7.20275 0.250521721 7.54E−03 //15 18//74 7.00625 Fusion_MS2.19848.19848.4 0 3.562341816 JL021317_021517_BAF45D_5D_(—) P 5.73575 0.264497014 4.35E−06 //15 17//97 5.1195 Fusion_MS2.18570.18570.5 3 ACTBL2:192- 8.09 ACTL6A:60 −2 0.608790008 JL021317_021517_BAF45D_D_(—) N 8.09 0.191531423 //15 27//230 3.94725 Fusion_MS2.22700.22700.5 55 ACTBL2- BCL7A 1 ACTBL2:51- 7.553 BCL7A:15 −2 4.569487679 JL021317_021517_BAF45D_70B_(—) N 7.553 0.212270249 //9 22//177 5.7845 Fusion_MS2.11477.11477.5 56 ACTBL2- SMARCA4 1 ACTBL2:329- 7.3815 SMARCA4:517 −1 12.26761334 JL021317_021517_BAF45D_85B_(—) N 7.3815 0.254109507 2//10 11//43 1.797 Fusion_MS2.06801.06801.4 −2 4.324806734 JL021317_021517_BAF45D_85B_(—) P 2.62975 0.076964163 2.06E−04 1//9 5//56 0.19925 Fusion_MS2.07515.07515.5 −1 1.133092971 JL021317_021517_BAF45D_85B_(—) P 2.50725 0.083949977 2.40E−03 2//9 5//56 0.3755 Fusion_MS2.07589.07589.5 −3 1.317927134 JL021317_021517_BAF45D_85B_(—) P 2.04725 0.08716524 3.93E−03 2//9 3//46 0.08575 Fusion_MS2.07508.07508.4 2 ACTBL2:329- 5.30275 SMARCA4:516 0 1.770321169 JL021317_021517_BAF45D_100B_(—) NP 5.30275 0.179035063 1.97E−01 //17 11//118 2.22275 Fusion_MS2.07097.07097.6 0 1.133364788 JL021317_021517_hBAF45D_(—) P 4.4305 0.195823204 1.23E−02 //10 5//42 0.625 Fusion_MS2.06855.06855.4 3 ACTBL2:329- 11.29425 SMARCA4:689 −1 −2.566086502 JL021317_021517_BAF45D_70B_(—) NP 11.29425 0.360205709 3.76E−16 4//16 30//107 7.07125 Fusion_MS2.09966.09966.4 4 ACTBL2:374- 12.022 SMARCA4:499 −2 1.950604647 JL021317_021517_BAF45D_85B_(—) N 12.022 0.378806737 1//13 29//105 10.668 Fusion_MS2.12914.12914.4 −3 0.481855325 JL021317_021517_BAF45D_5D_(—) N 11.634 0.384944991 1//13 25//105 10.307 Fusion_MS2.12809.12809.4 5 ACTBL2:327- 10.28675 SMARCA4:516 −2 15.37129612 JL021317_021517_BAF45D_5D_(—) N 10.28675 0.414654547 //11 14//141 7.55625 Fusion_MS2.08808.08808.5 −1 5.904829013 JL021317_021517_BAF45D_5D_(—) N 8.611 0.289042176 //11 14//141 5.4655 Fusion_MS2.08834.08834.5 57 ACTBL2- SMARCA2 1 ACTBL2:292- 7.18375 SMARCA2:846 −1 3.70277981 JL021317_021517_BAF45D_100B_(—) N 7.18375 0.213420974 //17 20//187 6.0375 Fusion_MS2.15013.15013.5 2 ACTBL2:329- 6.7525 SMARCA2:846 0 −4.659370389 JL021317_021517_BAF45D_100B_(—) NP 6.7525 0.265193913 4.39E−10 2//11 12//78 3.7685 Fusion_MS2.12766.12766.5 3 ACTBL2:329- 4.35975 SMARCA2:492 −1 −1.971500997 JL021317_021517_BAF45D_100B_(—) P 4.35975 0.131621055 2.38E−02 //17 8//118 0.90025 Fusion_MS2.08163.08163.5 4 ACTBL2:329- 5.54975 SMARCA2:493 0 0.235541978 JL021317_021517_BAF45D_70B_(—) NP 5.54975 0.270442474 1.42E−04 //9 11//45 4.22975 Fusion_MS2.06978.06978.4 −1 −1.893144713 JL021317_021517_hBAF45D_(—) P 3.39225 0.154049636 1.18E−06 //9 8//45 2.7485 Fusion_MS2.07883.07883.4 5 ACTBL2:329- 6.48625 SMARCA2:500 0 1.244944836 JL021317_021517_BAF45D_70B_(—) N 6.48625 0.300046259 //9 12//45 5.20225 Fusion_MS2.07967.07967.4 0 2.455986498 JL021317_021517_BAF45D_70B_(—) N 5.484 0.262511668 //9 12//45 4.44425 Fusion_MS2.07938.07938.4 −2 2.53369441 JL021317_021517_BAF45D_70B_(—) N 5.181 0.25297234 //9 11//45 4.122 Fusion_MS2.07927.07927.4 −2 −1.046814795 JL021317_021517_BAF45D_85B_(—) P 4.88775 0.22149088 4.91E−06 //11 4//47 0.3505 Fusion_MS2.08532.08532.4 0 1.200310295 JL021317_021517_hBAF45D_(—) N 4.83275 0.2623714 //9 11//45 3.8365 Fusion_MS2.08951.08951.4 58 BCL7C- SMARCC2 1 BCL7C:1- 10.85575 SMARCC2:872 −2 15.16541446 JL021317_021517_BAF45D_50B_(—) P 10.85575 0.356903325 1.45E−02 //18 27//191 10.78275 Fusion_MS2.16094.16094.5 2 BCL7C:20- 3.3615 SMARCC2:455 −4 16.89616892 JL021317_021517_BAF45D_100B_(—) P 3.3615 0.136877252 2.04E−02 //13 11//98 1.4245 Fusion_MS2.07006.07006.5 −3 18.83934456 JL021317_021517_BAF45D_100B_(—) NP 3.155 0.121076061 1.36E−05 //13 11//98 1.16125 Fusion_MS2.07019.07019.5 −3 6.810162004 JL021317_021517_BAF45D_100B_(—) P 2.89025 0.108478616 1.41E−01 //13 7//98 0.66475 Fusion_MS2.07043.07043.5 59 BCL7C- SMARCB1 1 BCL7C:20- 5.2705 SMARCB1:124 0 −3.922441969 JL021317_021517_BAF45D_100B_(—) NP 5.2705 0.275444877 1.23E−03 //9 13//42 4.188 Fusion_MS2.04542.04542.4 −1 −1.164974525 JL021317_021517_BAF45D_100B_(—) P 4.76825 0.253529177 2.23E−03 //9 13//42 3.9815 Fusion_MS2.04539.04539.4 2 BCL7C:15- 3.4655 SMARCB1:124 0 0.999141967 JL021317_021517_BAF45D_85B_(—) N 3.4655 0.132293715 //8 9//30 1.41875 Fusion_MS2.05231.05231.4 0 3.351392155 JL021317_021517_BAF45D_100B_(—) N 2.52075 0.111114784 2//10 5//42 1.449 Fusion_MS2.05686.05686.4 3 BCL7C:47- 8.185 SMARCB1:124 −2 3.132812356 JL021317_021517_BAF45D_70B_(—) N 8.185 0.243231999 //16 23//91 7.01325 Fusion_MS2.13909.13909.4 0 −2.052317971 JL021317_021517_BAF45D_85B_(—) P 5.99275 0.147949044 2.75E−01 //16 19//118 5.53075 Fusion_MS2.11682.11682.5 −3 6.703822181 JL021317_021517_hBAF45D_(—) N 4.9635 0.151747226 //16 15//91 3.9505 Fusion_MS2.14774.14774.4 60 BCL7C- SMARCA2 1 BCL7C:2- 2.11325 SMARCA2:460 −4 7.946112473 JL021317_021517_BAF45D_10D_(—) P 2.11325 0.069694771 7.70E−02 //11 12//156 1.9655 Fusion_MS2.13453.13453.6 2 BCL7C:15- 8.13625 SMARCA2:846 0 1.101780012 JL021317_021517_BAF45D_10D_(—) NP 8.13625 0.341342927 5.14E−05 //11 19//63 6.91375 Fusion_MS2.09173.09173.4 −1 2.889278018 JL021317_021517_BAF45D_10D_(—) NP 7.4585 0.311888434 2.31E−04 //11 20//78 6.0135 Fusion_MS2.09160.09160.5 0 −7.531253208 JL021317_021517_BAF45D_5D_(—) NP 7.31225 0.323636806 1.80E−07 2//11 17//79 5.93475 Fusion_MS2.08988.08988.5 −2 1.473142312 JL021317_021517_BAF45D_100B_(—) NP 7.024 0.274460769 4.80E−04 //11 17//65 5.9535 Fusion_MS2.10064.10064.4 −1 2.370160122 JL021317_021517_BAF45D_10D_(—) P 6.74625 0.328492477 2.59E−05 //11 16//63 6.07775 Fusion_MS2.09169.09169.4 61 BCL7C- SMARCA4 1 BCL7C:19- 3.9095 SMARCA4:835 0 −1.378455611 JL021317_021517_BAF45D_100B_(—) P 3.9095 0.149981777 5.07E−05 //12 14//55 3.41925 Fusion_MS2.05093.05093.4 2 BCL7C:19- 3.75325 SMARCA4:499 0 −1.284332776 JL021317_021517_BAF45D_100B_(—) NP 3.75325 0.128701243 7.33E−04 2//9 10//34 1.09825 Fusion_MS2.05284.05284.4 3 BCL7C:27- 6.0415 SMARCA4:455 −1 0.541508504 JL021317_021517_BAF45D_85B_(—) P 6.0415 0.203973801 4.83E−02 //12 4//68 0.20325 Fusion_MS2.09805.09805.5 4 BCL7C:15- 2.71275 SMARCA4:835 −1 5.441624449 JL021317_021517_BAF45D_100B_(—) NP 2.71275 0.1196177 4.36E−03 //12 8//55 1.1945 Fusion_MS2.05384.05384.4 5 BCL7C:15- 5.0705 SMARCA4:499 0 −4.328817418 JL021317_021517_BAF45D_85B_(—) NP 5.0705 0.148808476 3.04E−02 3//7 10//32 2.8 Fusion_MS2.05058.05058.4 0 −0.845386689 JL021317_021517_BAF45D_100B_(—) NP 4.61575 0.225543611 1.01E−04 4//10 10//42 2.5545 Fusion_MS2.05553.05553.4 6 BCL7C:15- 4.37425 SMARCA4:496 −1 7.757357646 JL021317_021517_BAF45D_85B_(—) NP 4.37425 0.180843807 1.63E−05 1//10 14//42 2.53525 Fusion_MS2.04990.04990.4 0 −3.143872422 JL021317_021517_BAF45D_85B_(—) NP 3.83675 0.157965704 7.44E−06 1//10 14//42 2.91075 Fusion_MS2.04996.04996.4 0 −0.384919133 JL021317_021517_BAF45D_85B_(—) P 2.635 0.102553125 2.93E−03 1//10 13//42 2.058 Fusion_MS2.05187.05187.4 7 BCL7C:15- 7.697 SMARCA4:1414 −1 1.089280672 JL021317_021517_BAF45D_100B_(—) NP 7.697 0.323030112 1.05E−08 //17 19//131 6.824 Fusion_MS2.03311.03311.5 62 SMARCD2- SMARCE1 1 SMARCD2:514- 6.682 SMARCE1:146 0 1.242955834 JL021317_021517_BAF45D_10D_(—) P 6.682 0.2308915 5.42E−08 //17 21//134 5.8455 Fusion_MS2.11500.11500.5 63 DPF2- SMARCA4 1 DPF2:108- 15.74 SMARCA4:405 0 5.444395841 JL021317_021517_BAF45D_70B_(—) NP 15.74 0.464204085 6.84E−06 //17 30//110 13.5875 Fusion_MS2.16446.16446.4 2 DPF2:99- 8.4385 SMARCA4:405 −2 0.129734091 JL021317_021517_BAF45D_70B_(—) NP 8.4385 0.239434222 1.43E−04 //17 18//93 4.261 Fusion_MS2.13889.13889.4 0 0.046931759 JL021317_021517_BAF45D_70B_(—) NP 6.6455 0.191925026 2.08E−06 //17 21//87 4.34 Fusion_MS2.15010.15010.4 −1 2.02371636 JL021317_021517_BAF45D_70B_(—) NP 5.81975 0.167390523 3.76E−06 1//17 21//87 3.1855 Fusion_MS2.15003.15003.4 −2 0.420443796 JL021317_021517_BAF45D_85B_(—) NP 4.93875 0.150580828 4.35E−06 //17 17//86 3.3735 Fusion_MS2.14039.14039.4 −1 4.406143706 JL021317_021517_hBAF45D_(—) NP 4.72925 0.162897837 5.51E−04 //17 9//93 1.27575 Fusion_MS2.14692.14692.4 0 3.442643165 JL021317_021517_BAF45D_85B_(—) P 2.39125 0.071893509 4.19E−04 //17 9//86 1.398 Fusion_MS2.14055.14055.4 3 DPF2:107- 5.05625 SMARCA4:405 0 3.419279949 JL021317_021517_BAF45D_70B_(—) P 5.05625 0.140141909 2.47E−04 //17 8//99 1.1535 Fusion_MS2.13578.13578.4 0 −0.388731918 JL021317_021517_BAF45D_70B_(—) P 2.87375 0.07743035 4.85E−03 1//17 11//127 1.1 Fusion_MS2.13579.13579.5 4 DPF2:285- 8.76225 SMARCA4:1610 0 2.311778959 JL021317_021517_BAF45D_70B_(—) P 8.76225 0.383116173 3.83E−03 //16 24//103 8.46375 Fusion_MS2.06454.06454.4 −1 6.725376514 JL021317_021517_BAF45D_70B_(—) P 8.27075 0.334909194 4.39E−03 //16 24//103 7.92825 Fusion_MS2.06449.06449.4 5 DPF2:130- 5.62075 SMARCA4:1414 0 −3.83174523 JL021317_021517_BAF45D_85B_(—) P 5.62075 0.22633285 3.88E−01 //17 16//131 5.35925 Fusion_MS2.05251.05251.5 64 DPF2- SMARCA2 1 DPF2:130- 9.84725 SMARCA2:1434 0 −0.064337721 JL021317_021517_BAF45D_70B_(—) NP 9.84725 0.3747978 7.29E−04 //12 23//69 8.41725 Fusion_MS2.13728.13728.4 2 DPF2:130- 4.51425 SMARCA2:381 0 0.096376953 JL021317_021517_BAF45D_85B_(—) N 4.51425 0.163231545 //13 12//64 2.56975 Fusion_MS2.09881.09881.4 3 DPF2:216- 8.66475 SMARCA2:478 −1 11.33802506 JL021317_021517_BAF45D_85B_(—) N 8.66475 0.226021233 //14 19//129 4.928 Fusion_MS2.13295.13295.5 4 DPF2:207- 5.075 SMARCA2:1505 0 5.710855734 JL021317_021517_BAF45D_85B_(—) P 5.075 0.141317665 1.29E−01 //12 21//151 4.96625 Fusion_MS2.12440.12440.5 5 DPF2:207- 6.802 SMARCA2:1540 0 −7.979545997 JL021317_021517_BAF45D_85B_(—) P 6.802 0.217733675 1.46E−02 //12 17//112 6.545 Fusion_MS2.12210.12210.4 6 DPF2:318- 3.98775 SMARCA2:463 −3 11.76588629 JL021317_021517_BAF45D_D_(—) N 3.98775 0.104033236 //13 13//172 2.21875 Fusion_MS2.13131.13131.5 7 DPF2:318- 15.7195 SMARCA2:1505 0 0.614877869 JL021317_021517_BAF45D_85B_(—) P 15.7195 0.523172416 2.93E−01 //13 36//176 15.67675 Fusion_MS2.13912.13912.5 −1 1.224325614 JL021317_021517_BAF45D_100B_(—) P 15.32375 0.504410869 1.54E−02 //13 36//176 15.3025 Fusion_MS2.14038.14038.5 −2 3.391160717 JL021317_021517_hBAF45D_(—) P 10.965 0.340533238 5.77E−03 //13 30//133 10.8595 Fusion_MS2.14680.14680.4 8 DPF2:258- 7.26025 SMARCA2:1434 0 −1.020950857 JL021317_021517_BAF45D_70B_(—) P 7.26025 0.239917056 3.79E−03 //12 18//69 6.49575 Fusion_MS2.11136.11136.4 9 DPF2:108- 15.57675 SMARCA2:1505 0 −5.015763067 JL021317_021517_BAF45D_70B_(—) P 15.57675 0.595748953 1.20E−02 //17 38//111 15.491 Fusion_MS2.14104.14104.4 10  DPF2:261- 8.39925 SMARCA2:1434 −4 3.26125075 JL021317_021517_BAF45D_50B_(—) P 8.39925 0.208121167 1.40E−03 //16 16//131 5.9525 Fusion_MS2.12451.12451.4 11  DPF2:178- 2.2325 SMARCA2:1434 −4 15.02232013 JL021317_021517_BAF45D_85B_(—) P 2.2325 0.066840317 1.50E−01 //12 11//195 1.68625 Fusion_MS2.13658.13658.6 65 DPF2- SMARCD3 1 DPF2:108- 8.84475 SMARCD3:264 0 0.925067331 JL021317_021517_BAF45D_70B_(—) P 8.84475 0.1744303 1.56E−02 //8 9//130 1.07225 Fusion_MS2.18538.18538.4 66 DPF2- SMARCC2 1 DPF2:207- 6.83725 SMARCC2:724 0 11.9272307 JL021317_021517_BAF45D_70B_(—) N 6.83725 0.187960468 //12 15//68 5.71425 Fusion_MS2.12488.12488.4 2 DPF2:130- 4.0395 SMARCC2:6 0 −1.38960336 JL021317_021517_BAF45D_100B_(—) P 4.0395 0.188304121 5.42E−03 //9 6//46 0.83125 Fusion_MS2.05579.05579.4 3 DPF2:59- 7.71125 SMARCC2:455 −4 −0.463239041 JL021317_021517_BAF45D_85B_(—) P 7.71125 0.165945748 3.33E−03 //14 25//180 6.719 Fusion_MS2.16244.16244.5 −3 0.597215536 JL021317_021517_BAF45D_100B_(—) P 7.11725 0.153138179 3.86E−03 //14 27//180 5.99475 Fusion_MS2.16238.16238.5 4 DPF2:186- 3.78075 SMARCC2:297 0 2.535782078 JL021317_021517_BAF45D_85B_(—) N 3.78075 0.16135675 1//10 11//55 2.604 Fusion_MS2.06797.06797.4 5 DPF2:188- 2.9505 SMARCC2:6 0 13.494288 JL021317_021517_BAF45D_100B_(—) N 2.9505 0.119414764 2//9 8//45 0.9915 Fusion_MS2.05486.05486.4 6 DPF2:241- 10.96625 SMARCC2:773 0 1.590329842 JL021317_021517_BAF45D_100B_(—) N 10.96625 0.299902915 //5 42//259 10.04175 Fusion_MS2.09288.09288.5 −1 5.324715829 JL021317_021517_BAF45D_100B_(—) N 10.52075 0.291951104 //5 36//259 9.57525 Fusion_MS2.09759.09759.5 0 8.243090813 JL021317_021517_BAF45D_100B_(—) N 10.41425 0.293070212 //5 26//186 9.1175 Fusion_MS2.09620.09620.4 −2 3.10564221 JL021317_021517_BAF45D_100B_(—) N 10.25525 0.271651458 //5 42//259 9.316 Fusion_MS2.09440.09440.5 −1 2.136748793 JL021317_021517_BAF45D_100B_(—) N 7.858 0.256353375 //5 21//186 6.8655 Fusion_MS2.09783.09783.4 −2 11.44909832 JL021317_021517_BAF45D_100B_(—) N 7.44675 0.213649405 //5 31//259 6.50975 Fusion_MS2.09746.09746.5 0 9.862272757 JL021317_021517_BAF45D_5D_(—) N 7.32025 0.209665177 //5 31//259 6.41125 Fusion_MS2.09597.09597.5 −2 2.761012262 JL021317_021517_BAF45D_D_(—) N 6.3105 0.211509779 //5 17//186 5.3185 Fusion_MS2.06682.06682.6 0 15.33140107 JL021317_021517_BAF45D_5D_(—) N 6.107 0.200242639 //5 22//259 5.125 Fusion_MS2.08777.08777.5 −1 1.087177147 JL021317_021517_BAF45D_5D_(—) N 5.36775 0.186112026 //5 21//259 4.30225 Fusion_MS2.08578.08578.5 67 DPF2- SMARCD1 1 DPF2:130- 19.69775 SMARCD1:101 −1 −4.964172419 JL021317_021517_BAF45D_85B_(—) P 19.69775 0.554983447 3.73E−08 //16 35//124 19.04775 Fusion_MS2.08589.08589.4 0 −0.164207045 JL021317_021517_BAF45D_85B_(—) P 13.994 0.370603814 1.75E−03 1//16 29//162 13.38525 Fusion_MS2.08569.08569.5 2 DPF2:186- 2.76875 SMARCD1:156 0 3.152071457 JL021317_021517_BAF45D_10D_(—) N 2.76875 0.116738695 //10 6//65 0.9835 Fusion_MS2.05242.05242.5 3 DPF2:186- 4.975 SMARCD1:131 −3 3.63362549 JL021317_021517_BAF45D_85B_(—) N 4.975 0.187661493 //10 8//54 1.6355 Fusion_MS2.06937.06937.4 68 DPF2- SMARCE1 1 DPF2:99- 2.86 SMARCE1:79 −1 −4.12585946 JL021317_021517_BAF45D_70B_(—) P 2.86 0.073669569 1.67E−02 //17 12//88 1.8065 Fusion_MS2.13878.13878.4 2 DPF2:108- 11.272 SMARCE1:79 −2 4.832404164 JL021317_021517_BAF45D_70B_(—) NP 11.272 0.298643493 2.69E−07 //17 25//111 9.27675 Fusion_MS2.15393.15393.4 3 DPF2:130- 3.90575 SMARCE1:85 0 0.969564034 JL021317_021517_BAF45D_85B_(—) N 3.90575 0.109244109 //16 11//81 1.59325 Fusion_MS2.09982.09982.4 4 DPF2:318- 5.77975 SMARCE1:284 −3 4.041386945 JL021317_021517_BAF45D_85B_(—) N 5.77975 0.128620387 //13 14//168 1.26575 Fusion_MS2.19750.19750.5 69 DPF2- SMARCC1 1 DPF2:188- 4.53525 SMARCC1:199 0 0.13926587 JL021317_021517_BAF45D_100B_(—) NP 4.53525 0.204626977 2.45E−05 3//13 13//65 1.635 Fusion_MS2.04961.04961.4 −1 2.75699137 JL021317_021517_BAF45D_100B_(—) NP 3.74 0.157400783 1.16E−02 2//13 10//65 0.9445 Fusion_MS2.04979.04979.4 2 DPF2:188- 3.0455 SMARCC1:740 0 15.87268582 JL021317_021517_BAF45D_5D_(—) N 3.0455 0.144281789 //8 5//36 1.0085 Fusion_MS2.02770.02770.4 3 DPF2:186- 5.4875 SMARCC1:948 −1 12.82752006 JL021317_021517_BAF45D_70B_(—) N 5.4875 0.146247535 //9 16//167 1.825 Fusion_MS2.13480.13480.5 4 DPF2:318- 8.24925 SMARCC1:127 −2 14.51585698 JL021317_021517_BAF45D_85B_(—) N 8.24925 0.293103448 //13 19//168 6.18175 Fusion_MS2.16743.16743.5 5 DPF2:130- 5.49825 SMARCC1:317 0 −1.204797149 JL021317_021517_BAF45D_70B_(—) NP 5.49825 0.246934788 9.37E−04 4//9 12//34 3.28375 Fusion_MS2.04786.04786.4 0 7.637148637 JL021317_021517_hBAF45D_(—) NP 4.822 0.248646419 3.97E−04 2//9 10//34 2.57 Fusion_MS2.05224.05224.4 0 −1.964587757 JL021317_021517_BAF45D_100B_(—) P 3.083 0.137972701 2.20E−02 //11 6//47 0.40875 Fusion_MS2.05127.05127.4 6 DPF2:130- 2.7675 SMARCC1:740 −1 15.78728529 JL021317_021517_BAF45D_70B_(—) N 2.7675 0.107037187 2//9 8//35 1.07725 Fusion_MS2.05551.05551.4 7 DPF2:130- 4.66525 SMARCC1:292 0 6.711980342 JL021317_021517_BAF45D_85B_(—) N 4.66525 0.223860365 5//9 12//34 2.99 Fusion_MS2.09183.09183.4 8 DPF2:130- 5.65025 SMARCC1:199 0 −4.555464309 JL021317_021517_BAF45D_10D_(—) NP 5.65025 0.257209514 2.43E−04 //14 14//70 2.46825 Fusion_MS2.06236.06236.4 −1 2.704627169 JL021317_021517_BAF45D_10D_(—) N 3.72875 0.181310933 //14 12//87 1.3975 Fusion_MS2.06269.06269.5 9 DPF2:130- 12.21275 SMARCC1:201 −2 4.238172577 JL021317_021517_BAF45D_5D_(—) N 12.21275 0.351132802 //15 29//214 10.583 Fusion_MS2.11196.11196.5 −1 2.350261644 JL021317_021517_BAF45D_5D_(—) P 10.2895 0.341531823 3.45E−01 //15 22//214 9.85475 Fusion_MS2.11224.11224.6 −2 6.479187437 JL021317_021517_BAF45D_5D_(—) N 9.68525 0.291790314 //15 25//214 8.723 Fusion_MS2.11184.11184.5 70 DPF2- SMARCB1 1 DPF2:130- 3.2225 SMARCB1:364 0 −4.439135228 JL021317_021517_BAF45D_100B_(—) P 3.2225 0.144154421 1.46E−05 //8 4//39 0.181 Fusion_MS2.05251.05251.4 2 DPF2:285- 8.07075 SMARCB1:364 0 2.247563481 JL021317_021517_BAF45D_85B_(—) P 8.07075 0.297281618 2.62E−03 //16 23//104 7.884 Fusion_MS2.05920.05920.4 3 DPF2:108- 14.1555 SMARCB1:324 0 −6.016609057 JL021317_021517_BAF45D_85B_(—) P 14.1555 0.383093598 2.15E−01 //9 19//202 2.86975 Fusion_MS2.19594.19594.5 0 4.076999603 JL021317_021517_BAF45D_85B_(—) P 12.7395 0.324032506 1.36E−01 1//9 16//202 2.149 Fusion_MS2.19570.19570.5 71 ARID1B- SMARCD3 1 ARID1B:1930- 17.8 SMARCD3:432 −2 −0.776726809 JL021317_021517_BAF45D_85B_(—) NP 17.8 0.441462779 1.14E−06 //14 21//117 5.096 Fusion_MS2.15037.15037.4 −3 −3.261566945 JL021317_021517_BAF45D_85B_(—) NP 17.195 0.451857886 8.87E−07 //14 21//117 5.7595 Fusion_MS2.15060.15060.4 −2 1.33796204 JL021317_021517_BAF45D_85B_(—) NP 13.86475 0.40682355 2.14E−03 2//14 27//158 4.247 Fusion_MS2.15013.15013.5 −3 9.404437844 JL021317_021517_BAF45D_100B_(—) NP 13.0615 0.35342425 8.52E−06 //14 27//158 8.905 Fusion_MS2.14407.14407.5 −1 −2.251186709 JL021317_021517_BAF45D_85B_(—) NP 12.73775 0.397328322 8.09E−06 5//14 33//158 5.39975 Fusion_MS2.15062.15062.6 −4 −2.507983133 JL021317_021517_BAF45D_100B_(—) P 12.315 0.419362528 6.49E−05 5//14 28//158 5.8245 Fusion_MS2.14398.14398.6 −2 2.278570398 JL021317_021517_BAF45D_100B_(—) N 11.2425 0.391922748 4//14 22//117 5.586 Fusion_MS2.14422.14422.7 −2 0.544325808 JL021317_021517_BAF45D_100B_(—) NP 10.9705 0.368273524 9.04E−09 5//14 30//158 4.00675 Fusion_MS2.14436.14436.6 −1 9.862408976 JL021317_021517_BAF45D_85B_(—) NP 10.86725 0.355656101 2.46E−05 5//14 32//158 4.05175 Fusion_MS2.15029.15029.6 −1 2.695228849 JL021317_021517_BAF45D_100B_(—) N 8.10925 0.199809043 //14 14//158 1.405 Fusion_MS2.15047.15047.5 72 ARID1B- SMARCA2 1 ARID1B:2187- 11.22475 SMARCA2:434 0 1.032325365 JL021317_021517_BAF45D_70B_(—) N 11.22475 0.302203645 8//12 26//57 6.44 Fusion_MS2.12487.12487.4 −1 4.439132505 JL021317_021517_BAF45D_70B_(—) N 7.80225 0.241432395 5//12 23//57 3.80675 Fusion_MS2.10943.10943.4 0 −2.39134698 JL021317_021517_BAF45D_70B_(—) NP 7.059 0.271630592 3.43E−04 //12 13//52 5.023 Fusion_MS2.08914.08914.4 0 5.686359364 JL021317_021517_BAF45D_70B_(—) N 5.7175 0.171668343 4//12 13//57 1.35425 Fusion_MS2.11407.11407.4 −1 13.58287853 JL021317_021517_BAF45D_70B_(—) N 5.52 0.171711202 3//12 12//57 1.2135 Fusion_MS2.11398.11398.4 0 −0.564420442 JL021317_021517_BAF45D_85B_(—) NP 5.246 0.169803687 1.20E−01 2//12 13//70 1.29675 Fusion_MS2.09479.09479.5 −1 2.183991434 JL021317_021517_BAF45D_85B_(—) P 4.27325 0.178864426 6.68E−04 1//12 8//55 0.62225 Fusion_MS2.09467.09467.4 2 ARID1B:2187- 7.87 SMARCA2:437 0 3.220971257 JL021317_021517_BAF45D_70B_(—) N 7.87 0.234848259 2//10 12//42 3.0415 Fusion_MS2.07444.07444.4 0 0.173040146 JL021317_021517_BAF45D_70B_(—) NP 4.25225 0.146102836 6.70E−03 2//10 11//42 1.6565 Fusion_MS2.09254.09254.4 −1 11.37944305 JL021317_021517_hBAF45D_(—) N 3.133 0.11000316 //10 7//42 0.95325 Fusion_MS2.10072.10072.4 3 ARID1B:1612- 10.09775 SMARCA2:413 0 −3.635282163 JL021317_021517_BAF45D_5D_(—) NP 10.09775 0.357113807 4.08E−06 //17 20//119 8.97825 Fusion_MS2.08305.08305.5 −1 −1.688223092 JL021317_021517_BAF45D_85B_(—) NP 7.20975 0.289623797 2.63E−07 //17 21//119 6.22125 Fusion_MS2.09549.09549.5 −2 −1.733114688 JL021317_021517_BAF45D_85B_(—) P 4.3415 0.164478794 8.78E−03 //17 16//94 3.89 Fusion_MS2.09562.09562.4 4 ARID1B:1930- 13.8625 SMARCA2:416 −2 −3.824683239 JL021317_021517_BAF45D_5D_(—) P 13.8625 0.487695474 8.11E−02 1//14 31//162 13.74975 Fusion_MS2.12390.12390.6 0 −1.628847611 JL021317_021517_BAF45D_5D_(—) P 12.8195 0.493941087 3.40E−01 //14 25//162 12.646 Fusion_MS2.12480.12480.6 73 ARID1B- SMARCA4 1 ARID1B:1083- 2.85525 SMARCA4:1029 −1 3.685596573 JL021317_021517_BAF45D_85B_(—) N 2.85525 0.103445465 1//15 10//129 1.85525 Fusion_MS2.14781.14781.5 2 ARID1B:2187- 13.255 SMARCA4:458 −2 4.993149368 JL021317_021517_BAF45D_70B_(—) N 13.255 0.343687609 9//12 33//57 8.12925 Fusion_MS2.12584.12584.4 −1 2.332625719 JL021317_021517_BAF45D_70B_(—) N 11.8775 0.370303975 8//12 29//57 6.9485 Fusion_MS2.11010.11010.4 0 2.808737433 JL021317_021517_hBAF45D_(—) N 11.5795 0.365214786 8//12 30//57 6.509 Fusion_MS2.13341.13341.4 0 −6.859780658 JL021317_021517_BAF45D_85B_(—) NP 9.57175 0.297930122 1.37E−05 7//12 23//69 4.26725 Fusion_MS2.09613.09613.5 0 0.92675742 JL021317_021517_BAF45D_85B_(—) NP 9.47175 0.280158836 2.19E−07 6//12 21//55 3.6185 Fusion_MS2.09609.09609.4 −1 11.14440384 JL021317_021517_BAF45D_70B_(—) N 9.382 0.281268737 7//12 26//57 3.94625 Fusion_MS2.11548.11548.4 0 0.080932668 JL021317_021517_BAF45D_85B_(—) N 8.4665 0.288949183 5//12 18//54 2.6335 Fusion_MS2.08329.08329.4 −1 1.097410912 JL021317_021517_hBAF45D_(—) N 6.86925 0.262480656 2//12 19//57 2.35525 Fusion_MS2.11844.11844.4 3 ARID1B:1930- 13.773 SMARCA4:437 −1 −3.897202247 JL021317_021517_BAF45D_5D_(—) NP 13.773 0.392309336 3.98E−08 //14 24//158 5.78825 Fusion_MS2.14416.14416.6 −2 1.079054908 JL021317_021517_BAF45D_100B_(—) NP 12.03425 0.316936833 5.58E−04 //14 20//158 4.95025 Fusion_MS2.15114.15114.5 −3 −3.929721013 JL021317_021517_BAF45D_85B_(—) NP 10.72275 0.278646882 7.00E−04 //14 14//159 2.14675 Fusion_MS2.15734.15734.5 −2 −0.192911514 JL021317_021517_BAF45D_100B_(—) NP 8.02625 0.207150416 1.24E−04 //14 17//158 2.8525 Fusion_MS2.15116.15116.6 −1 1.352973596 JL021317_021517_BAF45D_5D_(—) P 6.71025 0.187793854 9.49E−06 //14 12//158 1.8315 Fusion_MS2.14922.14922.6 −1 −2.216888816 JL021317_021517_BAF45D_5D_(—) NP 6.22375 0.163194535 9.26E−06 //14 15//158 4.295 Fusion_MS2.14423.14423.5 −1 3.414178805 JL021317_021517_BAF45D_85B_(—) P 3.52275 0.099953184 1.52E−04 //14 13//159 1.75275 Fusion_MS2.15750.15750.6 4 ARID1B:1372- 5.96475 SMARCA4:207 −1 2.264044024 JL021317_021517_BAF45D_100B_(—) P 5.96475 0.148360258 1.10E−01 //18 15//123 4.29525 Fusion_MS2.10178.10178.5 5 ARID1B:2110- 11.07975 SMARCA4:835 −2 4.765786547 JL021317_021517_BAF45D_50B_(—) N 11.07975 0.3429573 //16 22//160 9.63075 Fusion_MS2.20696.20696.4 6 ARID1B:1612- 15.4265 SMARCA4:437 −1 1.774158067 JL021317_021517_BAF45D_5D_(—) P 15.4265 0.488466349 4.48E−07 //17 29//116 15.0735 Fusion_MS2.09561.09561.5 0 −8.966765953 JL021317_021517_BAF45D_85B_(—) NP 14.8685 0.498984814 6.97E−09 3//17 38//119 13.1 Fusion_MS2.10301.10301.5 0 −5.623569398 JL021317_021517_BAF45D_85B_(—) NP 13.52375 0.486728451 8.36E−06 1//17 28//94 12.2745 Fusion_MS2.10285.10285.4 −1 5.212507611 JL021317_021517_BAF45D_5D_(—) NP 13.5085 0.496334944 1.92E−12 //17 30//91 11.69025 Fusion_MS2.08991.08991.4 0 −0.11706191 JL021317_021517_BAF45D_5D_(—) NP 12.309 0.39413394 1.29E−04 1//17 27//114 10.645 Fusion_MS2.09000.09000.5 −1 −1.244141482 JL021317_021517_BAF45D_10D_(—) P 10.756 0.478863834 8.21E−08 //17 25//91 10.0025 Fusion_MS2.08959.08959.4 0 −1.442120494 JL021317_021517_BAF45D_10D_(—) P 10.6985 0.378419964 4.10E−06 //17 22//114 10.07025 Fusion_MS2.08953.08953.5 0 −0.858669894 JL021317_021517_BAF45D_10D_(—) P 8.56875 0.355078319 2.39E−05 //17 23//91 8.306 Fusion_MS2.08994.08994.4 0 15.34131148 JL021317_021517_BAF45D_85B_(—) N 4.4245 0.145912344 //17 10//93 3.403 Fusion_MS2.09640.09640.4 74 ARID1B- SMARCE1 1 ARID1B:1616- 17.621 SMARCE1:146 0 −0.339923486 JL021317_021517_BAF45D_5D_(—) NP 17.621 0.538794356 2.63E−18 //17 28//130 13.4725 Fusion_MS2.13247.13247.5 −1 0.415025993 JL021317_021517_BAF45D_5D_(—) NP 13.70675 0.429207766 1.43E−14 //17 25//130 10.47875 Fusion_MS2.13233.13233.5 −3 11.67574239 JL021317_021517_BAF45D_85B_(—) N 9.382 0.257323094 2//17 20//99 5.4525 Fusion_MS2.14106.14106.4 −1 −3.428940965 JL021317_021517_BAF45D_5D_(—) NP 9.24825 0.301904809 1.17E−09 1//17 21//130 5.4265 Fusion_MS2.13280.13280.6 −2 6.19560248 JL021317_021517_BAF45D_5D_(—) NP 8.3005 0.318998482 5.75E−10 //17 16//99 5.98525 Fusion_MS2.13255.13255.4 −1 5.102332572 JL021317_021517_BAF45D_85B_(—) N 4.51125 0.14475373 2//17 20//130 2.627 Fusion_MS2.14138.14138.5 2 ARID1B:1616- 6.9905 SMARCE1:166 −1 −2.116057836 JL021317_021517_BAF45D_70B_(—) P 6.9905 0.161004652 3.33E−07 //14 24//212 4.312 Fusion_MS2.14621.14621.5 3 ARID1B:2187- 11.6775 SMARCE1:166 −4 1.25327211 JL021317_021517_BAF45D_50B_(—) P 11.6775 0.251207366 6.80E−11 1//14 30//159 8.7325 Fusion_MS2.14784.14784.4 −3 3.72594386 JL021317_021517_BAF45D_50B_(—) NP 8.0325 0.171120887 5.08E−07 //14 22//159 6.185 Fusion_MS2.14735.14735.4 0 2.430734854 JL021317_021517_BAF45D_50B_(—) NP 6.53125 0.138005536 1.13E−07 //14 21//159 5.14225 Fusion_MS2.14777.14777.4 4 ARID1B:1372- 9.1655 SMARCE1:240 −1 6.19601708 JL021317_021517_BAF45D_85B_(—) P 9.1655 0.257201386 7.25E−04 //13 21//72 8.4355 Fusion_MS2.12660.12660.4 5 ARID1B:1612- 14.22725 SMARCE1:146 −3 8.950352026 JL021317_021517_BAF45D_D_(—) N 14.22725 0.470610125 //17 23//130 11.2685 Fusion_MS2.12545.12545.5 −1 5.828288894 JL021317_021517_BAF45D_D_(—) N 12.454 0.387209103 //17 24//130 10.1195 Fusion_MS2.12552.12552.5 −1 13.69790977 JL021317_021517_BAF45D_D_(—) N 9.44675 0.299222388 //17 19//130 6.69925 Fusion_MS2.12520.12520.5 −3 2.714501878 JL021317_021517_BAF45D_D_(—) N 9.13075 0.314116898 //17 17//99 5.65075 Fusion_MS2.12536.12536.6 75 ARID1B- SMARCD1 1 ARID1B:1360- 11.918 SMARCD1:101 −2 2.514960886 JL021317_021517_BAF45D_5D_(—) N 11.918 0.283111423 //14 26//225 7.09075 Fusion_MS2.08774.08774.7 −4 4.012134264 JL021317_021517_BAF45D_5D_(—) P 9.55225 0.329763179 6.23E−07 //14 27//318 9.12925 Fusion_MS2.08793.08793.6 −3 2.706024034 JL021317_021517_BAF45D_5D_(—) P 9.0215 0.321312818 8.15E−11 //14 27//318 8.14175 Fusion_MS2.08778.08778.6 2 ARID1B:2110- 4.88475 SMARCD1:173 −2 19.18398839 JL021317_021517_BAF45D_5D_(—) N 4.88475 0.187690919 //13 5//75 2.0435 Fusion_MS2.09486.09486.5 3 ARID1B:2110- 3.8405 SMARCD1:125 0 3.675344259 JL021317_021517_BAF45D_10D_(—) N 3.8405 0.195073016 //13 11//78 2.91525 Fusion_MS2.05508.05508.5 4 ARID1B:1930- 17.42075 SMARCD1:464 −3 −1.645017556 JL021317_021517_BAF45D_85B_(—) NP 17.42075 0.498148466 5.06E−05 3//14 29//158 5.9155 Fusion_MS2.15408.15408.5 −1 −1.098358191 JL021317_021517_BAF45D_100B_(—) NP 13.79775 0.447042719 3.00E−05 5//14 32//158 6.09525 Fusion_MS2.14788.14788.6 −2 8.105911094 JL021317_021517_BAF45D_100B_(—) NP 13.75175 0.432465368 1.77E−07 4//14 30//158 5.90275 Fusion_MS2.14768.14768.6 −2 4.413613508 JL021317_021517_BAF45D_100B_(—) NP 12.98475 0.361752661 1.30E−09 //14 33//158 9.444 Fusion_MS2.14764.14764.5 −2 −6.144224789 JL021317_021517_BAF45D_100B_(—) NP 12.33925 0.344051918 1.35E−06 //14 28//158 8.3625 Fusion_MS2.14832.14832.5 −1 2.319895676 JL021317_021517_BAF45D_85B_(—) NP 11.822 0.362360153 5.62E−05 2//14 28//158 4.04575 Fusion_MS2.15397.15397.6 −1 5.321799412 JL021317_021517_BAF45D_100B_(—) N 11.062 0.411425596 4//14 23//117 4.82075 Fusion_MS2.14793.14793.7 −2 5.364305992 JL021317_021517_BAF45D_85B_(—) N 9.94325 0.236229405 //14 11//117 2.767 Fusion_MS2.15464.15464.4 −3 −1.403607802 JL021317_021517_BAF45D_85B_(—) NP 9.94175 0.318640727 2.57E−02 //14 10//117 2.86775 Fusion_MS2.15413.15413.4 −3 3.257272159 JL021317_021517_BAF45D_85B_(—) N 9.1875 0.292153589 //14 15//117 1.5905 Fusion_MS2.14266.14266.6 0 0.516045292 JL021317_021517_BAF45D_100B_(—) N 6.32175 0.213767626 3//14 18//117 2.73175 Fusion_MS2.13667.13667.6 5 ARID1B:1046- 4.29475 SMARCD1:173 0 4.234679221 JL021317_021517_BAF45D_D_(—) N 4.29475 0.183457924 //15 9//93 1.14925 Fusion_MS2.10569.10569.5 6 ARID1B:1898- 9.89225 SMARCD1:156 0 3.90965743 JL021317_021517_BAF45D_100B_(—) NP 9.89225 0.33895561 8.76E−06 2//14 25//69 4.352 Fusion_MS2.11654.11654.4 −1 1.564635438 JL021317_021517_BAF45D_100B_(—) NP 7.4475 0.243207498 2.25E−07 2//14 18//87 2.808 Fusion_MS2.11667.11667.5 7 ARID1B:1904- 8.9375 SMARCD1:156 −1 −1.246663804 JL021317_021517_BAF45D_70B_(—) NP 8.9375 0.332088582 7.54E−12 2//12 16//55 4.7235 Fusion_MS2.11512.11512.4 −1 −0.937270367 JL021317_021517_BAF45D_70B_(—) NP 8.92275 0.326141784 1.14E−11 2//12 17//55 4.73725 Fusion_MS2.11509.11509.4 0 −2.549308972 JL021317_021517_BAF45D_85B_(—) NP 7.93925 0.282726755 3.28E−13 1//12 15//54 4.51175 Fusion_MS2.10541.10541.4 −2 1.537877123 JL021317_021517_hBAF45D_(—) NP 7.90825 0.335992267 1.77E−12 1//12 14//55 4.25725 Fusion_MS2.12441.12441.4 8 ARID1B:2097- 10.58875 SMARCD1:156 0 −0.687745772 JL021317_021517_BAF45D_70B_(—) NP 10.58875 0.345315354 1.18E−13 6//12 23//55 5.87725 Fusion_MS2.12451.12451.4 0 2.879634357 JL021317_021517_BAF45D_85B_(—) NP 9.90925 0.334297618 5.51E−12 4//12 20//55 5.03975 Fusion_MS2.12755.12755.4 0 −4.357051048 JL021317_021517_hBAF45D_(—) NP 8.6165 0.307919094 6.82E−11 3//12 17//55 4.506 Fusion_MS2.13237.13237.4 −2 1.998187738 JL021317_021517_BAF45D_70B_(—) N 8.29575 0.312357626 2//9 18//48 6.592 Fusion_MS2.12991.12991.4 −2 5.058527499 JL021317_021517_BAF45D_85B_(—) NP 7.436 0.243571686 1.16E−13 1//12 17//54 4.7745 Fusion_MS2.11374.11374.4 −1 −3.337799583 JL021317_021517_BAF45D_5D_(—) NP 7.42775 0.30925764 1.01E−10 //12 10//55 3.724 Fusion_MS2.12575.12575.4 −1 −3.165317038 JL021317_021517_BAF45D_85B_(—) NP 7.029 0.229114378 3.27E−11 1//12 17//54 4.55175 Fusion_MS2.11367.11367.4 −1 4.738550457 JL021317_021517_BAF45D_70B_(—) N 6.987 0.266934097 2//9 16//48 5.4645 Fusion_MS2.12971.12971.4 0 −5.081415571 JL021317_021517_BAF45D_85B_(—) NP 6.71925 0.239281009 8.82E−10 1//12 16//68 4.18775 Fusion_MS2.11379.11379.5 −1 −2.624323557 JL021317_021517_BAF45D_70B_(—) NP 6.57175 0.23838327 1.06E−07 //12 12//55 3.691 Fusion_MS2.12789.12789.4 0 2.401959463 JL021317_021517_BAF45D_70B_(—) N 6.457 0.183429683 3//12 17//55 4.08075 Fusion_MS2.11040.11040.4 −2 13.98947534 JL021317_021517_hBAF45D_(—) NP 5.71625 0.237341444 3.78E−10 1//12 15//55 3.19125 Fusion_MS2.13204.13204.4 9 ARID1B:1608- 9.567 SMARCD1:101 −3 8.533952566 JL021317_021517_BAF45D_70B_(—) NP 9.567 0.229815753 5.08E−06 1//16 17//156 4.9615 Fusion_MS2.10898.10898.5 −3 −0.762686589 JL021317_021517_BAF45D_70B_(—) NP 9.113 0.215185539 2.69E−02 1//16 20//156 5.74 Fusion_MS2.11089.11089.5 −1 2.354421834 JL021317_021517_BAF45D_70B_(—) NP 8.51925 0.211868938 3.46E−04 //16 16//156 4.97125 Fusion_MS2.10815.10815.5 0 4.869983016 JL021317_021517_BAF45D_70B_(—) NP 7.273 0.190559784 1.18E−03 //16 15//156 4.308 Fusion_MS2.10905.10905.5 10  ARID1B:1616- 13.826 SMARCD1:101 −1 −3.661312961 JL021317_021517_BAF45D_100B_(—) NP 13.826 0.421511539 1.30E−13 //16 22//157 10.24125 Fusion_MS2.10097.10097.6 −1 3.52153784 JL021317_021517_BAF45D_70B_(—) NP 13.575 0.39657036 6.33E−11 //16 31//119 8.74325 Fusion_MS2.10621.10621.4 −2 9.723569754 JL021317_021517_BAF45D_70B_(—) NP 13.52525 0.398487103 2.52E−10 //16 33//119 8.90425 Fusion_MS2.10612.10612.4 −1 1.512668844 JL021317_021517_BAF45D_100B_(—) P 13.5025 0.370240886 9.29E−07 //16 30//157 11.78825 Fusion_MS2.10116.10116.5 −1 3.643422906 JL021317_021517_BAF45D_70B_(—) NP 12.99325 0.342879574 4.50E−07 //16 29//158 10.15525 Fusion_MS2.10617.10617.5 −2 −0.926384039 JL021317_021517_BAF45D_70B_(—) NP 11.7595 0.347610813 7.53E−12 //16 32//119 8.03325 Fusion_MS2.10605.10605.4 76 ARID1B- SMARCC2 1 ARID1B:1676- 5.80775 SMARCC2:622 0 10.42695645 JL021317_021517_BAF45D_D_(—) N 5.80775 0.156902607 //15 10//175 3.30075 Fusion_MS2.19526.19526.5 2 ARID1B:1984- 10.209 SMARCC2:874 −1 2.468034217 JL021317_021517_BAF45D_85B_(—) NP 10.209 0.306677882 1.64E−12 //13 31//144 6.41225 Fusion_MS2.06711.06711.5 0 −0.828623173 JL021317_021517_BAF45D_85B_(—) NP 9.24025 0.299896143 2.40E−10 //13 26//144 5.27075 Fusion_MS2.06717.06717.5 −1 2.111181547 JL021317_021517_BAF45D_5D_(—) N 5.9565 0.251748695 //12 9//146 1.6385 Fusion_MS2.06087.06087.5 −1 6.406611654 JL021317_021517_BAF45D_85B_(—) NP 3.57625 0.162324399 1.78E−10 //13 9//107 1.278 Fusion_MS2.06728.06728.4 3 ARID1B:1843- 7.80575 SMARCC2:874 0 5.852903515 JL021317_021517_BAF45D_10D_(—) NP 7.80575 0.353986214 6.52E−05 1//10 16//63 6.60025 Fusion_MS2.03525.03525.5 −1 6.004108357 JL021317_021517_BAF45D_10D_(—) P 4.9875 0.331604667 1.62E−05 //10 15//53 4.22425 Fusion_MS2.03510.03510.4 4 ARID1B:1904- 12.3125 SMARCC2:897 0 7.180174366 JL021317_021517_BAF45D_85B_(—) NP 12.3125 0.447662158 1.10E−10 3//15 28//73 8.40525 Fusion_MS2.17005.17005.4 −1 5.017787554 JL021317_021517_BAF45D_85B_(—) NP 4.802 0.167896227 3.77E−06 //15 10//73 2.5695 Fusion_MS2.17036.17036.4 5 ARID1B:1844- 5.426 SMARCC2:874 0 2.990231652 JL021317_021517_BAF45D_10D_(—) P 5.426 0.366869506 1.66E−05 //10 14//53 4.54575 Fusion_MS2.03632.03632.4 6 ARID1B:1781- 9.5055 SMARCC2:592 0 −2.504328884 JL021317_021517_BAF45D_70B_(—) NP 9.5055 0.30801011 2.05E−04 1//10 17//53 6.376 Fusion_MS2.07584.07584.4 0 4.808942102 JL021317_021517_hBAF45D_(—) NP 8.4545 0.338071817 1.73E−08 3//10 16//53 5.5475 Fusion_MS2.08668.08668.4 −1 19.05751785 JL021317_021517_BAF45D_70B_(—) N 5.45975 0.162292109 //10 8//53 3.03425 Fusion_MS2.08143.08143.4 77 ARID1B- SS18 1 ARID1B:1372- 7.948 SS18:13 0 −1.059707669 JL021317_021517_BAF45D_85B_(—) NP 7.948 0.255916541 2.32E−10 1//14 9//65 1.25075 Fusion_MS2.09178.09178.4 78 ARID1B- SMARCD2 1 ARID1B:1372- 4.24675 SMARCD2:143 0 −9.697468272 JL021317_021517_BAF45D_85B_(—) NP 4.24675 0.142496435 7.13E−06 2//14 12//66 1.0255 Fusion_MS2.09219.09219.4 2 ARID1B:1930- 20.54175 SMARCD2:480 −2 0.777137726 JL021317_021517_BAF45D_5D_(—) NP 20.54175 0.525042174 1.18E−18 //14 41//158 12.24575 Fusion_MS2.16339.16339.5 −2 6.120563702 JL021317_021517_BAF45D_100B_(—) NP 19.57075 0.577674631 2.30E−08 //14 26//117 6.28075 Fusion_MS2.17099.17099.4 −3 1.128434967 JL021317_021517_BAF45D_10D_(—) NP 18.04525 0.484208761 4.60E−18 //14 36//158 11.637 Fusion_MS2.16302.16302.5 −2 −2.06026306 JL021317_021517_BAF45D_100B_(—) NP 18.02625 0.506063924 1.80E−17 //14 40//158 11.7485 Fusion_MS2.16419.16419.5 −2 13.39798946 JL021317_021517_BAF45D_85B_(—) NP 16.709 0.429852205 2.96E−05 //14 24//117 4.552 Fusion_MS2.17126.17126.4 −2 2.281683944 JL021317_021517_BAF45D_5D_(—) N 16.6205 0.441142903 6//14 35//117 10.13975 Fusion_MS2.16230.16230.7 0 1.425686477 JL021317_021517_BAF45D_D_(—) NP 16.56575 0.440947869 4.91E−17 //14 35//158 10.13425 Fusion_MS2.16197.16197.5 −1 2.655226818 JL021317_021517_BAF45D_D_(—) NP 16.43775 0.428971268 3.07E−10 1//14 35//158 10.75025 Fusion_MS2.16241.16241.5 −2 3.037990907 JL021317_021517_BAF45D_10D_(—) N 16.36625 0.462081963 7//14 37//117 9.6955 Fusion_MS2.16316.16316.7 −3 −1.573851496 JL021317_021517_BAF45D_100B_(—) NP 15.54375 0.415425013 1.07E−13 //14 35//158 10.63575 Fusion_MS2.16404.16404.5 −2 0.410583486 JL021317_021517_BAF45D_85B_(—) NP 15.06275 0.438571845 1.72E−03 //14 15//117 2.49275 Fusion_MS2.17138.17138.4 0 1.679463153 JL021317_021517_BAF45D_5D_(—) NP 14.9955 0.450409996 1.25E−07 4//14 35//158 6.7525 Fusion_MS2.16260.16260.6 −2 11.52262234 JL021317_021517_BAF45D_100B_(—) N 14.99 0.466898195 //14 20//117 4.419 Fusion_MS2.17083.17083.4 −2 0.323567401 JL021317_021517_BAF45D_5D_(—) NP 14.6865 0.467574021 6.64E−05 3//14 31//158 3.693 Fusion_MS2.16953.16953.5 −2 1.003891538 JL021317_021517_BAF45D_10D_(—) NP 14.63425 0.413006054 2.11E−03 6//14 35//158 6.54625 Fusion_MS2.16315.16315.6 −2 0.39092154 JL021317_021517_BAF45D_D_(—) N 14.47425 0.405856127 6//14 29//117 8.0835 Fusion_MS2.16218.16218.7 −2 8.580488046 JL021317_021517_BAF45D_100B_(—) NP 14.416 0.366730689 3.29E−04 //14 21//141 7.06125 Fusion_MS2.17718.17718.5 −1 −8.02174525 JL021317_021517_BAF45D_D_(—) NP 14.2145 0.410207203 4.20E−04 5//14 33//158 6.126 Fusion_MS2.16194.16194.6 −3 0.213835113 JL021317_021517_BAF45D_5D_(—) N 13.59475 0.395489389 5//14 33//117 7.138 Fusion_MS2.16220.16220.7 −2 −5.775906947 JL021317_021517_BAF45D_10D_(—) NP 13.47575 0.403001032 3.76E−10 //14 31//158 9.57475 Fusion_MS2.16296.16296.5 −2 −3.08939745 JL021317_021517_BAF45D_85B_(—) NP 13.339 0.364368931 1.49E−01 7//14 24//141 6.51825 Fusion_MS2.17757.17757.6 −1 −0.718913857 JL021317_021517_BAF45D_100B_(—) NP 13.1965 0.365624913 1.58E−01 5//14 23//141 6.64875 Fusion_MS2.17713.17713.6 −1 −2.349487061 JL021317_021517_BAF45D_85B_(—) NP 13.17425 0.383178454 2.25E−03 2//14 27//158 3.60775 Fusion_MS2.17090.17090.5 −1 2.897125951 JL021317_021517_BAF45D_85B_(—) N 12.5255 0.297030994 1//14 22//141 6.66575 Fusion_MS2.17734.17734.5 −2 3.030606385 JL021317_021517_BAF45D_5D_(—) NP 12.25875 0.360461355 1.80E−06 4//14 31//158 4.91225 Fusion_MS2.16412.16412.6 −3 5.274769151 JL021317_021517_BAF45D_100B_(—) NP 12.23925 0.350785303 8.28E−11 6//14 33//158 4.1315 Fusion_MS2.17065.17065.6 −4 −0.558120719 JL021317_021517_BAF45D_5D_(—) P 12.22775 0.396220148 4.13E−04 1//14 22//158 2.50875 Fusion_MS2.16924.16924.5 −1 0.852333494 JL021317_021517_BAF45D_85B_(—) NP 12.11075 0.361288446 1.75E−07 3//14 33//158 4.66475 Fusion_MS2.17128.17128.6 −3 0.127636708 JL021317_021517_BAF45D_85B_(—) NP 11.9585 0.378367689 8.76E−05 2//14 25//158 2.64175 Fusion_MS2.17171.17171.5 −2 4.641887133 JL021317_021517_BAF45D_5D_(—) N 11.8755 0.300679824 //14 20//117 4.94975 Fusion_MS2.16239.16239.4 0 3.682017753 JL021317_021517_hBAF45D_(—) N 11.249 0.364475837 5//14 24//117 6.2365 Fusion_MS2.17318.17318.7 −2 3.598086542 JL021317_021517_BAF45D_100B_(—) NP 11.08425 0.306313215 1.95E−03 3//14 29//158 3.63475 Fusion_MS2.16429.16429.6 0 4.099184988 JL021317_021517_BAF45D_85B_(—) NP 10.9395 0.322318798 1.74E−08 3//14 28//158 3.8645 Fusion_MS2.17106.17106.6 −2 0.796353296 JL021317_021517_BAF45D_D_(—) NP 10.45725 0.323128621 4.68E−04 2//14 26//158 2.72525 Fusion_MS2.16915.16915.6 −1 0.359679417 JL021317_021517_BAF45D_D_(—) N 10.44975 0.284242523 //14 19//158 1.9525 Fusion_MS2.16897.16897.5 0 −1.733704881 JL021317_021517_BAF45D_100B_(—) NP 9.91975 0.329275377 6.58E−02 1//14 22//158 1.7 Fusion_MS2.17040.17040.5 −2 7.870639692 JL021317_021517_BAF45D_5D_(—) NP 9.87375 0.304177385 7.34E−08 //14 27//158 7.9445 Fusion_MS2.15623.15623.5 −1 0.516452305 JL021317_021517_BAF45D_D_(—) NP 9.79525 0.30523831 4.73E−04 3//14 24//158 2.97125 Fusion_MS2.16932.16932.6 −3 1.748016665 JL021317_021517_BAF45D_D_(—) NP 9.605 0.291100302 2.88E−07 5//14 30//158 3.58575 Fusion_MS2.16945.16945.6 −4 0.652594297 JL021317_021517_BAF45D_5D_(—) P 9.308 0.301571359 2.78E−06 4//14 18//158 3.26775 Fusion_MS2.17018.17018.6 −1 3.076253784 JL021317_021517_BAF45D_5D_(—) N 8.79725 0.295815259 //14 14//117 3.48175 Fusion_MS2.16442.16442.7 −4 −1.425225742 JL021317_021517_BAF45D_5D_(—) P 8.431 0.237693826 2.42E−05 //14 24//158 4.45275 Fusion_MS2.17015.17015.5 −3 1.076254287 JL021317_021517_BAF45D_5D_(—) NP 7.971 0.256392936 4.60E−03 3//14 23//158 2.428 Fusion_MS2.16936.16936.6 −2 −3.951863584 JL021317_021517_BAF45D_5D_(—) NP 7.81775 0.243263217 1.68E−04 //14 22//158 6.0505 Fusion_MS2.15629.15629.5 −1 11.51853491 JL021317_021517_BAF45D_70B_(—) N 7.7315 0.215044642 //14 14//141 2.48875 Fusion_MS2.18887.18887.5 −1 0.989789251 JL021317_021517_BAF45D_100B_(—) N 7.5855 0.23130403 1//14 13//117 2.65575 Fusion_MS2.15512.15512.7 −1 −0.407220964 JL021317_021517_BAF45D_5D_(—) P 7.5045 0.275642321 2.47E−02 //14 8//158 0.89925 Fusion_MS2.16997.16997.6 −4 2.615709738 JL021317_021517_BAF45D_100B_(—) P 7.2975 0.247641509 6.68E−05 1//14 15//158 1.6005 Fusion_MS2.17159.17159.6 −3 11.87002366 JL021317_021517_BAF45D_5D_(—) P 7.2915 0.200373734 2.10E−04 //14 25//158 5.7665 Fusion_MS2.16477.16477.5 −3 −2.114308789 JL021317_021517_BAF45D_5D_(—) NP 7.1195 0.209363191 2.22E−04 //14 20//158 4.05475 Fusion_MS2.16485.16485.5 0 2.00335101 JL021317_021517_hBAF45D_(—) N 6.818 0.213269104 //14 14//141 3.38225 Fusion_MS2.18707.18707.5 −4 −1.677724683 JL021317_021517_BAF45D_D_(—) P 5.91675 0.171046355 1.38E−02 1//14 15//158 1.28875 Fusion_MS2.16974.16974.5 −2 5.58266024 JL021317_021517_BAF45D_10D_(—) NP 5.452 0.24756499 1.16E−02 1//14 13//158 1.48625 Fusion_MS2.17046.17046.6 −2 1.468417087 JL021317_021517_hBAF45D_(—) N 5.44275 0.201426668 1//14 14//117 1.6935 Fusion_MS2.17328.17328.6 −2 0.411776067 JL021317_021517_BAF45D_100B_(—) N 4.56025 0.127612984 //14 16//158 2.20675 Fusion_MS2.15506.15506.5 3 ARID1B:1930- 5.75875 SMARCD2:514 0 −3.725087406 JL021317_021517_BAF45D_D_(—) NP 5.75875 0.182175509 1.49E−03 //14 18//163 2.92075 Fusion_MS2.13128.13128.5 4 ARID1B:2110- 9.30125 SMARCD2:185 −1 −1.83168023 JL021317_021517_BAF45D_100B_(—) NP 9.30125 0.254327081 4.06E−06 //16 22//104 7.9535 Fusion_MS2.09702.09702.5 −3 6.819675538 JL021317_021517_BAF45D_100B_(—) N 3.8885 0.136004337 //16 13//104 2.88275 Fusion_MS2.08749.08749.5 5 ARID1B:1904- 9.7545 SMARCD2:168 0 −1.193707138 JL021317_021517_BAF45D_70B_(—) NP 9.7545 0.382132294 2.02E−11 2//12 17//55 5.01825 Fusion_MS2.10399.10399.4 0 −0.347201656 JL021317_021517_BAF45D_70B_(—) NP 9.45325 0.373572417 2.98E−12 3//12 20//55 5.04275 Fusion_MS2.10370.10370.4 −1 −2.780904918 JL021317_021517_hBAF45D_(—) NP 6.87375 0.281440007 8.43E−13 1//12 13//55 3.55375 Fusion_MS2.11281.11281.4 6 ARID1B:1898- 9.46375 SMARCD2:168 −1 2.419965259 JL021317_021517_BAF45D_85B_(—) NP 9.46375 0.352480539 9.03E−08 1//14 22//69 3.70875 Fusion_MS2.10596.10596.4 0 0.11637615 JL021317_021517_BAF45D_85B_(—) NP 6.8485 0.231967755 1.62E−05 //14 15//87 2.41925 Fusion_MS2.10592.10592.5 7 ARID1B:2097- 9.2005 SMARCD2:168 0 1.887993379 JL021317_021517_BAF45D_70B_(—) NP 9.2005 0.329784755 1.42E−10 5//12 20//56 4.9455 Fusion_MS2.11200.11200.4 −1 1.99253741 JL021317_021517_BAF45D_85B_(—) NP 9.03975 0.314935461 4.37E−15 3//12 18//56 4.48775 Fusion_MS2.11759.11759.4 0 −2.293767824 JL021317_021517_hBAF45D_(—) NP 8.79325 0.325730214 2.30E−13 4//12 19//56 4.73275 Fusion_MS2.12154.12154.4 −2 3.351609801 JL021317_021517_BAF45D_100B_(—) NP 7.22 0.254651265 5.72E−09 //12 13//56 3.714 Fusion_MS2.11790.11790.4 79 ARID1B- SMARCB1 1 ARID1B:2187- 5.83325 SMARCB1:124 0 2.064581186 JL021317_021517_BAF45D_70B_(—) N 5.83325 0.240224441 //12 13//53 4.75825 Fusion_MS2.10418.10418.4 80 ARID1B- BCL7A 1 ARID1B:1904- 7.16 BCL7A:27 0 5.151547751 JL021317_021517_BAF45D_85B_(—) P 7.16 0.248956885 9.23E−05 //12 6//54 0.443 Fusion_MS2.08444.08444.4 0 1.142012666 JL021317_021517_BAF45D_85B_(—) NP 5.84425 0.196564308 1.08E−02 //12 9//67 1.65375 Fusion_MS2.08438.08438.5 81 ARID1B- SMARCC1 1 ARID1B:1372- 4.26225 SMARCC1:740 −1 3.797730671 JL021317_021517_BAF45D_100B_(—) NP 4.26225 0.179811424 2.94E−06 1//14 10//68 1.51075 Fusion_MS2.06025.06025.4 0 −3.748164541 JL021317_021517_BAF45D_100B_(—) NP 3.87825 0.16131481 1.49E−07 //14 9//68 1.75075 Fusion_MS2.06042.06042.4 2 ARID1B:1824- 8.2435 SMARCC1:608 −3 10.12781489 JL021317_021517_BAF45D_100B_(—) P 8.2435 0.189199114 1.20E−01 //9 33//293 8.0315 Fusion_MS2.14837.14837.6 −2 3.597209603 JL021317_021517_BAF45D_100B_(—) P 7.3165 0.180493882 5.99E−02 //9 37//293 7.24175 Fusion_MS2.14729.14729.6 3 ARID1B:1792- 12.274 SMARCC1:739 −1 −1.246019634 JL021317_021517_BAF45D_100B_(—) NP 12.274 0.45050468 4.55E−07 //17 33//127 11.17775 Fusion_MS2.11879.11879.5 4 ARID1B:1792- 4.84825 SMARCC1:608 0 3.666606011 JL021317_021517_BAF45D_70B_(—) NP 4.84825 0.173303426 1.61E−04 4//9 15//33 3.3205 Fusion_MS2.06822.06822.4 0 −2.415316075 JL021317_021517_hBAF45D_(—) NP 2.83175 0.1493933 1.07E−03 2//9 8//33 1.5165 Fusion_MS2.07505.07505.4 5 ARID1B:392- 4.98975 SMARCC1:428 −2 −1.62714658 JL021317_021517_BAF45D_FT_(—) P 4.98975 0.11325669 1.46E−03 //11 16//186 4.06225 Fusion_MS2.12806.12806.4 0 1.547970394 JL021317_021517_BAF45D_FT_(—) P 4.361 0.113274198 5.49E−02 //11 15//186 3.2945 Fusion_MS2.12794.12794.4 0 5.74366068 JL021317_021517_BAF45D_FT_(—) P 2.70575 0.064903212 2.01E−01 //11 15//186 1.089 Fusion_MS2.12605.12605.4 82 SMARCC1- SMARCD2 1 SMARCC1:925- 16.50175 SMARCD2:186 −1 −1.41812913 JL021317_021517_BAF45D_100B_(—) NP 16.50175 0.526019253 2.48E−10 //10 44//156 14.45625 Fusion_MS2.14951.14951.5 −1 2.425761832 JL021317_021517_BAF45D_10D_(—) NP 13.24875 0.54662197 1.78E−09 //10 29//154 11.887 Fusion_MS2.14158.14158.6 −4 13.69518324 JL021317_021517_BAF45D_10D_(—) P 7.108 0.260514211 1.13E−07 //10 30//154 4.67975 Fusion_MS2.14136.14136.5 −1 −4.346828793 JL021317_021517_BAF45D_100B_(—) NP 6.059 0.270563544 1.01E−08 //9 12//48 4.987 Fusion_MS2.05137.05137.4 2 SMARCC1:948- 8.9335 SMARCD2:340 −2 5.108427001 JL021317_021517_BAF45D_D_(—) NP 8.9335 0.225257823 3.30E−05 //9 23//166 6.715 Fusion_MS2.16858.16858.6 −2 1.699709985 JL021317_021517_BAF45D_D_(—) N 8.12375 0.185190462 //9 27//166 6.35825 Fusion_MS2.17876.17876.5 −2 0.873353683 JL021317_021517_BAF45D_5D_(—) N 7.6955 0.211956372 //9 19//122 4.97375 Fusion_MS2.18089.18089.6 −3 −3.263683614 JL021317_021517_BAF45D_D_(—) NP 7.671 0.198378525 4.57E−05 //9 23//166 5.711 Fusion_MS2.16842.16842.6 −3 0.04540155 JL021317_021517_BAF45D_D_(—) P 7.18575 0.155231635 2.90E−03 //9 23//166 5.05225 Fusion_MS2.16837.16837.5 −3 3.002273789 JL021317_021517_BAF45D_5D_(—) N 7.075 0.195398807 //9 16//122 4.0305 Fusion_MS2.18100.18100.6 −2 0.009413127 JL021317_021517_BAF45D_10D_(—) N 5.39 0.171905149 //9 13//122 2.7425 Fusion_MS2.18192.18192.6 −2 6.207636829 JL021317_021517_BAF45D_D_(—) N 4.33075 0.12073628 //9 13//122 2.35575 Fusion_MS2.17023.17023.6 3 SMARCC1:346- 2.889 SMARCD2:514 −1 13.49807521 JL021317_021517_BAF45D_70B_(—) N 2.889 0.103274469 //11 7//48 1.1815 Fusion_MS2.06779.06779.4 4 SMARCC1:740- 11.04325 SMARCD2:514 0 −3.008008671 JL021317_021517_BAF45D_100B_(—) NP 11.04325 0.40798175 5.66E−12 8//11 26//51 7.58025 Fusion_MS2.05852.05852.4 83 SMARCC1- SS18 1 SMARCC1:740- 3.79825 SS18:13 0 7.150542612 JL021317_021517_BAF45D_70B_(—) N 3.79825 0.126481851 1//15 11//78 1.86825 Fusion_MS2.06708.06708.4 84 SMARCC1- SMARCD3 1 SMARCC1:716- 12.00125 SMARCD3:417 0 −3.294755629 JL021317_021517_BAF45D_70B_(—) NP 12.00125 0.355408307 7.93E−12 //17 22//84 7.65875 Fusion_MS2.17156.17156.4 2 SMARCC1:317- 4.51175 SMARCD3:241 0 0.838865109 JL021317_021517_BAF45D_85B_(—) N 4.51175 0.184420282 //16 6//84 1.7425 Fusion_MS2.03860.03860.4 3 SMARCC1:948- 11.40075 SMARCD3:309 −1 −5.254307894 JL021317_021517_BAF45D_5D_(—) NP 11.40075 0.30475955 2.36E−08 //6 31//189 8.3805 Fusion_MS2.14649.14649.6 −4 −3.184033889 JL021317_021517_BAF45D_10D_(—) P 11.00225 0.28472995 1.37E−06 //6 30//189 8.2575 Fusion_MS2.14675.14675.5 −2 10.86852216 JL021317_021517_BAF45D_5D_(—) N 9.55575 0.301191433 //6 22//137 6.92 Fusion_MS2.14674.14674.7 −2 1.227152637 JL021317_021517_BAF45D_10D_(—) N 9.53075 0.292031805 //6 20//137 7.108 Fusion_MS2.15779.15779.6 −3 3.330858801 JL021317_021517_BAF45D_5D_(—) N 7.31125 0.229397738 //6 19//189 5.96225 Fusion_MS2.13714.13714.5 −3 18.58802939 JL021317_021517_BAF45D_100B_(—) N 6.507 0.16700888 //6 19//189 4.97075 Fusion_MS2.14954.14954.5 −1 −3.600284512 JL021317_021517_BAF45D_5D_(—) NP 6.42375 0.157450642 1.13E−04 //13 17//132 3.68625 Fusion_MS2.14611.14611.5 −3 7.111385042 JL021317_021517_BAF45D_100B_(—) N 5.63875 0.145651444 //6 13//137 2.55625 Fusion_MS2.15942.15942.4 85 SMARCC1- SMARCD1 1 SMARCC1:740- 9.171 SMARCD1:498 −1 1.499089929 JL021317_021517_BAF45D_70B_(—) NP 9.171 0.321800765 9.39E−09 3//11 20//52 6.15275 Fusion_MS2.06786.06786.4 2 SMARCC1:740- 17.833 SMARCD1:101 0 −1.881301208 JL021317_021517_BAF45D_85B_(—) NP 17.833 0.563052539 2.42E−05 //16 37//163 16.0325 Fusion_MS2.06385.06385.5 −2 −2.897678556 JL021317_021517_BAF45D_85B_(—) NP 16.568 0.535947078 5.90E−08 //16 37//163 14.841 Fusion_MS2.06360.06360.5 3 SMARCC1:716- 7.25575 SMARCD1:498 −1 12.46916069 JL021317_021517_BAF45D_70B_(—) N 7.25575 0.228164651 //17 21//85 4.9225 Fusion_MS2.13556.13556.4 −1 1.503901081 JL021317_021517_BAF45D_70B_(—) NP 5.736 0.173026455 2.18E−03 //17 18//85 3.85725 Fusion_MS2.13567.13567.4 4 SMARCC1:948- 17.739 SMARCD1:341 0 0.044598214 JL021317_021517_BAF45D_5D_(—) N 17.739 0.447265576 //12 35//95 14.17225 Fusion_MS2.17982.17982.4 −2 2.267237265 JL021317_021517_BAF45D_10D_(—) N 16.18725 0.44063725 //12 34//95 13.38975 Fusion_MS2.18026.18026.4 −1 2.936818543 JL021317_021517_BAF45D_D_(—) N 13.73575 0.346359453 //6 35//186 12.18125 Fusion_MS2.15631.15631.5 −3 4.26402831 JL021317_021517_BAF45D_D_(—) N 13.24 0.309903331 //12 26//95 9.9785 Fusion_MS2.18007.18007.4 −3 0.164379233 JL021317_021517_BAF45D_D_(—) N 11.8155 0.286530137 //6 23//135 9.29275 Fusion_MS2.16429.16429.6 −1 4.077807848 JL021317_021517_BAF45D_D_(—) N 11.7525 0.325626178 1//12 23//95 9.07475 Fusion_MS2.17171.17171.4 −2 7.248135706 JL021317_021517_BAF45D_D_(—) N 11.716 0.30698686 //6 22//135 9.1865 Fusion_MS2.14671.14671.6 −1 −2.961377445 JL021317_021517_BAF45D_D_(—) P 11.2755 0.265652794 6.74E−03 //6 29//186 9.7915 Fusion_MS2.15418.15418.5 −1 12.46443331 JL021317_021517_BAF45D_10D_(—) N 11.142 0.278108503 //12 23//95 8.47925 Fusion_MS2.17264.17264.4 −2 7.596751167 JL021317_021517_BAF45D_D_(—) N 10.9825 0.297169684 //12 24//95 8.5085 Fusion_MS2.16781.16781.4 −1 9.637858034 JL021317_021517_BAF45D_100B_(—) N 10.66775 0.253815772 //12 20//95 7.69475 Fusion_MS2.17334.17334.4 −2 3.703786707 JL021317_021517_BAF45D_5D_(—) N 10.4915 0.326680263 //12 20//95 8.725 Fusion_MS2.17206.17206.4 −2 19.77064401 JL021317_021517_BAF45D_D_(—) N 10.3525 0.249758745 //6 22//135 8.2565 Fusion_MS2.16446.16446.6 −1 4.164136294 JL021317_021517_BAF45D_D_(—) N 10.2565 0.26376834 1//12 24//95 8.1325 Fusion_MS2.16772.16772.4 −2 9.321497206 JL021317_021517_BAF45D_10D_(—) NP 9.4275 0.352476025 2.79E−07 //12 18//95 7.5245 Fusion_MS2.16841.16841.4 −2 −0.806780678 JL021317_021517_BAF45D_10D_(—) P 9.1435 0.328165096 8.22E−07 //12 20//95 7.72425 Fusion_MS2.16885.16885.4 −2 0.809362222 JL021317_021517_BAF45D_5D_(—) NP 8.6985 0.238825435 1.43E−05 //12 20//128 6.87225 Fusion_MS2.16813.16813.5 −2 2.796742331 JL021317_021517_BAF45D_10D_(—) NP 8.57425 0.22460674 3.64E−06 //12 19//128 6.3675 Fusion_MS2.16850.16850.5 −1 −6.639632852 JL021317_021517_BAF45D_D_(—) NP 8.20375 0.229922507 7.09E−05 1//12 21//128 6.156 Fusion_MS2.16778.16778.5 −1 15.96999527 JL021317_021517_BAF45D_5D_(—) N 8.1615 0.215878432 //12 17//95 6.39775 Fusion_MS2.17179.17179.4 −2 2.997510568 JL021317_021517_BAF45D_5D_(—) N 8.04175 0.236403857 //12 18//95 6.0365 Fusion_MS2.16814.16814.4 −3 3.048884188 JL021317_021517_BAF45D_10D_(—) N 7.7365 0.29723188 1//12 14//95 5.867 Fusion_MS2.16138.16138.4 −1 3.423516666 JL021317_021517_BAF45D_10D_(—) N 7.49425 0.271157464 //12 15//95 5.985 Fusion_MS2.16153.16153.4 −1 0.216055847 JL021317_021517_BAF45D_10D_(—) N 6.93825 0.2088199 //12 17//95 4.5115 Fusion_MS2.17298.17298.4 −1 −0.235852501 JL021317_021517_BAF45D_10D_(—) NP 6.12275 0.189312658 8.18E−05 //12 11//128 4.252 Fusion_MS2.16922.16922.5 −1 12.33767359 JL021317_021517_BAF45D_10D_(—) N 5.063 0.199621496 //12 14//95 3.2745 Fusion_MS2.16176.16176.4 5 SMARCC1:948- 4.378 SMARCD1:181 −2 2.450602297 JL021317_021517_BAF45D_5D_(—) N 4.378 0.171662713 //15 16//81 3.377 Fusion_MS2.11312.11312.4 6 SMARCC1:948- 10.2035 SMARCD1:327 0 0.622734153 JL021317_021517_BAF45D_5D_(—) N 10.2035 0.349896267 3//15 21//98 6.01925 Fusion_MS2.10784.10784.5 −2 2.272705331 JL021317_021517_BAF45D_5D_(—) N 9.60775 0.340410643 1//15 23//75 5.16775 Fusion_MS2.10725.10725.4 −2 0.826256582 JL021317_021517_BAF45D_5D_(—) N 8.376 0.364673357 //15 16//75 5.30475 Fusion_MS2.10726.10726.6 0 1.048289005 JL021317_021517_BAF45D_5D_(—) N 8.22225 0.358119733 //15 15//75 5.253 Fusion_MS2.10734.10734.6 −2 4.59371039 JL021317_021517_BAF45D_5D_(—) N 8.06925 0.264227709 2//13 24//99 5.50625 Fusion_MS2.12056.12056.6 0 1.485662217 JL021317_021517_BAF45D_100B_(—) N 8.061 0.265912352 //14 18//97 4.67475 Fusion_MS2.09240.09240.5 0 −1.353017426 JL021317_021517_BAF45D_D_(—) NP 8.00425 0.274324834 4.35E−11 //15 19//104 4.863 Fusion_MS2.09434.09434.5 −2 5.702269648 JL021317_021517_BAF45D_5D_(—) N 7.707 0.286197037 //14 17//97 4.46725 Fusion_MS2.09248.09248.5 0 4.812779764 JL021317_021517_BAF45D_5D_(—) N 7.374 0.36086914 //15 13//75 4.9065 Fusion_MS2.10823.10823.6 −3 −1.604840989 JL021317_021517_BAF45D_D_(—) NP 7.26175 0.289942305 8.80E−08 2//15 17//104 3.87625 Fusion_MS2.09458.09458.6 −1 5.532854885 JL021317_021517_BAF45D_D_(—) N 7.0815 0.309919254 //15 11//79 4.215 Fusion_MS2.09477.09477.7 0 2.52400479 JL021317_021517_BAF45D_5D_(—) N 7.0345 0.239835666 //13 17//99 3.8005 Fusion_MS2.12101.12101.6 −2 4.858391738 JL021317_021517_BAF45D_D_(—) N 7.0095 0.2769404 //15 13//80 3.28075 Fusion_MS2.07904.07904.6 −1 2.553308258 JL021317_021517_BAF45D_5D_(—) N 6.919 0.226737232 //13 21//131 4.75875 Fusion_MS2.12054.12054.5 0 1.314275423 JL021317_021517_BAF45D_D_(—) NP 6.89225 0.227827912 9.38E−09 //15 17//104 4.187 Fusion_MS2.09421.09421.5 −3 6.26058578 JL021317_021517_BAF45D_D_(—) N 6.793 0.234962471 //15 13//98 3.6755 Fusion_MS2.10839.10839.5 −1 10.21536127 JL021317_021517_BAF45D_D_(—) NP 6.4625 0.228074819 4.82E−05 1//13 18//131 4.171 Fusion_MS2.10990.10990.6 −3 6.96612238 JL021317_021517_BAF45D_D_(—) NP 6.44875 0.221283349 9.16E−05 //13 17//131 3.48375 Fusion_MS2.10985.10985.6 0 2.250344912 JL021317_021517_BAF45D_5D_(—) N 6.44875 0.214700693 //15 15//98 3.8365 Fusion_MS2.10645.10645.5 −1 6.237059909 JL021317_021517_BAF45D_D_(—) N 6.418 0.218317884 //15 14//98 3.85325 Fusion_MS2.10797.10797.5 0 0.80132686 JL021317_021517_BAF45D_5D_(—) N 6.13725 0.213139662 //14 12//97 2.536 Fusion_MS2.09283.09283.5 −2 11.08221234 JL021317_021517_hBAF45D_(—) N 6.112 0.196596867 //15 13//98 3.49575 Fusion_MS2.11312.11312.5 0 0.795722574 JL021317_021517_BAF45D_D_(—) NP 5.738 0.242744733 5.72E−09 //15 12//104 2.82425 Fusion_MS2.09423.09423.6 −1 4.609475942 JL021317_021517_BAF45D_10D_(—) N 5.45625 0.174837779 //15 14//98 3.00425 Fusion_MS2.10788.10788.5 −2 9.55083753 JL021317_021517_BAF45D_5D_(—) N 4.575 0.156364817 //15 9//98 2.3955 Fusion_MS2.11199.11199.5 −1 2.518703576 JL021317_021517_BAF45D_D_(—) NP 4.28775 0.153492993 1.05E−06 //15 13//79 1.95025 Fusion_MS2.09422.09422.4 −1 9.205020778 JL021317_021517_BAF45D_100B_(—) N 4.189 0.139428838 //15 6//98 2.03675 Fusion_MS2.11748.11748.5 −3 12.12068149 JL021317_021517_BAF45D_D_(—) N 3.99025 0.165104684 //15 11//79 1.903 Fusion_MS2.09418.09418.4 −2 6.933985115 JL021317_021517_BAF45D_D_(—) N 3.68625 0.134554314 //15 6//80 1.2935 Fusion_MS2.07917.07917.4 7 SMARCC1:317- 15.39825 SMARCD1:101 −1 1.107401895 JL021317_021517_BAF45D_85B_(—) NP 15.39825 0.509066715 6.49E−08 //16 32//161 14.23575 Fusion_MS2.06054.06054.5 −1 −0.503476929 JL021317_021517_BAF45D_85B_(—) P 14.4105 0.462156441 5.93E−03 //16 28//124 13.8635 Fusion_MS2.06068.06068.4 8 SMARCC1:615- 3.553 SMARCD1:353 −3 17.02877401 JL021317_021517_BAF45D_5D_(—) N 3.553 0.139281444 1//14 12//84 2.46675 Fusion_MS2.07163.07163.5 86 SMARCC1- SMARCC2 1 SMARCC1:588- 8.66 SMARCC2:566 0 12.54300845 JL021317_021517_BAF45D_50B_(—) N 8.66 0.244146544 //16 20//105 7.0285 Fusion_MS2.23038.23038.4 2 SMARCC1:199- 3.2095 SMARCC2:364 0 7.196603214 JL021317_021517_BAF45D_100B_(—) N 3.2095 0.141182422 //13 9//64 1.6425 Fusion_MS2.04335.04335.4 3 SMARCC1:615- 9.60125 SMARCC2:704 0 −7.534468609 JL021317_021517_BAF45D_85B_(—) NP 9.60125 0.339927421 1.94E−03 3//15 25//117 7.55125 Fusion_MS2.09406.09406.5 4 SMARCC1:854- 5.121 SMARCC2:724 0 −0.266372854 JL021317_021517_BAF45D_85B_(—) NP 5.121 0.191704414 3.14E−02 //13 15//64 2.822 Fusion_MS2.03996.03996.4 5 SMARCC1:716- 15.51475 SMARCC2:694 −1 −5.025731438 JL021317_021517_BAF45D_70B_(—) NP 15.51475 0.412209735 7.55E−05 3//17 26//84 7.4925 Fusion_MS2.15374.15374.4 −2 2.223704562 JL021317_021517_BAF45D_D_(—) NP 14.03175 0.422910576 6.55E−09 1//17 22//84 7.20625 Fusion_MS2.15239.15239.4 0 3.920381072 JL021317_021517_BAF45D_D_(—) NP 13.5455 0.393381445 4.37E−06 1//17 22//84 7.15475 Fusion_MS2.15257.15257.4 0 14.25532358 JL021317_021517_BAF45D_5D_(—) N 11.9255 0.37418616 //17 20//84 6.5545 Fusion_MS2.15261.15261.4 −2 2.146582902 JL021317_021517_BAF45D_10D_(—) NP 10.15275 0.316872396 1.62E−07 //17 17//84 4.99125 Fusion_MS2.15287.15287.4 −1 6.388274178 JL021317_021517_BAF45D_70B_(—) NP 7.68225 0.243189984 8.16E−06 //17 16//84 3.47925 Fusion_MS2.15432.15432.4 −2 8.35845616 JL021317_021517_BAF45D_10D_(—) N 6.63275 0.189604654 //17 14//84 2.90625 Fusion_MS2.15327.15327.4 6 SMARCC1:716- 12.41325 SMARCC2:704 −2 −2.947550294 JL021317_021517_BAF45D_100B_(—) NP 12.41325 0.431187801 1.50E−07 //11 26//176 7.77125 Fusion_MS2.15987.15987.6 −1 4.654141623 JL021317_021517_BAF45D_10D_(—) P 5.49975 0.213044741 7.93E−05 //11 10//176 1.07875 Fusion_MS2.15850.15850.5 7 SMARCC1:716- 12.2955 SMARCC2:872 −2 0.17436079 JL021317_021517_BAF45D_70B_(—) N 12.2955 0.289241228 //6 30//248 9.0935 Fusion_MS2.23362.23362.5 8 SMARCC1:716- 15.21 SMARCC2:702 0 4.134892029 JL021317_021517_BAF45D_85B_(—) NP 15.21 0.471474404 7.85E−11 1//10 39//180 9.36625 Fusion_MS2.15940.15940.6 −3 2.962384144 JL021317_021517_BAF45D_85B_(—) NP 14.21025 0.350113951 2.63E−11 3//10 42//180 9.3445 Fusion_MS2.15967.15967.5 −3 9.629055564 JL021317_021517_BAF45D_100B_(—) NP 13.44825 0.35134941 1.90E−04 2//10 36//180 7.77725 Fusion_MS2.15969.15969.5 −1 1.152811051 JL021317_021517_BAF45D_D_(—) NP 11.47525 0.408066925 4.85E−08 //10 26//180 7.381 Fusion_MS2.15787.15787.6 −1 1.57170215 JL021317_021517_BAF45D_D_(—) NP 10.68725 0.333221607 8.22E−05 1//10 25//180 5.979 Fusion_MS2.15777.15777.5 0 −2.026866724 JL021317_021517_BAF45D_100B_(—) NP 10.276 0.304109143 1.01E−08 //10 26//180 5.34275 Fusion_MS2.15991.15991.5 −1 18.59227576 JL021317_021517_BAF45D_D_(—) N 10.05375 0.377790095 //10 25//132 6.0015 Fusion_MS2.15762.15762.6 −2 −6.012532646 JL021317_021517_BAF45D_5D_(—) NP 9.817 0.278848475 2.50E−05 1//10 29//180 5.33125 Fusion_MS2.15821.15821.5 −2 1.342608215 JL021317_021517_BAF45D_85B_(—) N 8.889 0.243477546 1//8 26//178 5.61575 Fusion_MS2.18980.18980.5 −3 −3.348984273 JL021317_021517_BAF45D_10D_(—) NP 6.9235 0.236196162 8.94E−07 1//10 16//180 3.3615 Fusion_MS2.15840.15840.6 9 SMARCC1:716- 5.7475 SMARCC2:848 0 4.37538983 JL021317_021517_hBAF45D_(—) P 5.7475 0.263882831 4.18E−04 //17 17//93 4.913 Fusion_MS2.11944.11944.4 10  SMARCC1:740- 3.52475 SMARCC2:584 0 1.055554113 JL021317_021517_BAF45D_70B_(—) N 3.52475 0.169093308 3//9 7//35 0.947 Fusion_MS2.03759.03759.4 11  SMARCC1:740- 3.6025 SMARCC2:846 −1 1.378092071 JL021317_021517_BAF45D_100B_(—) P 3.6025 0.219651241 1.11E−05 //8 8//36 3.0615 Fusion_MS2.02905.02905.4 0 −1.281894934 JL021317_021517_BAF45D_100B_(—) NP 3.4315 0.21615748 3.53E−10 1//8 8//36 2.33075 Fusion_MS2.02507.02507.4 12  SMARCC1:740- 12.23275 SMARCC2:694 −1 −4.754450827 JL021317_021517_BAF45D_70B_(—) NP 12.23275 0.413184827 3.09E−07 //17 26//90 8.34825 Fusion_MS2.09757.09757.4 13  SMARCC1:127- 5.6675 SMARCC2:292 0 4.211066297 JL021317_021517_BAF45D_5D_(—) N 5.6675 0.165223602 //11 25//165 4.7175 Fusion_MS2.15097.15097.5 14  SMARCC1:317- 5.65975 SMARCC2:275 −1 1.061962451 JL021317_021517_BAF45D_85B_(—) NP 5.65975 0.202709479 1.47E−05 //16 13//112 4.01325 Fusion_MS2.07401.07401.4 15  SMARCC1:317- 3.2475 SMARCC2:6 −1 −0.005571366 JL021317_021517_BAF45D_100B_(—) NP 3.2475 0.146574291 5.49E−04 1//9 7//45 1.2155 Fusion_MS2.02503.02503.4 87 SMARCC1- SMARCE1 1 SMARCC1:925- 19.4305 SMARCE1:258 −2 −1.077124447 JL021317_021517_BAF45D_5D_(—) NP 19.4305 0.517870469 1.05E−07 //10 35//154 5.89625 Fusion_MS2.15890.15890.5 −3 −1.921906856 JL021317_021517_BAF45D_5D_(—) NP 19.34675 0.512408459 2.62E−12 //10 38//154 7.37325 Fusion_MS2.15889.15889.6 −3 1.825582924 JL021317_021517_BAF45D_D_(—) NP 18.95875 0.510556506 9.82E−12 //10 34//154 8.008 Fusion_MS2.15866.15866.6 −2 −2.220418646 JL021317_021517_BAF45D_85B_(—) NP 16.913 0.504150831 8.38E−08 2//15 31//125 12.45725 Fusion_MS2.10078.10078.5 −2 0.416440321 JL021317_021517_BAF45D_D_(—) NP 16.73025 0.461339602 3.96E−09 //10 27//154 4.931 Fusion_MS2.15910.15910.5 −1 3.156213353 JL021317_021517_BAF45D_D_(—) NP 15.874 0.408997217 3.69E−08 //10 26//154 5.34275 Fusion_MS2.15858.15858.6 0 8.831759471 JL021317_021517_BAF45D_10D_(—) NP 14.37375 0.344128949 3.23E−09 //10 27//154 5.01475 Fusion_MS2.15960.15960.6 −1 3.151371847 JL021317_021517_BAF45D_100B_(—) N 13.96325 0.322078956 //10 23//154 2.974 Fusion_MS2.17296.17296.5 −2 2.99623401 JL021317_021517_BAF45D_10D_(—) NP 12.71375 0.360893879 2.34E−07 //10 19//154 3.11225 Fusion_MS2.15972.15972.5 0 0.150647445 JL021317_021517_BAF45D_5D_(—) N 12.4405 0.328189097 //10 16//113 2.8125 Fusion_MS2.13214.13214.6 −1 8.584311259 JL021317_021517_BAF45D_100B_(—) NP 11.05025 0.27723002 9.17E−07 //10 17//154 3.4815 Fusion_MS2.16783.16783.5 −2 5.37005357 JL021317_021517_BAF45D_5D_(—) N 10.6595 0.301580116 //10 13//154 2.91025 Fusion_MS2.13212.13212.5 −3 20.05013548 JL021317_021517_BAF45D_5D_(—) N 10.02975 0.301125873 //10 16//113 3.5485 Fusion_MS2.15904.15904.4 0 −1.506084141 JL021317_021517_BAF45D_85B_(—) NP 9.57 0.30755387 2.37E−07 //15 22//97 6.318 Fusion_MS2.10092.10092.4 −1 1.67549343 JL021317_021517_BAF45D_5D_(—) N 8.9955 0.269439286 //10 16//154 2.33125 Fusion_MS2.13365.13365.5 −2 3.995871396 JL021317_021517_BAF45D_5D_(—) N 8.735 0.270508811 //10 15//113 2.49575 Fusion_MS2.15912.15912.4 −1 −6.538379775 JL021317_021517_BAF45D_5D_(—) NP 8.60425 0.215645363 2.91E−06 //10 22//154 3.36125 Fusion_MS2.16050.16050.6 −1 −4.990503561 JL021317_021517_BAF45D_10D_(—) P 6.74325 0.195052283 1.05E−05 //10 12//154 1.2515 Fusion_MS2.16052.16052.6 −3 2.332567818 JL021317_021517_BAF45D_10D_(—) N 6.13325 0.185188261 //10 14//113 1.1085 Fusion_MS2.13217.13217.6 −1 17.97548689 JL021317_021517_BAF45D_100B_(—) N 5.688 0.133753468 //10 14//154 1.70375 Fusion_MS2.13542.13542.5 −3 5.130817365 JL021317_021517_BAF45D_5D_(—) N 5.37775 0.150428677 //10 12//113 1.4695 Fusion_MS2.13410.13410.6 −2 2.340313066 JL021317_021517_BAF45D_100B_(—) N 4.7215 0.109706651 //10 23//154 2.53425 Fusion_MS2.16966.16966.5 2 SMARCC1:948- 11.047 SMARCE1:284 −1 10.30342339 JL021317_021517_BAF45D_100B_(—) N 11.047 0.308851487 //8 29//193 9.22675 Fusion_MS2.19630.19630.5 −2 7.455204236 JL021317_021517_BAF45D_5D_(—) N 9.87575 0.326056094 //14 22//116 7.84625 Fusion_MS2.18404.18404.4 −1 11.25897911 JL021317_021517_BAF45D_5D_(—) N 8.23925 0.231351875 //8 19//193 6.31475 Fusion_MS2.18458.18458.5 3 SMARCC1:740- 5.8335 SMARCE1:228 0 −0.467623951 JL021317_021517_BAF45D_70B_(—) NP 5.8335 0.27223726 1.57E−05 //8 8//36 3.2435 Fusion_MS2.05531.05531.4 0 −1.109357458 JL021317_021517_hBAF45D_(—) NP 5.241 0.236961682 2.90E−04 //8 6//36 3.021 Fusion_MS2.05877.05877.4 0 −3.105861703 JL021317_021517_BAF45D_85B_(—) NP 5.085 0.224063099 3.22E−03 //8 7//36 2.615 Fusion_MS2.05856.05856.4 4 SMARCC1:739- 12.379 SMARCE1:228 −2 1.623127949 JL021317_021517_BAF45D_100B_(—) P 12.379 0.437265984 1.45E−05 //17 32//128 11.87825 Fusion_MS2.12356.12356.5 0 0.264643276 JL021317_021517_BAF45D_100B_(—) P 11.0985 0.381084004 6.36E−05 //17 30//128 10.82225 Fusion_MS2.12387.12387.5 5 SMARCC1:326- 4.48475 SMARCE1:305 −2 14.42749966 JL021317_021517_BAF45D_100B_(—) N 4.48475 0.162252854 //16 13//125 3.48075 Fusion_MS2.04623.04623.5 6 SMARCC1:880- 24.24275 SMARCE1:228 −1 3.597208714 JL021317_021517_BAF45D_85B_(—) P 24.24275 0.682721282 2.13E−05 //18 52//235 23.65525 Fusion_MS2.14475.14475.5 −1 2.259133799 JL021317_021517_BAF45D_70B_(—) P 22.79925 0.575549693 2.78E−05 //18 46//170 22.35475 Fusion_MS2.15139.15139.4 −3 0.851619584 JL021317_021517_BAF45D_70B_(—) P 21.48225 0.567712738 2.54E−03 //18 42//225 21.03575 Fusion_MS2.15126.15126.5 −2 1.373470099 JL021317_021517_BAF45D_70B_(—) P 20.11525 0.538842234 2.20E−03 //18 43//225 19.64625 Fusion_MS2.15133.15133.5 −2 4.398621774 JL021317_021517_BAF45D_85B_(—) P 18.2015 0.512415191 4.54E−03 //18 36//176 18.0315 Fusion_MS2.14505.14505.4 −1 0.714997479 JL021317_021517_BAF45D_100B_(—) P 18.01 0.589660479 1.25E−03 //18 45//235 17.4485 Fusion_MS2.14548.14548.6 −2 1.88055022 JL021317_021517_BAF45D_100B_(—) P 17.59125 0.4608719 6.34E−04 //18 43//235 17.06475 Fusion_MS2.14514.14514.5 0 −2.024720117 JL021317_021517_BAF45D_85B_(—) P 16.23675 0.521051618 8.19E−04 //18 44//235 15.68625 Fusion_MS2.14472.14472.6 −1 −1.995482257 JL021317_021517_BAF45D_70B_(—) P 14.6555 0.45340779 6.45E−03 //18 37//225 14.42475 Fusion_MS2.15166.15166.6 0 1.099631139 JL021317_021517_BAF45D_70B_(—) P 10.54075 0.36368106 4.55E−03 //18 29//225 9.9165 Fusion_MS2.15190.15190.6 88 BCL7A- DPF2 1 BCL7A:47- 5.77275 DPF2:216 −2 9.799238986 JL021317_021517_hBAF45D_(—) N 5.77275 0.159254866 //14 14//66 3.2035 Fusion_MS2.15410.15410.4 2 BCL7A:15- 4.37075 DPF2:130 −1 10.096693 JL021317_021517_BAF45D_85B_(—) NP 4.37075 0.191158783 4.57E−03 2//9 13//35 3.4115 Fusion_MS2.06178.06178.4 89 BCL7A- SMARCA4 1 BCL7A:15- 4.64825 SMARCA4:496 0 −1.993664708 JL021317_021517_BAF45D_85B_(—) NP 4.64825 0.178278296 1.19E−05 1//10 14//42 3.4515 Fusion_MS2.05219.05219.4 −1 2.645127565 JL021317_021517_BAF45D_85B_(—) P 3.13675 0.131547494 3.23E−03 //10 12//42 2.2655 Fusion_MS2.05201.05201.4 0 −4.644403149 JL021317_021517_BAF45D_100B_(—) NP 3.1105 0.127560541 1.21E−04 1//10 11//42 1.8435 Fusion_MS2.05267.05267.4 0 −1.065906253 JL021317_021517_BAF45D_85B_(—) P 1.867 0.08323117 7.68E−04 1//10 9//42 1.287 Fusion_MS2.05272.05272.4 2 BCL7A:15- 10.5465 SMARCA4:499 −2 3.124484916 JL021317_021517_BAF45D_100B_(—) N 10.5465 0.361707965 //13 29//136 9.14 Fusion_MS2.09860.09860.5 −2 1.442084707 JL021317_021517_BAF45D_100B_(—) N 8.2385 0.27658503 //13 24//136 7.33825 Fusion_MS2.09872.09872.5 −1 1.206255388 JL021317_021517_hBAF45D_(—) NP 3.04275 0.148260488 1.80E−02 //7 6//32 1.6005 Fusion_MS2.05303.05303.4 −1 13.11367868 JL021317_021517_hBAF45D_(—) NP 2.6585 0.122286109 6.62E−03 //7 4//32 1.0175 Fusion_MS2.05281.05281.4 3 BCL7A:15- 4.54675 SMARCA4:835 0 1.402446371 JL021317_021517_BAF45D_100B_(—) NP 4.54675 0.177240479 4.87E−06 1//12 15//55 3.438 Fusion_MS2.05123.05123.4 0 −2.749612448 JL021317_021517_BAF45D_100B_(—) NP 4.472 0.208928029 1.27E−05 2//12 13//66 2.7295 Fusion_MS2.05141.05141.5 0 3.944196524 JL021317_021517_BAF45D_100B_(—) NP 3.04875 0.121767349 1.02E−04 //12 10//55 2.35975 Fusion_MS2.05114.05114.4 4 BCL7A:65- 2.907 SMARCA4:835 0 −2.850638588 JL021317_021517_BAF45D_100B_(—) P 2.907 0.13921747 4.80E−05 1//12 12//55 2.3325 Fusion_MS2.03550.03550.4 5 BCL7A:27- 8.4465 SMARCA4:835 0 1.118138256 JL021317_021517_BAF45D_70B_(—) NP 8.4465 0.294256998 5.52E−10 //12 10//53 1.9045 Fusion_MS2.08603.08603.4 6 BCL7A:27- 4.7135 SMARCA4:1610 0 2.165946773 JL021317_021517_BAF45D_85B_(—) P 4.7135 0.194958018 8.73E−04 //11 13//47 4.49125 Fusion_MS2.08345.08345.4 7 BCL7A:27- 6.399 SMARCA4:455 −1 14.05183648 JL021317_021517_BAF45D_85B_(—) N 6.399 0.264656616 //12 10//55 1.32475 Fusion_MS2.10080.10080.4 8 BCL7A:67- 2.7935 SMARCA4:835 0 1.053517915 JL021317_021517_BAF45D_100B_(—) P 2.7935 0.147761234 1.28E−03 1//12 11//55 2.262 Fusion_MS2.03583.03583.4 9 BCL7A:30- 2.7425 SMARCA4:835 0 −1.678780828 JL021317_021517_BAF45D_100B_(—) P 2.7425 0.144418115 5.84E−05 //12 8//55 1.84775 Fusion_MS2.05159.05159.4 −2 5.122979451 JL021317_021517_BAF45D_85B_(—) P 2.10175 0.087904389 3.06E−04 //12 9//55 1.69175 Fusion_MS2.06131.06131.4 10  BCL7A:19- 3.837 SMARCA4:499 0 −1.788425919 JL021317_021517_BAF45D_100B_(—) NP 3.837 0.142485796 5.68E−04 2//9 13//34 1.6025 Fusion_MS2.05463.05463.4 11  BCL7A:19- 8.95 SMARCA4:1414 0 2.068656505 JL021317_021517_BAF45D_5D_(—) N 8.95 0.431294123 //17 23//105 7.6395 Fusion_MS2.03321.03321.4 90 BCL7A- SMARCA2 1 BCL7A:15- 4.017 SMARCA2:472 −1 0.704731594 JL021317_021517_BAF45D_100B_(—) NP 4.017 0.156394783 3.75E−05 1//7 7//33 1.372 Fusion_MS2.05335.05335.4 0 3.083646211 JL021317_021517_BAF45D_85B_(—) N 2.8075 0.128322326 //7 5//33 0.9615 Fusion_MS2.05316.05316.4 2 BCL7A:15- 9.493 SMARCA2:846 −2 4.730991901 JL021317_021517_BAF45D_100B_(—) N 9.493 0.344873937 3//11 23//63 6.7815 Fusion_MS2.12200.12200.4 0 −8.442410536 JL021317_021517_BAF45D_10D_(—) P 8.08375 0.302529893 1.64E−10 //11 19//64 7.34275 Fusion_MS2.09004.09004.4 −1 −0.98036594 JL021317_021517_BAF45D_10D_(—) NP 7.66125 0.311142022 4.58E−07 //11 18//79 6.33025 Fusion_MS2.09007.09007.5 0 0.138688335 JL021317_021517_BAF45D_10D_(—) NP 7.33125 0.333034274 3.45E−06 1//11 15//79 5.21525 Fusion_MS2.09014.09014.6 −2 −0.260145923 JL021317_021517_BAF45D_10D_(—) P 1.40125 0.050977717 1.52E−05 //11 8//79 0.904 Fusion_MS2.09087.09087.5 3 BCL7A:15- 4.68825 SMARCA2:475 0 −3.945141341 JL021317_021517_BAF45D_100B_(—) NP 4.68825 0.188438272 4.11E−03 1//7 7//32 2.472 Fusion_MS2.05147.05147.4 4 BCL7A:19- 1.468 SMARCA2:805 0 −0.339241646 JL021317_021517_BAF45D_100B_(—) P 1.468 0.071522533 7.17E−03 //12 12//56 1.3155 Fusion_MS2.06958.06958.4 91 BCL7A- SMARCB1 1 BCL7A:15- 3.505 SMARCB1:126 0 2.707896571 JL021317_021517_BAF45D_100B_(—) N 3.505 0.119369945 //8 12//30 2.29075 Fusion_MS2.05481.05481.4 2 BCL7A:15- 10.49975 SMARCB1:324 0 9.518243421 JL021317_021517_BAF45D_100B_(—) NP 10.49975 0.266853469 2.53E−06 //9 35//203 9.23875 Fusion_MS2.14226.14226.5 −2 1.579161385 JL021317_021517_BAF45D_100B_(—) P 7.516 0.192975249 1.96E−05 //9 27//203 5.928 Fusion_MS2.14205.14205.5 −2 5.995096099 JL021317_021517_BAF45D_100B_(—) NP 6.8165 0.201510628 8.26E−07 //9 31//203 5.4475 Fusion_MS2.14236.14236.6 3 BCL7A:15- 2.6795 SMARCB1:124 −1 4.546387279 JL021317_021517_hBAF45D_(—) N 2.6795 0.117162221 //8 7//30 1.17 Fusion_MS2.05479.05479.4 4 BCL7A:34- 10.4145 SMARCB1:108 −1 5.641508551 JL021317_021517_BAF45D_70B_(—) NP 10.4145 0.396659747 3.83E−05 1//15 25//89 7.09975 Fusion_MS2.13705.13705.4 −2 18.40474487 JL021317_021517_BAF45D_D_(—) N 6.328 0.178431953 //3 23//227 3.387 Fusion_MS2.15754.15754.5 −3 8.038583176 JL021317_021517_BAF45D_85B_(—) N 5.7645 0.227486188 //15 11//89 1.1305 Fusion_MS2.15375.15375.4 −3 2.16479811 JL021317_021517_BAF45D_D_(—) NP 4.29975 0.116215741 1.42E−03 //3 19//227 2.3785 Fusion_MS2.15789.15789.5 5 BCL7A:34- 17.11625 SMARCB1:106 −1 −0.083148947 JL021317_021517_BAF45D_70B_(—) NP 17.11625 0.412136863 1.07E−08 6//17 39//94 12.287 Fusion_MS2.14356.14356.4 −3 −1.591768837 JL021317_021517_hBAF45D_(—) NP 10.837 0.315065705 4.98E−10 2//17 26//94 6.58225 Fusion_MS2.15206.15206.4 6 BCL7A:27- 8.527 SMARCB1:124 −2 1.558551227 JL021317_021517_BAF45D_100B_(—) NP 8.527 0.355914517 2.56E−04 3//11 21//49 7.57325 Fusion_MS2.06151.06151.4 −1 7.90502699 JL021317_021517_BAF45D_70B_(—) P 4.785 0.15470167 1.29E−03 3//11 17//48 4.3605 Fusion_MS2.06531.06531.4 7 BCL7A:47- 4.80825 SMARCB1:124 −1 −1.303614873 JL021317_021517_BAF45D_100B_(—) P 4.80825 0.152599257 1.08E−02 1//13 19//65 4.526 Fusion_MS2.08937.08937.4 92 BCL7A- SMARCC2 1 BCL7A:34- 5.73525 SMARCC2:704 −2 16.33718104 JL021317_021517_BAF45D_100B_(—) N 5.73525 0.239657766 //15 12//89 1.849 Fusion_MS2.15607.15607.4 93 BCL7A- SMARCC1 1 BCL7A:15- 6.9415 SMARCC1:199 0 2.433118219 JL021317_021517_BAF45D_5D_(—) N 6.9415 0.317826973 1//13 18//63 3.8675 Fusion_MS2.04673.04673.4 2 BCL7A:19- 4.58475 SMARCC1:199 −1 4.505514482 JL021317_021517_BAF45D_10D_(—) N 4.58475 0.216916635 //13 14//63 2.43225 Fusion_MS2.04591.04591.4 Total unique inter crosslinks are: 434 Total counted inter crosslinks are: 1388 connective1 peptide1 protein1 Unique 1.8 R.RDTTLETALNSK[1013.57]AYK.R P51531:413 1 SMARCA2 0.45 R.EARMTEK[1312.64]LEK.Q P51531:431 1 SMARCA2 0.65625 K.K[1137.66]TAC[160.03]YDIDVEVDDPLK.A Q92925:402 1 SMARCD2 1.666666667 R.QK[1024.6]HQEYLNSILQHAK.D P51531:447 P51532:471 2 SMARCA2 3.964285714 R.Q[111.03]K[988.58]HQEYLNSILQHAK.D P51531:447 P51532:471 2 SMARCA2 3.535714286 R.Q[111.03]K[988.56]HQEYLNSILQHAK.D P51531:447 P51532:471 2 SMARCA2 3.40625 R.RQK[988.57]HQEYLNSILQHAK.D P51531:447 P51532:471 2 SMARCA2 3.176470588 R.Q[111.03]K[988.57]HQEYLNSILQHAK[284.17]DFK.E P51531:447 P51532:471 2 SMARCA2 2.785714286 R.Q[111.03]K[988.58]HQEYLNSILQHAK.D P51531:447 P51532:471 2 SMARCA2 1.970588235 R.QK[988.57]HQEYLNSILQHAK[284.17]DFK.E P51531:447 P51532:471 2 SMARCA2 2.142857143 R.Q[111.03]K[988.56]HQEYLNSILQHAK.D P51531:447 P51532:471 2 SMARCA2 1.964285714 R.Q[111.03]K[988.57]HQEYLNSILQHAK.D P51531:447 P51532:471 2 SMARCA2 1.441176471 R.QK[988.6]HQEYLNSILQHAK[284.17]DFK.E P51531:447 P51532:471 2 SMARCA2 1.818181818 R.K[1542.77]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA2 2.818181818 R.K[982.56]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA2 0.277777778 R.DRK[998.58]ASANAR.K Q92922:317 1 SMARCC1 2.318181818 R.HQGTFTDEK[939.54]SK.A Q92922:199 1 SMARCC1 1.120689655 K.WILDTDIFNEWMNEEDYEVDENRK[982.53]PVSFR.Q Q92922:292 1 SMARCC1 0.875 R.K[1251.72]PVSFRQR.I Q92922:292 1 SMARCC1 0.571428571 R.IRNHK[982.56]YR.S P51531:1460 P51532:1518 2 SMARCA2 1.666666667 R.DRK[1251.72]ASANAR.K Q92922:317 1 SMARCC1 1.5 K.K[982.53]VQEAAR.A Q92922:740 1 SMARCC1 1 R.DRK[1009.62]ASANAR.K Q92922:317 1 SMARCC1 2.052631579 R.SPQVPAAQQMLNFPEK[284.17]NK[1830.89]EK.P Q92922:590 1 SMARCC1 1.868421053 R.SPQVPAAQQMLNFPEK[284.17]NK[1830.9]EK.P Q92922:590 1 SMARCC1 0.825 R.LMEEDELPSWIIK[1680.92]DDAEVER.L P51531:1286 P51532:1349 2 SMARCA2 1.3125 R.TK[1066.61]ATVELK.A P51531:375 1 SMARCA2 0.9375 R.TK[1119.62]ATVELK.A P51531:375 1 SMARCA2 2 R.DTTLETALNSK[857.47]AYKR.S P51531:413 1 SMARCA2 0.571428571 K.MK[1400.73]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.966666667 R.QK[725.44]HQEYLNSILQHAK.D P51531:447 P51532:471 2 SMARCA2 2.384615385 K.NVPSK[284.17]SK[1151.61]AAASATR.E Q8TAQ2:592 1 SMARCC2 1.384615385 K.NVPSK[284.17]SK[1151.63]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.461538462 K.NVPSK[1151.59]SK[284.17]AAASATR.E Q8TAQ2:590 1 SMARCC2 1.653846154 K.NVPSK[1151.6]SK[284.17]AAASATR.E Q8TAQ2:590 1 SMARCC2 1.3125 R.LQDSHDKEYINGDK[2047]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 1.282608696 R.LQDSHDKEYINGDK[2029.94]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 1 R.LQDSHDKEYINGDK[2047]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 1.416666667 R.EWTEQETLLLLEALEMYK[1391.79]DDWNKVSEHVGSR.T Q8TAQ2:617 Q92922:639 2 SMARCC2 0.9 R.EWTEQETLLLLEALEM[147.04]YK[1391.81]DDWNKVSEHVGSR.T Q8TAQ2:617 Q92922:639 2 SMARCC2 0.783333333 R.EWTEQETLLLLEALEM[147.04]YK[1391.8]DDWNKVSEHVGSR.T Q8TAQ2:617 Q92922:639 2 SMARCC2 0.733333333 R.EWTEQETLLLLEALEMYK[1391.75]DDWNKVSEHVGSR.T Q8TAQ2:617 Q92922:639 2 SMARCC2 0.983333333 R.EWTEQETLLLLEALEM[147.04]YK[1391.8]DDWNKVSEHVGSR.T Q8TAQ2:617 Q92922:639 2 SMARCC2 0.883333333 R.EWTEQETLLLLEALEM[147.04]YK[1391.81]DDWNKVSEHVGSR.T Q8TAQ2:617 Q92922:639 2 SMARCC2 0.785714286 R.K[1288.69]LRIYISNTFSPSK.A Q92925:193 1 SMARCD2 1.166666667 R.HIFAK[1388.78]VQQR.R Q92925:514 1 SMARCD2 2.222222222 K.MADK[1164.76]VLPQR.I Q92925:143 1 SMARCD2 2.55 R.KMADK[1036.66]VLPQR.I Q92925:143 1 SMARCD2 2.388888889 R.KM[147.04]ADK[1036.66]VLPQR.I Q92925:143 1 SMARCD2 2.25 R.KMADK[1164.76]VLPQR.I Q92925:143 1 SMARCD2 2.45 R.KMADK[1164.76]VLPQR.I Q92925:143 1 SMARCD2 1.055555556 K.MADK[1036.66]VLPQR.I Q92925:143 1 SMARCD2 1.633333333 K.MK[1391.8]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.583333333 R.K[1725.01]LEAELLQIEER.H Q969G3:240 1 SMARCE1 2.333333333 R.K[1725.01]LEAELLQIEER.H Q969G3:240 1 SMARCE1 3.541666667 K.SLVALLVETQM[147.04]K[1735.96]K.L Q8TAQ2:897 Q92922:905 2 SMARCC2 3 K.SLVALLVETQM[147.04]K[1735.98]K.L Q8TAQ2:897 Q92922:905 2 SMARCC2 1.708333333 R.K[1725.01]LEAELLQIEER.H Q969G3:240 1 SMARCE1 2.25 K.SLVALLVETQM[147.04]K[1735.96]K.L Q8TAQ2:897 Q92922:905 2 SMARCC2 1.666666667 K.SLVALLVETQM[147.04]K[1735.94]K.L Q8TAQ2:897 Q92922:905 2 SMARCC2 1.291666667 R.K[1725.01]LEAELLQIEER.H Q969G3:240 1 SMARCE1 4.208333333 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 4.041666667 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 3.416666667 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 2.958333333 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 2.3125 R.K[895.57]LEAELLQIEERHQEK.K Q969G3:240 1 SMARCE1 3 R.K[895.58]LEAELLQIEER.H Q969G3:240 1 SMARCE1 2.458333333 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 2.5 R.K[895.6]LEAELLQIEER.H Q969G3:240 1 SMARCE1 2 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 2.291666667 R.K[895.6]LEAELLQIEER.H Q969G3:240 1 SMARCE1 3.366666667 R.K[1039.61]IK[284.17]SLVALLVETQM[147.04]K.K Q8TAQ2:883 Q92922:891 2 SMARCC2 3.133333333 R.K[1039.63]IK[284.17]SLVALLVETQMK.K Q8TAQ2:883 Q92922:891 2 SMARCC2 3.233333333 R.K[1039.62]IK[284.17]SLVALLVETQMK.K Q8TAQ2:883 Q92922:891 2 SMARCC2 3 R.K[1055.61]IK[284.17]SLVALLVETQMK.K Q8TAQ2:883 Q92922:891 2 SMARCC2 2.966666667 R.K[1039.62]IK[284.17]SLVALLVETQM[147.04]K.K Q8TAQ2:883 Q92922:891 2 SMARCC2 2.733333333 R.K[1039.62]IK[284.17]SLVALLVETQMK.K Q8TAQ2:883 Q92922:891 2 SMARCC2 1.75 K.AK[1039.62]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 1.95 K.AK[1039.62]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.916666667 R.MQVLK[1025.62]R.Q Q969G3:228 1 SMARCE1 3 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 2.717391304 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 2.717391304 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 2.630434783 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 2.413043478 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 2.304347826 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 2.108695652 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 1.673913043 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 2.043478261 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 1.695652174 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 2.928571429 K.KLEIK[934.52]LR.H Q8TAQ2:902 Q92922:910 2 SMARCC2 2.928571429 K.KLEIK[1090.62]LR.H Q8TAQ2:902 Q92922:910 2 SMARCC2 2.1 R.HQEK[1164.76]K[284.17]R.K Q969G3:255 1 SMARCE1 1.4 R.HQEK[1036.66]KR.K Q969G3:255 1 SMARCE1 1.8 R.HQEK[1036.67]K[284.17]R.K Q969G3:255 1 SMARCE1 2.708333333 R.K[1320.83]LEAELLQIEER.H Q969G3:240 1 SMARCE1 0.526315789 K.ASNPDLK[284.17]LWEIGK[1959.09]IIGGMWR.D Q969G3:98 1 SMARCE1 2.710526316 R.K[1039.59]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 3.576923077 K.SLVALLVETQMK[1269.71]K.L Q8TAQ2:897 Q92922:905 2 SMARCC2 2.730769231 K.SLVALLVETQMK[1269.71]K.L Q8TAQ2:897 Q92922:905 2 SMARCC2 0.394736842 R.K[1725.01]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.25 R.Q[111.03]AFHMEQLK[1525.78]YAEMR.A Q8TAQ2:940 1 SMARCC2 1.416666667 R.Q[111.03]AFHMEQLK[1525.81]YAEMR.A Q8TAQ2:940 1 SMARCC2 1.166666667 R.Q[111.03]AFHMEQLK[1525.78]YAEMR.A Q8TAQ2:940 1 SMARCC2 1.423076923 R.QAFHMEQLK[1525.76]YAEMR.A Q8TAQ2:940 1 SMARCC2 1.333333333 R.Q[111.03]AFHMEQLK[1525.77]YAEMR.A Q8TAQ2:940 1 SMARCC2 1.166666667 R.Q[111.03]AFHMEQLK[1525.78]YAEMR.A Q8TAQ2:940 1 SMARCC2 1.21875 R.EFVIC[160.03]DK[2029.93]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.666666667 K.MADK[1036.66]ILPQR.I Q96GM5:131 Q6STE5:106 2 SMARCD1 3.035714286 R.LLEDSALSK[934.52]YDATK.Q Q96GM5:223 1 SMARCD1 2.678571429 R.LLEDSALSK[934.52]YDATK.Q Q96GM5:223 1 SMARCD1 2.733333333 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 2.8 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 2.5 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 2.366666667 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 2.333333333 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 2.033333333 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 1.333333333 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 0.8 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 0.7 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 1.423076923 R.MEK[2510.38]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 1.442307692 R.MEK[2510.38]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 1.192307692 R.MEK[2510.38]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 1.173076923 R.MEK[2510.38]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 1.269230769 R.MEK[2510.38]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 0.58 R.MEK[2510.42]GEPYM[147.04]SIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 3.473684211 R.K[1735.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 3.105263158 R.K[1735.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 3.210526316 R.K[1735.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 3.052631579 R.K[1735.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.447368421 R.K[1735.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 0.815789474 R.K[1735.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 0.552631579 R.K[1735.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.736842105 R.K[2204.14]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.947368421 R.K[1477.81]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.789473684 R.K[1477.79]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.384615385 K.FLESTDSFNNELK[1330.67]R.L Q969G3:271 1 SMARCE1 1.464285714 K.FLESTDSFNNELK[1330.7]R.L Q969G3:271 1 SMARCE1 0.795454545 K.SSEAIK[2536.3]ESSKFPFGISPAQSHR.N O14497:1934 1 ARID1A 0.409090909 K.SSEAIK[1964.98]ESSKFPFGISPAQSHR.N O14497:1934 1 ARID1A 1.066666667 R.KFLESTDSFNNELK[1330.7]R.L Q969G3:271 1 SMARCE1 0.866666667 R.KFLESTDSFNNELK[1330.7]R.L Q969G3:271 1 SMARCE1 0.368421053 R.DITFPPGSVEATQPVLK[2204.14]QR.R O14497:1654 1 ARID1A 2.074074074 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1039.62]R.I O14497:1905 1 ARID1A 1.87037037 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1039.62]R.I O14497:1905 1 ARID1A 0.980769231 R.MEK[1782.93]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 0.673076923 R.MEK[1782.93]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 3.352941176 K.AYHNSPAYLAYINAK[1782.93]SR.A Q969G3:146 1 SMARCE1 2.970588235 K.AYHNSPAYLAYINAK[1782.93]SR.A Q969G3:146 1 SMARCE1 2.294117647 K.AYHNSPAYLAYINAK[1782.93]SR.A Q969G3:146 1 SMARCE1 2.647058824 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 2.617647059 K.AYHNSPAYLAYINAK[1782.93]SR.A Q969G3:146 1 SMARCE1 2.441176471 K.AYHNSPAYLAYINAK[1782.93]SR.A Q969G3:146 1 SMARCE1 2.264705882 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 2.029411765 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 2.1875 K.AYHNSPAYLAYINAK[1955.02]SR.A Q969G3:146 1 SMARCE1 1.9375 K.AYHNSPAYLAYINAK[1955.03]SR.A Q969G3:146 1 SMARCE1 2.323529412 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 2.28125 K.AYHNSPAYLAYINAK[1955.03]SR.A Q969G3:146 1 SMARCE1 2.03125 K.AYHNSPAYLAYINAK[1798.89]SR.A Q969G3:146 1 SMARCE1 1.65625 K.AYHNSPAYLAYINAK[1938.99]SR.A Q969G3:146 1 SMARCE1 2.09375 K.AYHNSPAYLAYINAK[1798.93]SR.A Q969G3:146 1 SMARCE1 1.352941176 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 1.264705882 K.AYHNSPAYLAYINAK[1782.93]SR.A Q969G3:146 1 SMARCE1 1.705882353 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 1.78125 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 1.205882353 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 1.117647059 K.AYHNSPAYLAYINAK[1782.93]SR.A Q969G3:146 1 SMARCE1 1.235294118 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 1.147058824 K.AYHNSPAYLAYINAK[1939.03]SR.A Q969G3:146 1 SMARCE1 1.96875 K.ESSK[1039.62]FPFGISPAQSHR.N O14497:1938 1 ARID1A 1.204545455 K.SSEAIKESSK[1039.62]FPFGISPAQSHR.N O14497:1938 1 ARID1A 0.681818182 K.SSEAIKESSK[2093.08]FPFGISPAQSHR.N O14497:1938 1 ARID1A 0.653846154 R.MEK[1038.56]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 2.382352941 K.AYHNSPAYLAYINAK[1038.56]SR.A Q969G3:146 1 SMARCE1 2 K.AYHNSPAYLAYINAK[1038.56]SR.A Q969G3:146 1 SMARCE1 1.676470588 K.AYHNSPAYLAYINAK[1038.56]SR.A Q969G3:146 1 SMARCE1 2.214285714 R.K[1038.56]VWDQVK.A Q969G3:79 1 SMARCE1 1.568965517 R.NIK[1269.71]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 1.344827586 R.NIK[1269.71]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 1.017241379 R.NIK[1269.71]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 0.767857143 R.NIK[1285.69]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 0.293103448 R.NIK[1269.71]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 2.236842105 R.K[1939.88]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.394736842 R.K[1939.88]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.342105263 R.K[1939.88]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.868421053 R.K[2504.38]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.526315789 R.K[2504.38]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.447368421 R.K[2504.38]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.210526316 R.K[2504.38]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.342105263 R.K[2348.27]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.236842105 R.K[2348.21]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.8 R.LEK[1269.71]LYSTMVR.F O14497:2146 1 ARID1A 1.75 R.LEK[1269.71]LYSTMVR.F O14497:2146 1 ARID1A 1.8 R.LEK[1269.71]LYSTMVR.F O14497:2146 1 ARID1A 1.388888889 R.LEK[1269.71]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 1.7 R.LEK[1269.71]LYSTMVR.F O14497:2146 1 ARID1A 1.833333333 R.LEK[1285.7]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 1.166666667 R.LEK[1285.71]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 1.6 R.LEK[1397.81]LYSTMVR.F O14497:2146 1 ARID1A 1.333333333 R.LEK[1269.71]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 1.35 R.LEK[1397.81]LYSTMVR.F O14497:2146 1 ARID1A 1.4 R.LEK[1269.71]LYSTMVR.F O14497:2146 1 ARID1A 1.888888889 R.LEK[1397.8]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 2 R.LEK[1285.7]LYSTMVR.F O14497:2146 1 ARID1A 2.055555556 R.LEK[1413.8]LYSTMVR.F O14497:2146 1 ARID1A 1.222222222 R.LEK[1413.8]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 1.555555556 R.LEK[1397.79]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 0.6 R.K[2510.38]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 0.5 R.K[2510.38]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 3 R.K[1782.93]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 3.210526316 R.K[1782.93]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.526315789 R.K[1939.03]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.631578947 R.K[1782.93]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.736842105 R.K[1782.93]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.605263158 R.K[1782.88]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.921052632 R.K[1939.03]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.763157895 R.K[1955.02]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.947368421 R.K[1782.93]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.526315789 R.K[1782.93]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.71875 K.ESSK[1269.71]FPFGISPAQSHR.N O14497:1938 1 ARID1A 2.03125 K.ESSK[1269.71]FPFGISPAQSHR.N O14497:1938 1 ARID1A 3.236842105 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 3.394736842 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 3.026315789 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 3.394736842 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.842105263 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.578947368 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.842105263 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.421052632 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.631578947 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.210526316 R.K[1038.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.684210526 R.K[1038.53]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.277777778 K.MADK[1038.56]ILPQR.I Q96GM5:131 Q6STE5:106 2 SMARCD1 1.611111111 K.KMADK[1038.53]ILPQR.I Q96GM5:131 Q6STE5:106 2 SMARCD1 2.083333333 R.NHNAK[284.17]K[1038.57]K.K Q96GM5:125 1 SMARCD1 1.25 R.NHNAK[284.17]K[1038.56]K.K Q96GM5:125 1 SMARCD1 0.833333333 R.NHNAK[284.17]K[1038.56]K.K Q96GM5:125 1 SMARCD1 1.166666667 R.NHNAK[284.17]K[1038.56]K.K Q96GM5:125 1 SMARCD1 2.583333333 R.NHNAK[1038.57]K[284.17]K.K Q96GM5:124 1 SMARCD1 1.666666667 R.NHNAK[1038.54]K[284.17]K.K Q96GM5:124 1 SMARCD1 1.666666667 R.K[976.55]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 2 ARID1A 0.727272727 R.FLSDRK[976.55]NPVC[160.03]R.E O14497:2159 1 ARID1A 1.333333333 R.NHNAK[1038.57]K[284.17]K.K Q96GM5:124 1 SMARCD1 1.333333333 R.K[976.55]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 2 ARID1A 0.714285714 R.NHNAK[1038.56]KK.K Q96GM5:124 1 SMARCD1 1.083333333 R.K[976.55]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 2 ARID1A 2.041666667 R.LDIQEALK[1656.88]RPIK.Q Q96GM5:173 1 SMARCD1 2.916666667 R.LDIQEALK[1038.56]RPIK.Q Q96GM5:173 1 SMARCD1 2.45 K.RLDIQEALK[1038.56]R.P Q96GM5:173 1 SMARCD1 2.666666667 R.LDIQEALK[1038.56]RPIK.Q Q96GM5:173 1 SMARCD1 2.041666667 R.LDIQEALK[1038.56]RPIK.Q Q96GM5:173 1 SMARCD1 1.458333333 R.LDIQEALK[1038.56]RPIK.Q Q96GM5:173 1 SMARCD1 0.625 R.LDIQEALK[1038.56]RPIK.Q Q96GM5:173 1 SMARCD1 0.523809524 R.SNSVGIQDAFNDGSDSTFQK[2510.38]R.N O14497:1201 1 ARID1A 0.85 K.AK[1330.7]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 0.6 K.Q[111.03]APLTYEK[1388.77]EEEQDQGVSC[160.03]NKVEWWWDC[160.03]LEMLR.E O14497:2033 1 ARID1A 0.4 K.LPIK[1038.56]C[160.03]FLDFK.A Q8TAQ2:79 1 SMARCC2 1.7 K.AK[1038.56]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 1.166666667 K.AK[1038.53]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.166666667 K.LEIK[1038.56]LR.H Q8TAQ2:902 Q92922:910 2 SMARCC2 1.416666667 K.KLEIK[1038.56]LR.H Q8TAQ2:902 Q92922:910 2 SMARCC2 1.166666667 R.K[2865.52]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.907407407 R.K[1773.95]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.481481481 R.K[1773.95]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.148148148 R.K[1773.95]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.481481481 R.K[1127.63]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.240740741 R.K[1127.63]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.351851852 R.K[1127.63]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.5 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.648148148 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.518518519 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.407407407 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.62962963 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.962962963 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.153846154 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEK.R O14497:1880 1 ARID1A 1.722222222 R.K[1151.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.777777778 R.K[1151.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 3.166666667 R.K[1388.75]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 2.574074074 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.944444444 R.K[1388.76]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 2.259259259 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.259259259 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.296296296 R.K[1388.77]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 2.12962963 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.442307692 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEK.R O14497:1880 1 ARID1A 2.37037037 R.K[1388.77]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.814814815 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.833333333 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.148148148 R.K[1388.76]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 2.230769231 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEK.R O14497:1880 1 ARID1A 2.096153846 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEK.R O14497:1880 1 ARID1A 2.057692308 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEK.R O14497:1880 1 ARID1A 1.388888889 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.833333333 R.K[1388.75]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 1.777777778 R.K[1388.8]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 1.351851852 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.277777778 R.K[1388.76]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 0.833333333 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 0.666666667 R.K[1388.79]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 0.555555556 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 0.574074074 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1039.59]R.I O14497:1905 1 ARID1A 0.648148148 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1039.59]R.I O14497:1905 1 ARID1A 2.407407407 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1388.78]R.I O14497:1905 1 ARID1A 2 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1388.77]R.I O14497:1905 1 ARID1A 2.057692308 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1388.74]R.I O14497:1905 1 ARID1A 2.166666667 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1388.78]R.I O14497:1905 1 ARID1A 0.865384615 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1388.79]R.I O14497:1905 1 ARID1A 0.717391304 R.IGGGDTTEHIQTHFESK[1438.76]TELLPSR.P O14497:1862 1 ARID1A 1.015151515 R.IGGGDTTEHIQTHFESK[1127.63]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.602941176 R.IGGGDTTEHIQTHFESK[1127.63]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.833333333 R.IGGGDTTEHIQTHFESK[1832.94]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.772727273 R.IGGGDTTEHIQTHFESK[937.55]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 1.117647059 R.IGGGDTTEHIQTHFESK[1151.59]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 1 R.IGGGDTTEHIQTHFESK[1151.59]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 1.045454545 R.IGGGDTTEHIQTHFESK[1151.59]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.696969697 R.IGGGDTTEHIQTHFESK[1832.98]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.926470588 R.IGGGDTTEHIQTHFESK[1151.59]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.676470588 R.IGGGDTTEHIQTHFESK[1151.59]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.681818182 K.DK[1127.63]PASENSEEK.L O14497:1795 1 ARID1A 1.333333333 R.K[1013.57]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 2 ARID1A 3.583333333 R.VDIQEALK[1038.56]RPMK.Q Q6STE5:148 1 SMARCD3 3 R.VDIQEALK[1038.57]RPM[147.04]K.Q Q6STE5:148 1 SMARCD3 4.0625 R.VDIQEALK[1038.54]R.P Q6STE5:148 1 SMARCD3 2.772727273 R.VDIQEALK[1038.56]RPM[147.04]K.Q Q6STE5:148 1 SMARCD3 3.55 K.RVDIQEALK[1038.56]R.P Q6STE5:148 1 SMARCD3 1.772727273 R.VDIQEALK[1038.56]RPMK.Q Q6STE5:148 1 SMARCD3 1.454545455 R.VDIQEALK[1038.56]RPM[147.04]K.Q Q6STE5:148 1 SMARCD3 2 R.VDIQEALK[1038.56]RPMK.Q Q6STE5:148 1 SMARCD3 1.727272727 R.VDIQEALK[1038.57]RPM[147.04]K.Q Q6STE5:148 1 SMARCD3 1.409090909 R.VDIQEALK[1038.56]RPM[147.04]K.Q Q6STE5:148 1 SMARCD3 1.134615385 K.ILEDEPHSK[1568.92]DETPLC[160.03]TLLDWQDSLAKR.C O14497:1962 1 ARID1A 0.785714286 R.ALLALAK[1323.71]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.452380952 K.SSEAIK[1698.9]ESSKFPFGISPAQSHR.N O14497:1934 1 ARID1A 0.5 R.NHK[1038.56]YR.S P51531:1460 P51532:1518 2 SMARCA2 0.3125 K.YK[1038.56]LNVDQK.V P51531:1191 P51532:1221 2 SMARCA2 2.34375 R.GQPLPDHLQMAVQGK[1169.68]R.P P51532:207 1 SMARCA4 1.65625 R.GQPLPDHLQMAVQGK[1169.68]R.P P51532:207 1 SMARCA4 1.6 R.YNQMK[1169.68]GMGMR.S P51532:94 1 SMARCA4 2.21875 R.GQPLPDHLQMAVQGK[1038.56]R.P P51532:207 1 SMARCA4 1.5 R.YNQMK[1038.56]GMGMR.S P51532:94 1 SMARCA4 1.611111111 R.YNQMK[1038.58]GM[147.04]GMR.S P51532:94 1 SMARCA4 1.222222222 R.YNQMK[1038.55]GM[147.04]GM[147.04]R.S P51532:94 1 SMARCA4 1.5 R.YNQM[147.04]K[1038.56]GMGMR.S P51532:94 1 SMARCA4 2.407407407 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1169.68]R.I O14497:1905 1 ARID1A 1.888888889 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1169.68]R.I O14497:1905 1 ARID1A 1.592592593 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1169.68]R.I O14497:1905 1 ARID1A 1.428571429 R.K[988.56]PLDLYR.L O14497:1047 1 ARID1A 2.055555556 R.K[1169.68]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.764705882 K.IVQK[284.17]NDPFVVDC[160.03]SDK[998.54]LGR.V O14497:1830 1 ARID1A 2.092592593 R.K[998.55]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.037037037 R.K[998.55]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.518518519 R.K[1066.61]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.203703704 R.K[1066.61]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.185185185 R.K[1066.61]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.351851852 R.K[1066.61]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2 R.K[1066.61]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2 R.K[1066.61]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.333333333 R.K[1066.62]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 1.518518519 R.K[1066.56]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.481481481 R.K[1066.61]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.796296296 R.K[1066.61]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 0.981481481 R.K[1066.57]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.111111111 R.K[1785.96]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 2.240740741 R.K[1785.96]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.759259259 R.K[1785.95]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 1.740740741 R.K[1785.97]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 1.740740741 R.K[1785.96]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.425925926 R.K[1785.96]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.314814815 R.K[1785.96]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.240740741 R.K[1785.98]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 1.425925926 R.K[1785.98]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 0.592592593 R.K[1785.96]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 0.166666667 R.C[160.03]LIEIFGILK[1508.8]EYEVGDPGQRTLLDPGR.F O14497:1732 1 ARID1A 1.428571429 R.K[1038.56]ASANAR.K Q92922:317 1 SMARCC1 1.416666667 R.K[982.57]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 2 ARID1A 1.514705882 R.IGGGDTTEHIQTHFESK[825.53]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 1.424242424 R.IGGGDTTEHIQTHFESK[825.48]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.954545455 R.IGGGDTTEHIQTHFESK[825.52]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.926470588 R.IGGGDTTEHIQTHFESK[825.53]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 1.318181818 R.IGGGDTTEHIQTHFESK[998.55]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 1.015151515 R.IGGGDTTEHIQTHFESK[998.57]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.852941176 R.IGGGDTTEHIQTHFESK[998.55]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.818181818 R.IGGGDTTEHIQTHFESK[998.5]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 1.25 R.IGGGDTTEHIQTHFESK[1119.62]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 1.060606061 R.IGGGDTTEHIQTHFESK[1119.61]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.984848485 R.IGGGDTTEHIQTHFESK[1688.97]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.848484848 R.IGGGDTTEHIQTHFESK[1688.95]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.852941176 R.IGGGDTTEHIQTHFESK[1119.62]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.545454545 R.IGGGDTTEHIQTHFESK[1688.95]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.651515152 R.IGGGDTTEHIQTHFESK[1688.92]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.632352941 R.IGGGDTTEHIQTHFESK[1119.62]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 1.196969697 R.IGGGDTTEHIQTHFESK[1066.61]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 2.863636364 R.HQGTFTDEK[1169.68]SK.A Q92922:199 1 SMARCC1 1.590909091 R.HQGTFTDEK[1169.68]SK.A Q92922:199 1 SMARCC1 1.708333333 R.GK[1038.56]GEITPAAIQK.M Q15532:13 1 SS18 1.666666667 R.GK[1038.56]GEITPAAIQK.M Q15532:13 1 SS18 0.821428571 R.MSYEPNK[1477.85]DPYGSMR.K O14497:1230 1 ARID1A 0.621212121 K.SPFLHSGMKMQK[996.57]AGPPVPASHIAPAPVQPPMIR.R O14497:1615 1 ARID1A 2.1 K.LLGEQYYK[1552.96]DAMEQC[160.03]HNYNAR.L Q92785:18 1 DPF2 2.325 K.LLGEQYYK[1552.96]DAMEQC[160.03]HNYNAR.L Q92785:18 1 DPF2 1.675 K.LLGEQYYK[1552.96]DAMEQC[160.03]HNYNAR.L Q92785:18 1 DPF2 1.35 K.LLGEQYYK[1552.96]DAMEQC[160.03]HNYNAR.L Q92785:18 1 DPF2 1.475 K.LLGEQYYK[1552.96]DAMEQC[160.03]HNYNAR.L Q92785:18 1 DPF2 1.447368421 K.LLGEQYYK[1552.92]DAMEQC[160.03]HNYNAR.L Q92785:18 1 DPF2 1.125 K.LLGEQYYK[1552.96]DAMEQC[160.03]HNYNAR.L Q92785:18 1 DPF2 0.425 K.LLGEQYYK[1552.96]DAMEQC[160.03]HNYNAR.L Q92785:18 1 DPF2 1.176470588 K.K[1782.93]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.785714286 R.RLTMK[1123.62]DIGTPEAWR.V O14497:1662 1 ARID1A 1.458333333 R.LTMK[1123.62]DIGTPEAWR.V O14497:1662 1 ARID1A 1.5 R.RLTMK[1123.62]DIGTPEAWR.V O14497:1662 1 ARID1A 1.518518519 K.ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK[2262.22]R.C O14497:1979 1 ARID1A 1.62962963 K.ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK[2262.22]R.C O14497:1979 1 ARID1A 1.269230769 K.ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK[2262.21]R.C O14497:1979 1 ARID1A 1.9 R.LEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 1.8 R.LEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 1.8 R.LEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 1.65 R.LEK[1337.8]LYSTMVR.F O14497:2146 1 ARID1A 1.944444444 R.LEK[1209.7]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 1.555555556 R.LEK[1209.71]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 1.4 R.LEK[1337.8]LYSTMVR.F O14497:2146 1 ARID1A 2.4375 K.ESSK[1209.71]FPFGISPAQSHR.N O14497:1938 1 ARID1A 2.1875 K.ESSK[1209.71]FPFGISPAQSHR.N O14497:1938 1 ARID1A 1.65625 K.ESSK[1209.71]FPFGISPAQSHR.N O14497:1938 1 ARID1A 1.189655172 R.NIK[1209.71]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 1.137931034 R.NIK[1209.71]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 1.05 R.K[1038.56]MADKVLPQR.I Q92925:139 1 SMARCD2 2.5 R.MEIQEAIK[284.17]K[1038.58]PLTQK.R Q92925:186 1 SMARCD2 2.115384615 R.MEIQEAIK[284.17]K[1656.9]PLTQK.R Q92925:186 1 SMARCD2 2.038461538 R.M[147.04]EIQEAIK[284.17]K[1038.59]PLTQK.R Q92925:186 1 SMARCD2 2.307692308 R.MEIQEAIK[284.17]K[1038.59]PLTQK.R Q92925:186 1 SMARCD2 1.5 R.MEIQEAIK[284.17]K[1038.55]PLTQK.R Q92925:186 1 SMARCD2 0.961538462 R.M[147.04]EIQEAIK[284.17]K[1038.59]PLTQK.R Q92925:186 1 SMARCD2 1.269230769 R.MEIQEAIK[284.17]K[1038.58]PLTQK.R Q92925:186 1 SMARCD2 1.269230769 R.MEIQEAIK[284.17]K[1038.58]PLTQK.R Q92925:186 1 SMARCD2 2.961538462 R.MEIQEAIK[1038.56]K[284.17]PLTQK.R Q92925:185 1 SMARCD2 4 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 3.153846154 R.M[147.04]EIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 2.892857143 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 2.538461538 R.MEIQEAIK[1038.58]K[284.17]PLTQK.R Q92925:185 1 SMARCD2 2.076923077 R.MEIQEAIK[1038.56]K[284.17]PLTQK.R Q92925:185 1 SMARCD2 2.214285714 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 1.964285714 R.MEIQEAIK[1656.88]KPLTQK.R Q92925:185 1 SMARCD2 1.769230769 R.M[147.04]EIQEAIK[1038.59]K[284.17]PLTQK.R Q92925:185 1 SMARCD2 1.615384615 R.MEIQEAIK[1038.56]K[284.17]PLTQK.R Q92925:185 1 SMARCD2 1.857142857 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 1.230769231 R.MEIQEAIK[1038.58]K[284.17]PLTQK.R Q92925:185 1 SMARCD2 1.392857143 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 1.307692308 R.M[147.04]EIQEAIK[1038.57]KPLTQK.R Q92925:185 1 SMARCD2 0.964285714 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 1 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 1.230769231 R.MEIQEAIK[1038.54]KPLTQK.R Q92925:185 1 SMARCD2 1.346153846 R.MEIQEAIK[1038.53]KPLTQK.R Q92925:185 1 SMARCD2 1.153846154 R.MEIQEAIK[1038.53]KPLTQK.R Q92925:185 1 SMARCD2 1.230769231 R.M[147.04]EIQEAIK[1038.54]KPLTQK.R Q92925:185 1 SMARCD2 0.678571429 R.MEIQEAIK[1656.88]KPLTQK.R Q92925:185 1 SMARCD2 0.923076923 R.M[147.04]EIQEAIK[1038.6]KPLTQK.R Q92925:185 1 SMARCD2 0.611111111 K.RM[147.04]EIQEAIK[1038.55]K.P Q92925:185 1 SMARCD2 1.153846154 R.M[147.04]EIQEAIK[1038.58]K[284.17]PLTQK.R Q92925:185 1 SMARCD2 0.571428571 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 1.423076923 R.M[147.04]EIQEAIK[1038.55]KPLTQK.R Q92925:185 1 SMARCD2 3.055555556 K.MADK[1038.56]VLPQR.I Q92925:143 1 SMARCD2 2 R.KMADK[1038.56]VLPQR.I Q92925:143 1 SMARCD2 2.277777778 R.KM[147.04]ADK[1038.56]VLPQR.I Q92925:143 1 SMARCD2 1.230769231 K.NKSK[1154.67]TPEIYLAYR.N Q8TAQ2:457 Q92922:482 2 SMARCC2 1.375 K.K[1024.6]VMAAIEK.V Q9BQE9:20 1 BCL7B 1.729166667 R.GQLSWHQK[2600.54]TYAFSENPLPTVEIAIR.N Q12824:324 1 SMARCB1 0.9375 R.GQLSWHQK[2600.44]TYAFSENPLPTVEIAIR.N Q12824:324 1 SMARCB1 1.423076923 R.MQK[1363.78]EITALAPSTMK.I P60709:315 1 ACTB 1.653846154 R.M[147.04]QK[1291.67]EITALAPSTMK.I P60709:315 1 ACTB 1.884615385 R.M[147.04]QK[1309.66]EITALAPSTMK.I P60709:315 1 ACTB 1.692307692 R.M[147.04]QK[1309.68]EITALAPSTMK.I P60709:315 1 ACTB 1.846153846 R.M[147.04]QK[1291.66]EITALAPSTMK.I P60709:315 1 ACTB 1.692307692 R.M[147.04]QK[1291.67]EITALAPSTM[147.04]K.I P60709:315 1 ACTB 0.966666667 R.M[147.04]QK[1291.64]EITALAPSTMK[284.17]IK.I P60709:315 1 ACTB 0.928571429 R.VAPEEHPVLLTEAPLNPK[1624.92]ANR.E P60709:113 1 ACTB 1.454545455 R.HQGVMVGMGQK[841.45]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 1.840909091 R.HQGVMVGMGQK[1266.71]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 1.142857143 R.VAPEEHPVLLTEAPLNPK[2136.13]ANR.E P60709:113 1 ACTB 1.289473684 K.EITALAPSTM[147.04]K[2594.3]IK[284.17]IIAPPER.K P60709:326 1 ACTB 1.157894737 K.EITALAPSTM[147.04]K[2594.27]IK[284.17]IIAPPER.K P60709:326 1 ACTB 1.131578947 K.EITALAPSTM[147.04]K[2594.25]IK[284.17]IIAPPER.K P60709:326 1 ACTB 0.984375 R.GILTLK[3001.5]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 1 ACTB 0.953125 R.GILTLK[3001.41]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 1 ACTB 0.9375 R.GILTLK[3001.46]YPIEHGIVTNWDDM[147.04]EK[284.17]IWHHTFYNELR.V P60709:68 1 ACTB 0.875 R.GILTLK[3001.48]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 1 ACTB 0.9375 R.GILTLK[3001.41]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 1 ACTB 0.909090909 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[2853.51]R.G Q562R1:62 1 ACTBL2 0.59375 R.GILTLK[3001.48]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 1 ACTB 1.045454545 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[2853.55]R.G Q562R1:62 1 ACTBL2 0.818181818 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[2853.5]R.G Q562R1:62 1 ACTBL2 0.515625 R.GILTLK[3001.43]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 1 ACTB 1.203125 R.GILTLK[3017.47]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 1 ACTB 0.796875 R.GILTLK[3001.49]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 1 ACTB 1.204545455 R.HQGVMVGMGQK[2837.5]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 1 ACTBL2 0.765625 R.GILTLK[3001.54]YPIEHGIVTNWDDM[147.04]EK[284.17]IWHHTFYNELR.V P60709:68 1 ACTB 0.59375 R.GILTLK[3017.48]YPIEHGIVTNWDDM[147.04]EK[284.17]IWHHTFYNELR.V P60709:68 1 ACTB 0.863636364 R.HQGVMVGM[147.04]GQK[2853.52]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 1 ACTBL2 0.75 R.HQGVMVGMGQK[2853.54]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 1 ACTBL2 0.931818182 R.HQGVMVGMGQK[2837.5]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 1 ACTBL2 0.75 R.HQGVMVGMGQK[2853.55]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 1 ACTBL2 0.727272727 R.HQGVM[147.04]VGMGQK[2853.5]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 1 ACTBL2 0.522727273 R.HQGVMVGMGQK[2853.54]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 1 ACTBL2 0.108695652 K.RGILTLK[2845.33]YPIEHGIVTNWDDMEK.I P60709:68 1 ACTB 0.636363636 R.HQGVMVGMGQK[2868.57]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 0.681818182 R.HQGVMVGMGQK[1989.96]DSYVGDEAQSKR.G P60709:50 1 ACTB 1 R.WK[1667.95]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 0.619047619 R.GILTLK[1717.95]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 0.6375 K.EK[1306.79]LC[160.03]YVALDFEQEMATAASSSSLEK[284.17]SYELPDGQVITIGNER.F P60709:215 1 ACTB 2.931818182 R.K[1698.86]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 2.704545455 R.K[1698.86]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 2.545454545 R.K[1698.86]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 2.431818182 R.K[1698.86]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 1 ACTB 2.068181818 R.K[1698.86]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 1.409090909 R.K[1698.86]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 1.568181818 R.K[1968.04]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 0.977272727 R.K[1698.86]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 0.909090909 R.K[1698.86]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 0.863636364 R.K[1714.77]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 1 R.K[1698.89]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 1 ACTB 1.6875 R.K[1191.68]LDQTIAR.K Q92925:168 1 SMARCD2 1.375 R.HIFAK[988.57]VQQR.R Q92925:514 1 SMARCD2 1.589285714 K.ASEVEEILDGNDEKYK[1568.91]AVSISTEPPTYLR.E Q12824:108 1 SMARCB1 2.346153846 R.QNFHMEQLK[681.46]YAELR.A Q92922:948 1 SMARCC1 2.583333333 R.Q[111.03]NFHMEQLK[681.46]YAELR.A Q92922:948 1 SMARCC1 1.230769231 R.QNFHMEQLK[681.45]YAELR.A Q92922:948 1 SMARCC1 1.230769231 R.QNFHMEQLK[681.45]YAELR.A Q92922:948 1 SMARCC1 0.961538462 R.QNFHM[147.04]EQLK[681.49]YAELR.A Q92922:948 1 SMARCC1 2.166666667 R.DRK[1195.67]ASANAR.K Q92922:317 1 SMARCC1 0.954545455 R.HQGTFTDEK[988.57]SK.A Q92922:199 1 SMARCC1 1.428571429 K.K[988.57]VQEAAR.A Q92922:740 1 SMARCC1 0.717391304 R.NTGDADQWC[160.03]PLLETLTDAEMEK[1793.87]K.I Q12824:363 1 SMARCB1 1.5625 R.K[1793.05]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 0.558823529 K.Q[111.03]WLK[2322.28]AIEEGTLEEIEEEVR.Q P51532:1390 1 SMARCA4 1.153846154 R.LK[1300.71]LIANNTTVERR.F O96019:379 1 ACTL6A 1.25 R.LK[1300.71]LIANNTTVER.R O96019:379 1 ACTL6A 0.538461538 R.LK[1300.71]LIANNTTVERR.F O96019:379 1 ACTL6A 0.24137931 R.ENMEAISPLK[3299.69]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 1.115384615 R.WEK[1822.03]RWVTVGDTSLR.I Q8WUZ0:33 1 BCL7C 2.363636364 R.K[1538.81]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA2 1.681818182 R.K[1538.81]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA2 1.90625 K.VIQAGMFDQK[1538.81]SSSHER.R P51531:1207 P51532:1237 2 SMARCA2 1.71875 K.VIQAGMFDQK[1538.81]SSSHER.R P51531:1207 P51532:1237 2 SMARCA2 1.0625 K.VIQAGMFDQK[1538.81]SSSHER.R P51531:1207 P51532:1237 2 SMARCA2 1.34375 K.VIQAGMFDQK[1538.81]SSSHER.R P51531:1207 P51532:1237 2 SMARCA2 0.59375 K.GIVEDIHC[160.03]GSMK[1921.98]GTGMR.P P51531:95 1 SMARCA2 2.275 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 2.5625 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.94]DFK.E P51531:460 P51532:484 2 SMARCA2 1.96875 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.94]DFK.E P51531:460 P51532:484 2 SMARCA2 2.9 K.HQEYLNSILQHAK[1793.01]DFK.E P51531:460 P51532:484 2 SMARCA2 2.28125 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.96]DFK.E P51531:460 P51532:484 2 SMARCA2 2.625 K.HQEYLNSILQHAK[1793.05]DFK.E P51531:460 P51532:484 2 SMARCA2 2.157894737 K.HQEYLNSILQHAK[1636.94]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.852941176 R.QK[284.17]HQEYLNSILQHAK[1636.96]DFK.E P51531:460 P51532:484 2 SMARCA2 1.9375 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1793.04]DFK.E P51531:460 P51532:484 2 SMARCA2 1.075 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.3125 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.97]DFK.E P51531:460 P51532:484 2 SMARCA2 2 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1793.03]DFK.E P51531:460 P51532:484 2 SMARCA2 1.676470588 R.QK[284.17]HQEYLNSILQHAK[1636.97]DFK.E P51531:460 P51532:484 2 SMARCA2 2.236842105 K.HQEYLNSILQHAK[1793.06]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.28125 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.94]DFK.E P51531:460 P51532:484 2 SMARCA2 0.9375 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 1.1875 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 2.0625 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1793.09]DFK.E P51531:460 P51532:484 2 SMARCA2 1.352941176 R.QK[284.17]HQEYLNSILQHAK[1636.97]DFK.E P51531:460 P51532:484 2 SMARCA2 1.21875 R.Q[111.03]KHQEYLNSILQHAK[1636.93]DFK.E P51531:460 P51532:484 2 SMARCA2 0.8125 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.94]DFK.E P51531:460 P51532:484 2 SMARCA2 1.705882353 R.QK[284.17]HQEYLNSILQHAK[1636.96]DFK.E P51531:460 P51532:484 2 SMARCA2 1.5 R.QK[284.17]HQEYLNSILQHAK[1636.93]DFK.E P51531:460 P51532:484 2 SMARCA2 0.583333333 R.QKHQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 0.921052632 K.HQEYLNSILQHAK[1636.9]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.105263158 K.HQEYLNSILQHAK[1636.91]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.59375 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1793.06]DFK.E P51531:460 P51532:484 2 SMARCA2 0.647058824 R.QK[284.17]HQEYLNSILQHAK[1636.96]DFK.E P51531:460 P51532:484 2 SMARCA2 0.53125 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.96]DFK.E P51531:460 P51532:484 2 SMARCA2 0.85 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.2 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.764705882 R.QK[284.17]HQEYLNSILQHAK[1793.04]DFK.E P51531:460 P51532:484 2 SMARCA2 0.825 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.263157895 K.HQEYLNSILQHAK[1793.01]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.675 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.805555556 R.QKHQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 0.9 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.794117647 R.QK[284.17]HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 0.725 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.1875 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1793.04]DFK.E P51531:460 P51532:484 2 SMARCA2 1.78125 R.Q[111.03]KHQEYLNSILQHAK[1793.02]DFK.E P51531:460 P51532:484 2 SMARCA2 1.333333333 K.HQEYLNSILQHAK[1792.99]DFK.E P51531:460 P51532:484 2 SMARCA2 0.875 K.HQEYLNSILQHAK[1793.05]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.131578947 K.HQEYLNSILQHAK[1793.06]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.7 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.416666667 R.QKHQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 0.6875 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 1.157894737 K.HQEYLNSILQHAK[1793.02]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.638888889 R.QKHQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 0.475 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.775 K.HQEYLNSILQHAK[1793.05]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.53125 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1793.06]DFK.E P51531:460 P51532:484 2 SMARCA2 0.735294118 R.QK[284.17]HQEYLNSILQHAK[1793.07]DFK.E P51531:460 P51532:484 2 SMARCA2 0.764705882 R.QK[284.17]HQEYLNSILQHAK[1793.01]DFK.E P51531:460 P51532:484 2 SMARCA2 1.088235294 R.QK[284.17]HQEYLNSILQHAK[1636.92]DFK.E P51531:460 P51532:484 2 SMARCA2 0.684210526 K.HQEYLNSILQHAK[1636.89]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.705882353 R.QKHQEYLNSILQHAK[1636.89]DFK.E P51531:460 P51532:484 2 SMARCA2 0.444444444 R.QKHQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 1.0625 K.HQEYLNSILQHAK[1793.05]DFK.E P51531:460 P51532:484 2 SMARCA2 0.65625 R.Q[111.03]KHQEYLNSILQHAK[1793.05]DFK.E P51531:460 P51532:484 2 SMARCA2 0.375 K.HQEYLNSILQHAK[1793.05]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.277777778 R.QKHQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 0.525 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 3.125 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 2.458333333 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 1.384615385 R.LK[1259.63]LIANNTTVERR.F O96019:379 1 ACTL6A 1.384615385 R.LK[1259.63]LIANNTTVERR.F O96019:379 1 ACTL6A 2.166666667 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 1.375 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 1.5 R.LK[1259.6]LIANNTTVER.R O96019:379 1 ACTL6A 1.192307692 R.LK[1259.63]LIANNTTVERR.F O96019:379 1 ACTL6A 1.083333333 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 1.363636364 R.LK[1259.6]LIANNTTVER.R O96019:379 1 ACTL6A 0.961538462 R.LK[1259.63]LIANNTTVERR.F O96019:379 1 ACTL6A 0.961538462 R.LK[1259.63]LIANNTTVERR.F O96019:379 1 ACTL6A 0.541666667 R.LK[1259.6]LIANNTTVERR.F O96019:379 1 ACTL6A 0.763157895 K.HQEYLNSILQHAK[284.17]DFK[1636.95]EYHR.S P51531:463 P51532:487 2 SMARCA2 0.666666667 R.LK[1259.6]LIANNTTVERR.F O96019:379 1 ACTL6A 0.75 R.LK[1259.6]LIANNTTVERR.F O96019:379 1 ACTL6A 2.090909091 R.K[1636.95]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA2 1.590909091 R.WK[1636.95]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 0.833333333 R.K[1251.69]EK[284.17]LPQVTR.S O96019:240 1 ACTL6A 0.774193548 R.RFSSWIGGSILASLGTFQQMWISK[1940.05]QEYEEGGK.Q O96019:413 1 ACTL6A 1.875 R.ALLALAK[1859.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.675 R.ALLALAK[1859.85]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.875 R.ALLALAK[1859.82]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.357142857 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.575 R.ALLALAK[1859.78]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.375 R.ALLALAK[1876.88]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.8 R.ALLALAK[1859.83]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.523809524 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.325 R.ALLALAK[1876.81]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.547619048 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.6 R.ALLALAK[1876.84]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.071428571 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.19047619 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.214285714 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.175 R.ALLALAK[1859.77]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.357142857 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.047619048 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.4 R.ALLALAK[1859.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.15 R.ALLALAK[1876.8]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.357142857 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.4 R.ALLALAK[1859.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 0.738095238 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.25 R.ALLALAK[1859.85]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.095238095 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 0.595238095 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 0.75 R.ALLALAK[1876.88]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 0.65 R.ALLALAK[1859.84]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 1.454545455 R.ELSQK[1169.68]TPPSMR.L O96019:371 1 ACTL6A 1.023809524 R.SNSVGIQDAFNDGSDSTFQK[1538.81]R.N O14497:1201 1 ARID1A 1.75 R.MSYEPNK[1538.81]DPYGSMR.K O14497:1230 1 ARID1A 1.653846154 R.MSYEPNK[1538.87]DPYGSMR.K O14497:1230 1 ARID1A 2 K.AYHNSPAYLAYINAK[1538.81]SR.A Q969G3:146 1 SMARCE1 2 K.AYHNSPAYLAYINAK[1538.81]SR.A Q969G3:146 1 SMARCE1 3.117647059 K.AYHNSPAYLAYINAK[1636.95]SR.A Q969G3:146 1 SMARCE1 2.5 K.AYHNSPAYLAYINAK[1793.05]SR.A Q969G3:146 1 SMARCE1 2.411764706 K.AYHNSPAYLAYINAK[1793.05]SR.A Q969G3:146 1 SMARCE1 2.470588235 K.AYHNSPAYLAYINAK[1636.95]SR.A Q969G3:146 1 SMARCE1 1.352941176 K.AYHNSPAYLAYINAK[1636.95]SR.A Q969G3:146 1 SMARCE1 1.705882353 K.AYHNSPAYLAYINAK[1793.05]SR.A Q969G3:146 1 SMARCE1 1.875 K.AYHNSPAYLAYINAK[1636.9]SR.A Q969G3:146 1 SMARCE1 1.382352941 K.AYHNSPAYLAYINAK[1793.05]SR.A Q969G3:146 1 SMARCE1 1.470588235 K.AYHNSPAYLAYINAK[1636.95]SR.A Q969G3:146 1 SMARCE1 1.441176471 K.AYHNSPAYLAYINAK[1793.05]SR.A Q969G3:146 1 SMARCE1 0.84375 K.AYHNSPAYLAYINAK[1636.91]SR.A Q969G3:146 1 SMARCE1 0.657894737 K.ASNPDLK[2306.22]LWEIGKIIGGMWR.D Q969G3:92 1 SMARCE1 0.631578947 K.ASNPDLK[2322.21]LWEIGKIIGGMWR.D Q969G3:92 1 SMARCE1 0.605263158 K.ASNPDLK[2306.21]LWEIGKIIGGM[147.04]WR.D Q969G3:92 1 SMARCE1 1.227272727 R.LK[1425.71]LIANNTTVER.R O96019:379 1 ACTL6A 0.571428571 R.QVQSLM[147.04]VHQRK[2322.18]LEAELLQIEER.H Q969G3:240 1 SMARCE1 1.214285714 R.LK[1735.95]IPEGLFDPSNVK.G O96019:303 1 ACTL6A 0.875 R.SPSPSPTPEAK[1235.72]KK.N Q8TAQ2:312 1 SMARCC2 0.909090909 R.SPSPSPTPEAK[1363.81]K.K Q8TAQ2:312 1 SMARCC2 0.59375 R.VASAAAK[1363.79]SALEEFSK[284.17]M[147.04]K.E Q8TAQ2:694 1 SMARCC2 0.80952381 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2030.01]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.583333333 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2029.95]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.523255814 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2047]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.453488372 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2047]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.406976744 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2047]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.526315789 K.EPK[2306.33]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 0.555555556 K.E[111.03]PK[2322.33]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 0.638888889 K.E[111.03]PK[2306.35]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 0.527777778 K.E[111.03]PK[2322.28]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 1.676470588 K.TPPSM[147.04]RLK[2122.23]LIANNTTVER.R O96019:379 1 ACTL6A 2.590909091 K.Q[111.03]EYEEGGK[1525.8]QC[160.03]VER.K O96019:421 1 ACTL6A 2.181818182 K.Q[111.03]EYEEGGK[1525.79]QC[160.03]VER.K O96019:421 1 ACTL6A 1.692307692 K.QEYEEGGK[1525.8]QC[160.03]VER.K O96019:421 1 ACTL6A 2.083333333 K.QEYEEGGK[1525.77]QC[160.03]VER.K O96019:421 1 ACTL6A 1.269230769 K.QEYEEGGK[1525.8]QC[160.03]VER.K O96019:421 1 ACTL6A 1.590909091 K.Q[111.03]EYEEGGK[1525.79]QC[160.03]VER.K O96019:421 1 ACTL6A 1.291666667 K.Q[111.03]EYEEGGK[1525.81]QC[160.03]VERK.C O96019:421 1 ACTL6A 1.153846154 K.QEYEEGGK[1525.8]QC[160.03]VER.K O96019:421 1 ACTL6A 0.583333333 K.Q[111.03]EYEEGGK[1525.79]QC[160.03]VERK.C O96019:421 1 ACTL6A 0.797619048 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[1400.76]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 2.4 R.EK[1525.8]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.175 R.EK[1525.8]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.526315789 R.EK[1525.74]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.25 R.EK[1525.8]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.605263158 R.EK[1525.8]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.342105263 R.EK[1525.87]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 0.8 R.EK[1525.8]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 0.894736842 R.E[111.03]K[2105.08]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 0.959459459 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1538.81]R.H Q8NFD5:1360 1 ARID1B 0.75 R.HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1538.81]R.H Q8NFD5:1360 1 ARID1B 0.958333333 R.HMDGMYGPPAK[1538.81]R.H Q8NFD5:1372 1 ARID1B 0.8125 K.K[1235.72]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 2.541666667 R.LK[1123.62]LIANNTTVER.R O96019:379 1 ACTL6A 0.807692308 R.LK[1123.62]LIANNTTVERR.F O96019:379 1 ACTL6A 1.272727273 R.LK[1367.74]LIANNTTVER.R O96019:379 1 ACTL6A 0.279411765 K.NRPGLSYHYAHSHLAEEEGEDK[1636.95]EDSQPPTPVSQR.S Q92785:241 1 DPF2 2.675 R.EK[988.57]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.475 R.EK[988.57]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 0.7 R.ELSQK[1180.68]TPPSMR.L O96019:371 1 ACTL6A 0.75 R.ELSQK[1024.59]TPPSMR.L O96019:371 1 ACTL6A 0.520833333 K.PVK[2019.04]FQLEDDGEFYMIGSEVGNYLR.M Q12824:16 1 SMARCB1 0.395833333 K.PVK[2019.04]FQLEDDGEFYMIGSEVGNYLR.M Q12824:16 1 SMARCB1 0.884615385 R.LK[988.57]LIANNTTVERR.F O96019:379 1 ACTL6A 2.181818182 R.LK[1180.68]LIANNTTVER.R O96019:379 1 ACTL6A 1.041666667 R.LK[1180.66]LIANNTTVERR.F O96019:379 1 ACTL6A 0.136363636 K.IVASSHGKK[1309.68]TK.P Q12824:71 1 SMARCB1 0.045454545 K.IVASSHGKK[1309.68]TK.P Q12824:71 1 SMARCB1 0.744186047 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2072.05]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.837209302 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2072.05]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.642857143 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2055.04]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.674418605 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2072.05]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.61627907 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2072.05]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.547619048 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2072.04]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.418604651 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[2072.05]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 0.946428571 R.ENMEAISPLK[2055.04]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 1.55 R.EK[2072.05]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.175 R.EK[2072.05]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.15 R.EK[2072.05]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 0.318181818 R.HQGTFTDEK[1538.81]SK.A Q92922:199 1 SMARCC1 1 K.SK[1636.95]ASHHIYPYSSSQDDEEWLRPVMR.K Q92922:201 1 SMARCC1 2.5 R.LK[1542.77]LIANNTTVER.R O96019:379 1 ACTL6A 0.535714286 R.DTALETALNAK[1395.69]AYKR.S P51532:437 1 SMARCA4 1.96875 K.VIHVESGK[982.52]ILTGTDAPK.A P51532:626 1 SMARCA4 1.411764706 K.VIHVESGK[982.56]ILTGTDAPK.A P51532:626 1 SMARCA4 1.818181818 R.HQGTFTDEK[795.5]SK.A Q92922:199 1 SMARCC1 2.75 R.ITPIQK[1066.61]PR.G P51532:357 1 SMARCA4 3.5 R.TK[1119.62]ATIELK[284.17]ALR.L P51532:399 1 SMARCA4 2.95 R.TK[1119.59]ATIELK[284.17]ALR.L P51532:399 1 SMARCA4 1.75 R.TK[825.53]ATIELK.A P51532:399 1 SMARCA4 1.3125 R.TK[825.53]ATIELK.A P51532:399 1 SMARCA4 2.5 R.TK[998.54]ATIELK[284.17]ALR.L P51532:399 1 SMARCA4 1.85 R.TK[998.53]ATIELK[284.17]ALR.L P51532:399 1 SMARCA4 1.714285714 R.TK[998.55]ATIELK.A P51532:399 1 SMARCA4 1.875 R.TK[1066.61]ATIELK.A P51532:399 1 SMARCA4 0.818181818 R.HQGTFTDEK[742.43]SK.A Q92922:199 1 SMARCC1 1.2 K.VSYK[1253.68]GSPAAR.R P51532:835 1 SMARCA4 0.863636364 R.HQGTFTDEK[1300.71]SK.A Q92922:199 1 SMARCC1 1.545454545 R.HQGTFTDEK[995.64]SK.A Q92922:199 1 SMARCC1 1.321428571 R.HRK[982.56]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 0.78125 R.K[1066.61]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 2 R.TKATIELK[982.56]ALR.L P51532:405 1 SMARCA4 1.75 K.EK[1279.79]PVDLQNFGLR.T Q92922:592 1 SMARCC1 1.5 K.NK[1508.93]EKPVDLQNFGLR.T Q92922:590 1 SMARCC1 1.178571429 K.NK[1279.79]EKPVDLQNFGLR.T Q92922:590 1 SMARCC1 2.333333333 R.SPQVPAAQQMLNFPEK[1508.93]NK.E Q92922:588 1 SMARCC1 1.861111111 R.SPQVPAAQQMLNFPEK[1508.93]NK.E Q92922:588 1 SMARCC1 1.805555556 R.SPQVPAAQQMLNFPEK[1279.79]NK.E Q92922:588 1 SMARCC1 1.611111111 R.SPQVPAAQQMLNFPEK[1279.79]NK.E Q92922:588 1 SMARCC1 1.611111111 R.SPQVPAAQQMLNFPEK[1279.79]NK.E Q92922:588 1 SMARCC1 2.815789474 R.K[1125.66]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.289473684 R.K[1125.66]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.5 R.K[2040.09]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.526315789 R.K[1931.95]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 0.523809524 K.E[111.03]VEAQLPEKVEYVIK[1914.03]C[160.03]DM[147.04]SALQR.V P51532:997 1 SMARCA4 3.078947368 R.K[1480.7]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.447368421 R.K[1480.7]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.785714286 R.DTALETALNAK[873.45]AYKR.S P51532:437 1 SMARCA4 2.733333333 R.DTALETALNAK[857.47]AYKR.S P51532:437 1 SMARCA4 3.066666667 R.DTALETALNAK[976.55]AYKR.S P51532:437 1 SMARCA4 2.233333333 R.RDTALETALNAK[976.55]AYK.R P51532:437 1 SMARCA4 2.464285714 R.DTALETALNAK[976.55]AYK.R P51532:437 1 SMARCA4 2.3 R.RDTALETALNAK[976.55]AYK.R P51532:437 1 SMARCA4 2.033333333 R.RDTALETALNAK[976.55]AYK.R P51532:437 1 SMARCA4 2.421052632 R.K[1217.75]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.157894737 R.K[1217.75]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.710526316 R.K[1217.75]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.736842105 R.K[1217.75]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.241935484 R.EWTEQETLLLLEALEMYK[1279.79]DDWNKVSEHVGSR.T Q8TAQ2:617 Q92922:639 2 SMARCC2 0.838709677 R.EWTEQETLLLLEALEMYK[1508.93]DDWNKVSEHVGSR.T Q8TAQ2:617 Q92922:639 2 SMARCC2 1.708333333 K.EK[1508.93]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 1.708333333 K.EK[1508.93]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 1.875 R.GQPLPDHLQMAVQGK[738.48]R.P P51532:207 1 SMARCA4 1.6875 R.TK[1151.59]ATIELK.A P51532:399 1 SMARCA4 1.3125 R.TK[1151.59]ATIELK.A P51532:399 1 SMARCA4 1.5625 R.TK[1127.63]ATIELK.A P51532:399 1 SMARCA4 0.902439024 R.PSPAPPAVPPAASPVMPPQTQSPGQPAQPAPMVPLHQK[1974.06]QSR.I P51532:348 1 SMARCA4 1.036585366 R.PSPAPPAVPPAASPVMPPQTQSPGQPAQPAPMVPLHQK[1974.06]QSR.I P51532:348 1 SMARCA4 0.365853659 R.PSPAPPAVPPAASPVMPPQTQSPGQPAQPAPMVPLHQK[1974.06]QSR.I P51532:348 1 SMARCA4 2.866666667 R.DTALETALNAK[738.48]AYKR.S P51532:437 1 SMARCA4 2.4 R.RDTALETALNAK[738.48]AYK.R P51532:437 1 SMARCA4 1.235294118 K.ISAK[795.48]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 2.365384615 R.MEK[1125.66]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 1.307692308 R.MEK[1125.66]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 1.02 R.MEK[1665.97]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 0.98 R.MEK[1665.94]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 0.7 R.MEK[1665.91]GEPYMSIQPAEDPDDYDDGFSM[147.04]K.H Q969G3:166 1 SMARCE1 0.852941176 K.AYHNSPAYLAYINAK[2040.09]SR.A Q969G3:146 1 SMARCE1 2 R.K[1480.66]LEAELLQIEER.H Q969G3:240 1 SMARCE1 1.625 R.SVTGK[1024.6]IQK.L P51532:496 1 SMARCA4 0.9 R.EQK[981.59]AKR.N Q12824:124 1 SMARCB1 1.4 R.LDGTTK[1195.67]AEDR.G P51532:1131 1 SMARCA4 2.3 R.EQK[995.64]AK[284.17]R.N Q12824:124 1 SMARCB1 1 R.EQK[995.64]AKR.N Q12824:124 1 SMARCB1 1.666666667 K.VSYK[1180.69]GSPAAR.R P51532:835 1 SMARCA4 1.4 K.VSYK[1024.6]GSPAAR.R P51532:835 1 SMARCA4 1.1 R.GFK[1024.6]YLR.L P51532:1122 1 SMARCA4 3.1 R.DTALETALNAK[1013.57]AYKR.S P51532:437 1 SMARCA4 3.357142857 R.RDTALETALNAK[1013.55]AYK.R P51532:437 1 SMARCA4 2.633333333 R.RDTALETALNAK[1013.57]AYK.R P51532:437 1 SMARCA4 2.5 R.RDTALETALNAK[1013.57]AYK.R P51532:437 1 SMARCA4 2.366666667 R.RDTALETALNAK[1013.57]AYK.R P51532:437 1 SMARCA4 0.8125 R.K[1568.83]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 0.916666667 R.Q[111.03]RGK[1480.68]GEITPAAIQK.M Q15532:13 1 SS18 0.708333333 R.Q[111.03]RGK[1480.68]GEITPAAIQK.M Q15532:13 1 SS18 3.578947368 R.LDLAGRDLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.861111111 R.LDLAGRDLTDYLMK[1363.78]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.538461538 R.DLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 1.947368421 R.LDLAGRDLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.458333333 R.DLTDYLM[147.04]K[1363.81]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2 R.LDLAGRDLTDYLM[147.04]K[1363.81]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.615384615 R.DLTDYLMK[1235.72]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 3.041666667 R.DLTDYLM[147.04]K[1235.72]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.384615385 R.DLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 1.789473684 R.LDLAGRDLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.384615385 R.DLTDYLMK[1235.72]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.230769231 R.DLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.076923077 R.DLTDYLMK[1235.72]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 1.210526316 R.LDLAGRDLTDYLMK[1235.72]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 1.315789474 R.LDLAGRDLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.291666667 R.DLTDYLM[147.04]K[1363.81]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 1.846153846 R.DLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 1.615384615 R.DLTDYLMK[1235.72]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 1.210526316 R.LDLAGRDLTDYLMK[1235.72]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 1.038461538 R.DLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 0.653846154 R.DLTDYLMK[1235.72]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.5 R.DLTDYLM[147.04]K[1363.81]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.269230769 R.DLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 2.076923077 R.DLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 1.807692308 R.DLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 0.851851852 K.VDFPTAIGMVVERDDGSTLMEIDGDK[1876]GK.Q O96019:60 1 ACTL6A 1.159090909 R.HQGVMVGMGQK[1266.74]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 1 ACTBL2 1.642857143 R.EQKK[1301.78]ENER.I P51532:517 1 SMARCA4 0.4375 K.K[1301.81]ENERIEK.E P51532:517 1 SMARCA4 0.4375 K.K[1301.81]ENERIEK.E P51532:517 1 SMARCA4 0.1875 K.K[1301.81]ENERIEK.E P51532:517 1 SMARCA4 0.766666667 K.AVATYHANTEREQK[1301.81]K.E P51532:516 1 SMARCA4 0.625 R.EQK[1301.81]KENER.I P51532:516 1 SMARCA4 2.441176471 K.KK[1301.81]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 2.5 K.IQK[719.36]LTK[284.17]AVATYHANTER.E P51532:499 1 SMARCA4 2.0625 K.IQK[719.37]LTK[284.17]AVATYHANTER.E P51532:499 1 SMARCA4 1.138888889 K.E[111.03]IITLAPSTMK[2010.98]IK[284.17]IIAPPER.K Q562R1:327 1 ACTBL2 0.972222222 K.E[111.03]IITLAPSTMK[2011.02]IK[284.17]IIAPPER.K Q562R1:327 1 ACTBL2 1.045454545 R.K[1698.84]DLYANTVLSGGSTM[147.04]YPGIADR.M Q562R1:292 1 ACTBL2 1.363636364 R.WK[1301.81]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 0.433333333 K.AVATWHANTEREQK[1301.81]K.E P51531:492 1 SMARCA2 1.666666667 K.IK[927.5]IIAPPER.K Q562R1:329 P60709:328 2 ACTBL2 1.333333333 K.IK[927.5]IIAPPER.K Q562R1:329 P60709:328 2 ACTBL2 2.0625 K.IK[939.54]IIAPPER.K Q562R1:329 P60709:328 2 ACTBL2 2.0625 K.IK[939.53]IIAPPER.K Q562R1:329 P60709:328 2 ACTBL2 1.875 K.IK[939.53]IIAPPER.K Q562R1:329 P60709:328 2 ACTBL2 0.333333333 K.ETERIEK[1301.81]ER.M P51531:500 1 SMARCA2 2.0625 K.IK[939.54]IIAPPER.K Q562R1:329 P60709:328 2 ACTBL2 1.717391304 R.DIGEGNLSTAAAAALAAAAVK[1055.59]AK.H Q8TAQ2:872 1 SMARCC2 0.923076923 K.NK[1184.68]SKTPEIYLAYR.N Q8TAQ2:455 Q92922:480 2 SMARCC2 0.923076923 K.NK[1184.68]SKTPEIYLAYR.N Q8TAQ2:455 Q92922:480 2 SMARCC2 0.538461538 K.NK[1184.68]SKTPEIYLAYR.N Q8TAQ2:455 Q92922:480 2 SMARCC2 2.5625 K.K[1024.6]VMATIEK.V Q8WUZ0:20 1 BCL7C 2.5625 K.K[1024.6]VMATIEK.V Q8WUZ0:20 1 BCL7C 1.6 R.EQK[1082.64]AK[284.17]R.N Q12824:124 1 SMARCB1 0.857142857 R.SRAK[1180.67]DDIK.R Q8WUZ0:15 Q4VC05:15 Q9BQE9:15 3 BCL7C 2.035714286 R.IFK[1180.67]WVPVVDPQEEER.R Q8WUZ0:47 1 BCL7C 1.566666667 R.IFK[1024.6]WVPVVDPQEEER.R Q8WUZ0:47 1 BCL7C 1.178571429 R.IFK[1180.66]WVPVVDPQEEER.R Q8WUZ0:47 1 BCL7C 0.55 K.HQEYLNSILQHAK[1381.78]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 2.181818182 R.WK[1197.67]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 2.409090909 R.WK[1197.67]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 2.227272727 R.WK[1082.63]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 2.181818182 R.WK[954.54]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 1.954545455 R.WK[1197.67]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 1.65 K.VSYK[1082.63]GSPAAR.R P51532:835 1 SMARCA4 1.285714286 R.AKDDIK[995.64]K.V Q8WUZ0:19 Q9BQE9:19 2 BCL7C 0.2 R.EARITEK[1311.76]LEK.Q P51532:455 1 SMARCA4 0.75 K.VSYK[1197.67]GSPAAR.R P51532:835 1 SMARCA4 1.857142857 R.AK[995.64]DDIKK.V Q8WUZ0:15 Q9BQE9:15 2 BCL7C 1.25 R.SRAK[995.64]DDIK.R Q8WUZ0:15 Q4VC05:15 Q9BQE9:15 3 BCL7C 1.75 R.SVTGK[1082.63]IQK.L P51532:496 1 SMARCA4 1.5625 R.SVTGK[1082.63]IQK.L P51532:496 1 SMARCA4 1.6875 R.SVTGK[1082.63]IQK.L P51532:496 1 SMARCA4 1.53125 R.K[1082.63]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.558823529 K.AYHNSPAYLAYINAK[1391.8]SR.A Q969G3:146 1 SMARCE1 2.588235294 K.K[1279.79]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.625 R.LSFPSIK[1279.79]PDTDQTLKK.E Q92785:99 1 DPF2 1.9 R.LSFPSIK[1279.79]PDTDQTLK.K Q92785:99 1 DPF2 1.566666667 R.LSFPSIK[1279.79]PDTDQTLK.K Q92785:99 1 DPF2 1.233333333 R.LSFPSIK[1508.93]PDTDQTLK.K Q92785:99 1 DPF2 0.5 R.LSFPSIK[1279.79]PDTDQTLKK.E Q92785:99 1 DPF2 0.433333333 R.LSFPSIK[1508.93]PDTDQTLK.K Q92785:99 1 DPF2 0.3125 R.LSFPSIKPDTDQTLK[1279.79]K.E Q92785:107 1 DPF2 0.5 R.LSFPSIKPDTDQTLK[1279.79]K.E Q92785:107 1 DPF2 2.1875 K.K[795.5]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 2.03125 K.K[795.5]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 1.46875 R.K[1123.62]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 3 R.K[1123.62]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA2 1.35 R.TKATVELK[1123.62]ALR.L P51531:381 1 SMARCA2 1.25 K.IQK[284.17]LSK[1504.76]AVATWHANTER.E P51531:478 1 SMARCA2 1.075 K.LDASILEDRDK[852.54]PYAC[160.03]DIC[160.03]GK.R Q92785:207 1 DPF2 1.125 K.LDASILEDRDK[880.57]PYAC[160.03]DIC[160.03]GK.R Q92785:207 1 DPF2 0.825 R.SGHPSC[160.03]LQFTPVMM[147.04]AAVK[1259.67]TYR.W Q92785:318 1 DPF2 2.714285714 R.SGHPSC[160.03]LQFTPVMMAAVK[852.54]TYR.W Q92785:318 1 DPF2 2.571428571 R.SGHPSC[160.03]LQFTPVMMAAVK[852.54]TYR.W Q92785:318 1 DPF2 2.166666667 R.SGHPSC[160.03]LQFTPVMMAAVK[852.54]TYR.W Q92785:318 1 DPF2 2.136363636 R.K[1100.57]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA2 3.823529412 K.K[852.54]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.095238095 K.K[1717.93]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 0.375 R.ILEPDDFLDDLDDEDYEEDTPK[1717.93]RR.G Q92785:178 1 DPF2 0.295454545 R.C[160.03]TLLLMLDYQPPQFK[2081.14]LDPRLAR.L Q6STE5:264 1 SMARCD3 1.954545455 R.DK[1296.7]PYAC[160.03]DIC[160.03]GKR.Y Q92785:207 1 DPF2 0.555555556 R.KK[1123.62]DGGPNVK.Y Q8TAQ2:6 1 SMARCC2 1.204545455 R.LPFLDSQTGVAQSNC[160.03]YIWMEK[1744.95]R.H Q92785:59 1 DPF2 1.25 R.LPFLDSQTGVAQSNC[160.03]YIWMEK[1744.95]R.H Q92785:59 1 DPF2 1.833333333 K.SK[1215.68]GK[284.17]GVGSAR.K Q92785:186 1 DPF2 0.75 R.KK[996.6]DGGPNVK.Y Q8TAQ2:6 1 SMARCC2 1.435483871 R.PGLSYHYAHSHLAEEEGEDK[1002.54]EDSQPPTPVSQR.S Q92785:241 1 DPF2 1.129032258 R.PGLSYHYAHSHLAEEEGEDK[1002.53]EDSQPPTPVSQR.S Q92785:241 1 DPF2 0.983870968 R.PGLSYHYAHSHLAEEEGEDK[1002.59]EDSQPPTPVSQR.S Q92785:241 1 DPF2 1.403225806 R.PGLSYHYAHSHLAEEEGEDK[1002.56]EDSQPPTPVSQR.S Q92785:241 1 DPF2 0.693548387 R.PGLSYHYAHSHLAEEEGEDK[1002.54]EDSQPPTPVSQR.S Q92785:241 1 DPF2 0.951612903 R.PGLSYHYAHSHLAEEEGEDK[1002.5]EDSQPPTPVSQR.S Q92785:241 1 DPF2 1.016129032 R.PGLSYHYAHSHLAEEEGEDK[1002.51]EDSQPPTPVSQR.S Q92785:241 1 DPF2 0.677419355 R.PGLSYHYAHSHLAEEEGEDK[1002.56]EDSQPPTPVSQR.S Q92785:241 1 DPF2 0.741935484 R.PGLSYHYAHSHLAEEEGEDK[1002.48]EDSQPPTPVSQR.S Q92785:241 1 DPF2 0.661290323 R.PGLSYHYAHSHLAEEEGEDK[1002.54]EDSQPPTPVSQR.S Q92785:241 1 DPF2 3.105263158 R.K[1123.62]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.315789474 R.K[1123.62]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 0.555555556 R.K[1367.79]LDQTIMRK.R Q96GM5:156 Q6STE5:131 2 SMARCD1 1.333333333 K.SK[1352.76]GK[284.17]GVGSAR.K Q92785:186 1 DPF2 0.6 R.LSFPSIK[1167.67]PDTDQTLK.K Q92785:99 1 DPF2 2 K.K[1167.67]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 0.884615385 R.KVWDQVK[1123.62]ASNPDLK.L Q969G3:85 1 SMARCE1 0.525 R.SGHPSC[160.03]LQFTPVMMAAVK[2495.28]TYR.W Q92785:318 1 DPF2 1.454545455 R.HQGTFTDEK[996.57]SK.A Q92922:199 1 SMARCC1 0.681818182 R.HQGTFTDEK[996.57]SK.A Q92922:199 1 SMARCC1 1.142857143 K.K[996.6]VQEAAR.A Q92922:740 1 SMARCC1 0.6 R.QQLLTERQNFHMEQLK[1367.73]YAELR.A Q92922:948 1 SMARCC1 1.275 R.SGHPSC[160.03]LQFTPVMM[147.04]AAVK[1957.98]TYR.W Q92785:318 1 DPF2 2.071428571 R.TDPLEK[982.56]R.G Q92785:130 1 DPF2 1.5 R.TDPLEK[982.56]R.G Q92785:130 1 DPF2 0.722222222 R.DRK[1123.62]ASANAR.K Q92922:317 1 SMARCC1 0.833333333 R.TDPLEK[1066.58]R.G Q92785:130 1 DPF2 2.416666667 R.TDPLEK[998.58]R.G Q92785:130 1 DPF2 1.041666667 K.RHQGTFTDEK[1123.62]SK.A Q92922:199 1 SMARCC1 0.818181818 K.RHQGTFTDEK[1123.62]SK.A Q92922:199 1 SMARCC1 1.583333333 K.SK[1123.61]ASHHIYPYSSSQDDEEWLRPVMR.K Q92922:201 1 SMARCC1 1.28 K.SK[1123.62]ASHHIYPYSSSQDDEEWLRPVMR.K Q92922:201 1 SMARCC1 1.270833333 K.SK[1123.65]ASHHIYPYSSSQDDEEWLRPVMR.K Q92922:201 1 SMARCC1 0.285714286 K.K[1123.62]IRDQDR.N Q12824:364 1 SMARCB1 1.84375 K.K[1195.67]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 0.7 R.GQLSWHQK[2081.14]TYAFSENPLPTVEIAIR.N Q12824:324 1 SMARCB1 0.44 R.GQLSWHQK[2081.14]TYAFSENPLPTVEIAIR.N Q12824:324 1 SMARCB1 1.325 R.SRDETPLC[160.03]TIAHWQDSLAK[2068.01]R.C Q8NFD5:1930 1 ARID1B 1.25 R.SRDETPLC[160.03]TIAHWQDSLAK[2068.01]R.C Q8NFD5:1930 1 ARID1B 1.575 R.SRDETPLC[160.03]TIAHWQDSLAK[2068.01]R.C Q8NFD5:1930 1 ARID1B 1.775 R.SRDETPLC[160.03]TIAHWQDSLAK[2224.12]R.C Q8NFD5:1930 1 ARID1B 2 R.SRDETPLC[160.03]TIAHWQDSLAK[2068.01]R.C Q8NFD5:1930 1 ARID1B 2 R.SRDETPLC[160.03]TIAHWQDSLAK[2224.12]R.C Q8NFD5:1930 1 ARID1B 1.605263158 R.SRDETPLC[160.03]TIAHWQDSLAK[2224.11]R.C Q8NFD5:1930 1 ARID1B 2 R.SRDETPLC[160.03]TIAHWQDSLAK[2224.12]R.C Q8NFD5:1930 1 ARID1B 1.775 R.SRDETPLC[160.03]TIAHWQDSLAK[2068.01]R.C Q8NFD5:1930 1 ARID1B 0.526315789 R.SRDETPLC[160.03]TIAHWQDSLAK[2068.03]R.C Q8NFD5:1930 1 ARID1B 3.888888889 R.MTEK[284.17]LEK[1280.77]QQK.I P51531:434 1 SMARCA2 2.722222222 R.MTEK[284.17]LEK[1296.75]QQK.I P51531:434 1 SMARCA2 1.85 R.AAK[1038.61]ALLAMAR.V Q8NFD5:2187 1 ARID1B 1.222222222 R.MTEK[284.17]LEK[1280.78]QQK.I P51531:434 1 SMARCA2 1.333333333 R.MTEK[284.17]LEK[1280.8]QQK.I P51531:434 1 SMARCA2 0.95 R.MTEKLEK[1280.76]QQK.I P51531:434 1 SMARCA2 0.75 R.MTEKLEK[1280.76]QQK.I P51531:434 1 SMARCA2 1.928571429 K.QQK[1296.75]IEQER.K P51531:437 P51532:461 2 SMARCA2 1.25 K.QQK[1280.76]IEQER.K P51531:437 P51532:461 2 SMARCA2 1 K.QQK[1280.74]IEQER.K P51531:437 P51532:461 2 SMARCA2 2.066666667 R.RDTTLETALNSK[997.63]AYK.R P51531:413 1 SMARCA2 1.866666667 R.DTTLETALNSK[841.53]AYKR.S P51531:413 1 SMARCA2 1.4 R.DTTLETALNSK[841.53]AYKR.S P51531:413 1 SMARCA2 2.1 R.SRDETPLC[160.03]TIAHWQDSLAK[802.47]R.C Q8NFD5:1930 1 ARID1B 1.825 R.SRDETPLC[160.03]TIAHWQDSLAK[802.47]R.C Q8NFD5:1930 1 ARID1B 0.766666667 K.GK[1153.68]GGTK[284.17]TLMNTIMQLR.K P51532:1029 1 SMARCA4 5.111111111 R.ITEK[284.17]LEK[1280.75]QQK.I P51532:458 1 SMARCA4 4.333333333 R.ITEK[284.17]LEK[1296.75]QQK.I P51532:458 1 SMARCA4 4.5 R.ITEK[284.17]LEK[1280.77]QQK.I P51532:458 1 SMARCA4 3.05 R.ITEKLEK[1280.76]QQK.I P51532:458 1 SMARCA4 2.65 R.ITEKLEK[1280.76]QQK.I P51532:458 1 SMARCA4 3.333333333 R.ITEK[284.17]LEK[1280.79]QQK.I P51532:458 1 SMARCA4 2 R.ITEKLEK[1296.76]QQK.I P51532:458 1 SMARCA4 2.222222222 R.ITEK[284.17]LEK[1296.76]QQK.I P51532:458 1 SMARCA4 1.375 R.SRDETPLC[160.03]TIAHWQDSLAK[1930.05]R.C Q8NFD5:1930 1 ARID1B 1.075 R.SRDETPLC[160.03]TIAHWQDSLAK[1930.05]R.C Q8NFD5:1930 1 ARID1B 0.575 R.SRDETPLC[160.03]TIAHWQDSLAK[1773.95]R.C Q8NFD5:1930 1 ARID1B 0.775 R.SRDETPLC[160.03]TIAHWQDSLAK[1930.05]R.C Q8NFD5:1930 1 ARID1B 0.425 R.SRDETPLC[160.03]TIAHWQDSLAK[1930.05]R.C Q8NFD5:1930 1 ARID1B 0.7 R.SRDETPLC[160.03]TIAHWQDSLAK[1930.05]R.C Q8NFD5:1930 1 ARID1B 0.525 R.SRDETPLC[160.03]TIAHWQDSLAK[1773.95]R.C Q8NFD5:1930 1 ARID1B 1.03125 R.GQPLPDHLQMAVQGK[1624.79]R.P P51532:207 1 SMARCA4 1.3 R.K[1300.7]NPVC[160.03]REMSMALLSNLAQGDALAAR.A Q8NFD5:2110 1 ARID1B 3.1 R.DTALETALNAK[997.63]AYKR.S P51532:437 1 SMARCA4 3.5 R.DTALETALNAK[841.53]AYKR.S P51532:437 1 SMARCA4 2.966666667 R.DTALETALNAK[841.53]AYKR.S P51532:437 1 SMARCA4 3.166666667 R.RDTALETALNAK[997.63]AYK.R P51532:437 1 SMARCA4 2.8 R.RDTALETALNAK[997.63]AYK.R P51532:437 1 SMARCA4 2.466666667 R.RDTALETALNAK[997.63]AYK.R P51532:437 1 SMARCA4 2.2 R.RDTALETALNAK[997.63]AYK.R P51532:437 1 SMARCA4 2.2 R.RDTALETALNAK[997.63]AYK.R P51532:437 1 SMARCA4 1.035714286 R.RDTALETALNAK[841.56]AYK.R P51532:437 1 SMARCA4 2.705882353 K.AYHNSPAYLAYINAK[1909.07]SR.A Q969G3:146 1 SMARCE1 1.970588235 K.AYHNSPAYLAYINAK[1909.07]SR.A Q969G3:146 1 SMARCE1 1.6875 K.AYHNSPAYLAYINAK[1780.93]SR.A Q969G3:146 1 SMARCE1 1.617647059 K.AYHNSPAYLAYINAK[1909.07]SR.A Q969G3:146 1 SMARCE1 1.117647059 K.AYHNSPAYLAYINAK[1909.07]SR.A Q969G3:146 1 SMARCE1 1.375 K.AYHNSPAYLAYINAK[1780.95]SR.A Q969G3:146 1 SMARCE1 0.769230769 R.MEK[1909.07]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 1.346153846 R.MEK[1280.76]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 0.826923077 R.MEK[1280.76]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 0.75 R.MEK[1280.76]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 2.833333333 R.K[1624.79]LEAELLQIEER.H Q969G3:240 1 SMARCE1 2.25 K.AYHNSPAYLAYINAK[2065.18]SR.A Q969G3:146 1 SMARCE1 2.375 K.AYHNSPAYLAYINAK[2065.17]SR.A Q969G3:146 1 SMARCE1 1.78125 K.AYHNSPAYLAYINAK[2065.09]SR.A Q969G3:146 1 SMARCE1 1.25 K.AYHNSPAYLAYINAK[2065.16]SR.A Q969G3:146 1 SMARCE1 0.777777778 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[2510.37]R.H Q8NFD5:1360 1 ARID1B 0.783783784 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[2510.38]R.H Q8NFD5:1360 1 ARID1B 0.72972973 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[2510.38]R.H Q8NFD5:1360 1 ARID1B 0.65 R.YVGDRK[1506.94]NPVC[160.03]R.E Q8NFD5:2110 1 ARID1B 1.1 R.YVGDRK[1260.73]NPVC[160.03]R.E Q8NFD5:2110 1 ARID1B 1.775 R.SRDETPLC[160.03]TIAHWQDSLAK[2098.03]R.C Q8NFD5:1930 1 ARID1B 2.2 R.SRDETPLC[160.03]TIAHWQDSLAK[2254.13]R.C Q8NFD5:1930 1 ARID1B 1.975 R.SRDETPLC[160.03]TIAHWQDSLAK[2254.13]R.C Q8NFD5:1930 1 ARID1B 2.275 R.SRDETPLC[160.03]TIAHWQDSLAK[2254.13]R.C Q8NFD5:1930 1 ARID1B 1.975 R.SRDETPLC[160.03]TIAHWQDSLAK[2254.13]R.C Q8NFD5:1930 1 ARID1B 1.375 R.SRDETPLC[160.03]TIAHWQDSLAK[2098.03]R.C Q8NFD5:1930 1 ARID1B 1.421052632 R.SRDETPLC[160.03]TIAHWQDSLAK[2254.1]R.C Q8NFD5:1930 1 ARID1B 0.578947368 R.SRDETPLC[160.03]TIAHWQDSLAK[2098.05]R.C Q8NFD5:1930 1 ARID1B 0.5 R.SRDETPLC[160.03]TIAHWQDSLAK[2098.03]R.C Q8NFD5:1930 1 ARID1B 0.710526316 R.SRDETPLC[160.03]TIAHWQDSLAK[2114.01]R.C Q8NFD5:1930 1 ARID1B 1 R.SRDETPLC[160.03]TIAHWQDSLAK[2270.12]R.C Q8NFD5:1930 1 ARID1B 0.708333333 K.ITK[1689.03]VYELGNEPER.K Q8NFD5:1046 1 ARID1B 2.791666667 K.FPFGIQQAK[1269.71]SHR.N Q8NFD5:1898 1 ARID1B 1.5 K.FPFGIQQAK[1269.71]SHR.N Q8NFD5:1898 1 ARID1B 1.85 R.NIK[1269.71]LLEDEPR.S Q8NFD5:1904 1 ARID1B 1.9 R.NIK[1269.71]LLEDEPR.S Q8NFD5:1904 1 ARID1B 1.85 R.NIK[1397.81]LLEDEPR.S Q8NFD5:1904 1 ARID1B 1.7 R.NIK[1269.71]LLEDEPR.S Q8NFD5:1904 1 ARID1B 2.75 R.QEK[1269.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 2.45 R.QEK[1269.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.9 R.QEK[1269.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 3.25 R.Q[111.03]EK[1397.81]FYATLVR.Y Q8NFD5:2097 1 ARID1B 2.05 R.QEK[1397.81]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.35 R.QEK[1269.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.85 R.QEK[1397.81]FYATLVR.Y Q8NFD5:2097 1 ARID1B 2.8125 R.Q[111.03]EK[1397.79]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.8 R.QEK[1397.81]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.55 R.QEK[1269.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.944444444 R.QEK[1285.7]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.75 R.QEK[1269.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.078947368 R.K[2348.27]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.342105263 R.K[2348.27]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.184210526 R.K[2348.27]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.052631579 R.K[2348.27]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.710526316 R.K[1909.07]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.078947368 R.K[1780.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.552631579 R.K[1780.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.157894737 R.K[1909.07]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.236842105 R.K[1780.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.210526316 R.K[1780.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 0.642857143 R.K[1793.91]C[160.03]LIDIFGILMEYEVGDPSQK.A Q8NFD5:1676 1 ARID1B 2.236842105 R.APQTYEK[1388.78]EEDEDKGVAC[160.03]SK.D Q8NFD5:1984 1 ARID1B 1.763157895 R.APQTYEK[1388.78]EEDEDKGVAC[160.03]SK.D Q8NFD5:1984 1 ARID1B 0.638888889 R.APQTYEK[1388.79]EEDEDK[284.17]GVAC[160.03]SK.D Q8NFD5:1984 1 ARID1B 0.5 R.APQTYEK[1388.78]EEDEDKGVAC[160.03]SK.D Q8NFD5:1984 1 ARID1B 2.15 K.AK[1111.62]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.1 K.AK[1111.62]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.923076923 K.SLVALLVETQMK[1491.83]K.L Q8TAQ2:897 Q92922:905 2 SMARCC2 0.884615385 K.SLVALLVETQMK[1491.83]K.L Q8TAQ2:897 Q92922:905 2 SMARCC2 1.7 K.AK[1111.62]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.5 K.K[1127.63]NNLFVVDR.S Q8NFD5:1781 1 ARID1B 2.555555556 K.K[1127.63]NNLFVVDR.S Q8NFD5:1781 1 ARID1B 1.222222222 K.K[1127.59]NNLFVVDR.S Q8NFD5:1781 1 ARID1B 0.708333333 R.HMDGMYGPPAK[1477.85]R.H Q8NFD5:1372 1 ARID1B 0.666666667 R.HMDGMYGPPAK[1322.74]R.H Q8NFD5:1372 1 ARID1B 2.8 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.675 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 2.425 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 2.775 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.425 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 2.394736842 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.21]R.C Q8NFD5:1930 1 ARID1B 2.35 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 2.5 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 2.5 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.21]R.C Q8NFD5:1930 1 ARID1B 2.375 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 0.675 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 2.275 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.157894737 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.07]R.C Q8NFD5:1930 1 ARID1B 1.675 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 2.075 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 2.052631579 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.611111111 R.DETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 2.1 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 2.078947368 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 2.125 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.555555556 R.DETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.472222222 R.DETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.45 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.764705882 R.DETPLC[160.03]TIAHWQDSLAK[2262.21]R.C Q8NFD5:1930 1 ARID1B 1.8 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.775 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.025 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.825 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.125 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.105263158 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.24]R.C Q8NFD5:1930 1 ARID1B 1.552631579 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.21]R.C Q8NFD5:1930 1 ARID1B 1.45 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.325 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.175 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 0.947368421 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 0.9 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.8 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 1.3 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.675 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 0.975 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 0.842105263 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.21]R.C Q8NFD5:1930 1 ARID1B 1.45 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 0.85 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.15 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 0.588235294 R.DETPLC[160.03]TIAHWQDSLAK[2106.07]R.C Q8NFD5:1930 1 ARID1B 0.526315789 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.23]R.C Q8NFD5:1930 1 ARID1B 0.25 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 0.675 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 1.35 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 0.9 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 0.882352941 R.DETPLC[160.03]TIAHWQDSLAK[2262.23]R.C Q8NFD5:1930 1 ARID1B 0.575 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 0.625 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 0.868421053 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 0.605263158 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 0.7 R.SRDETPLC[160.03]TIAHWQDSLAK[1391.8]R.C Q8NFD5:1930 1 ARID1B 2.214285714 R.MEIQEAIK[1628.85]KPLTQK.R Q92925:185 1 SMARCD2 1.153846154 R.M[147.04]EIQEAIK[1628.82]KPLTQK.R Q92925:185 1 SMARCD2 2 R.NIK[1209.71]LLEDEPR.S Q8NFD5:1904 1 ARID1B 2.3 R.NIK[1209.71]LLEDEPR.S Q8NFD5:1904 1 ARID1B 1.3 R.NIK[1209.71]LLEDEPR.S Q8NFD5:1904 1 ARID1B 2.458333333 K.FPFGIQQAK[1209.71]SHR.N Q8NFD5:1898 1 ARID1B 1.416666667 K.FPFGIQQAK[1209.71]SHR.N Q8NFD5:1898 1 ARID1B 2.35 R.QEK[1209.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 2.2 R.QEK[1209.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 2.3 R.QEK[1209.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.6 R.QEK[1209.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.944444444 R.AAK[1180.69]ALLAMAR.V Q8NFD5:2187 1 ARID1B 0.4 R.NIK[1409.84]LLEDEPR.S Q8NFD5:1904 1 ARID1B 0.75 R.NIK[1409.84]LLEDEPR.S Q8NFD5:1904 1 ARID1B 0.958333333 R.HMDGMYGPPAK[1066.61]R.H Q8NFD5:1372 1 ARID1B 0.916666667 R.HMDGMYGPPAK[1066.61]R.H Q8NFD5:1372 1 ARID1B 0.985714286 R.VQEFNSGLLHWQLGGGDTTEHIQTHFESK[1119.62]MEIPPR.R Q8NFD5:1824 1 ARID1B 1 R.VQEFNSGLLHWQLGGGDTTEHIQTHFESK[1119.62]MEIPPR.R Q8NFD5:1824 1 ARID1B 2.625 R.VREEVPLELVEAHVK[940.53]K.V Q92922:739 1 SMARCC1 2.571428571 R.TDIYSK[940.53]K.T Q92922:608 1 SMARCC1 1.214285714 R.TDIYSK[940.53]K.T Q92922:608 1 SMARCC1 0.515625 R.QQGGGMMMGPGGGGAASLSK[1611.74]AAAGSAAGGFQR.F Q8NFD5:392 1 ARID1B 0.46875 R.QQGGGMMMGPGGGGAASLSK[1611.74]AAAGSAAGGFQR.F Q8NFD5:392 1 ARID1B 0.265625 R.QQGGGMMMGPGGGGAASLSK[1611.74]AAAGSAAGGFQR.F Q8NFD5:392 1 ARID1B 3.35 R.HFEELETIMDREK[979.61]EALEQQR.Q Q92922:925 1 SMARCC1 2.1 R.HFEELETIMDREK[1135.71]EALEQQR.Q Q92922:925 1 SMARCC1 1.55 R.HFEELETIMDREK[1135.71]EALEQQR.Q Q92922:925 1 SMARCC1 2 R.EK[1135.71]EALEQQR.Q Q92922:925 1 SMARCC1 1.454545455 R.AAIMQALWLYIK[2072.05]HNQLQDGHER.E Q92925:340 1 SMARCD2 1.547619048 R.AAIMQALWLYIK[2055.02]HNQLQDGHER.E Q92925:340 1 SMARCD2 1.30952381 R.AAIMQALWLYIK[2055.02]HNQLQDGHER.E Q92925:340 1 SMARCD2 1.431818182 R.AAIMQALWLYIK[2072.05]HNQLQDGHER.E Q92925:340 1 SMARCD2 1 R.AAIMQALWLYIK[2072.05]HNQLQDGHER.E Q92925:340 1 SMARCD2 0.952380952 R.AAIMQALWLYIK[2055.01]HNQLQDGHER.E Q92925:340 1 SMARCD2 0.619047619 R.AAIMQALWLYIK[2055.02]HNQLQDGHER.E Q92925:340 1 SMARCD2 0.69047619 R.AAIMQALWLYIK[2070.99]HNQLQDGHER.E Q92925:340 1 SMARCD2 0.875 R.HIFAK[1372.75]VQQR.R Q92925:514 1 SMARCD2 4.277777778 R.HIFAK[1066.61]VQQR.R Q92925:514 1 SMARCD2 0.75 R.Q[111.03]RGK[1066.6]GEITPAAIQK.M Q15532:13 1 SS18 2.133333333 R.VASAAAK[1568.86]AALEEFSR.V Q92922:716 1 SMARCC1 0.538461538 R.TPTTQETDGFQVK[1253.69]R.P Q6STE5:241 1 SMARCD3 1.5 R.LQDSHDKEYINGDK[2072.05]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 1.5 R.LQDSHDKEYINGDK[2072.05]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 1.217391304 R.LQDSHDKEYINGDK[2072]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 1.086956522 R.LQDSHDKEYINGDK[2055.02]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 0.913043478 R.LQDSHDKEYINGDK[2088.03]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 0.913043478 R.LQDSHDKEYINGDK[2071.96]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 0.970588235 K.EYINGDK[2072.05]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 0.630434783 R.LQDSHDKEYINGDK[2054.99]YFQQIFDC[160.03]PR.L Q6STE5:309 1 SMARCD3 2.888888889 R.YFYSK[1066.61]VQQR.R Q96GM5:498 1 SMARCD1 2.868421053 R.K[1066.61]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.789473684 R.K[1066.61]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.928571429 R.VASAAAK[1483.75]AALEEFSR.V Q92922:716 1 SMARCC1 1.633333333 R.VASAAAK[1483.78]AALEEFSR.V Q92922:716 1 SMARCC1 3.53125 R.EFVIC[160.03]DK[2055.02]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 3.28125 R.EFVIC[160.03]DK[2055.02]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 2 K.LQDPHEREFVIC[160.03]DK[2072.04]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 2.28125 R.EFVIC[160.03]DK[2055.01]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.5 K.LQDPHEREFVIC[160.03]DK[2055.02]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 2 R.EFVIC[160.03]DK[2072.03]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.369565217 K.LQDPHEREFVIC[160.03]DK[2088.08]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.625 K.LQDPHEREFVIC[160.03]DK[2072.05]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 2.1875 R.EFVIC[160.03]DK[2070.97]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 2 R.EFVIC[160.03]DK[2072.02]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.6875 R.EFVIC[160.03]DK[2070.98]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.59375 R.EFVIC[160.03]DK[2072.07]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.434782609 K.LQDPHEREFVIC[160.03]DK[2055.12]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 2.03125 R.EFVIC[160.03]DK[2072.07]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.382352941 R.EFVIC[160.03]DK[2072.05]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.529411765 R.EFVIC[160.03]DK[2072.05]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.647058824 R.EFVIC[160.03]DK[2072.05]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.5 R.EFVIC[160.03]DK[2072.05]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.441176471 R.EFVIC[160.03]DK[2072.05]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.375 R.EFVIC[160.03]DK[2071.98]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.21875 R.EFVIC[160.03]DK[2072.06]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.25 R.EFVIC[160.03]DK[2088.06]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.15625 R.EFVIC[160.03]DK[2088.03]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.25 R.EFVIC[160.03]DK[2071.02]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 0.882352941 R.EFVIC[160.03]DK[2072.05]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 0.875 R.EFVIC[160.03]DK[2087.99]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.5 R.Q[111.03]NFHMEQLK[837.55]YAELR.A Q92922:948 1 SMARCC1 2.208333333 R.Q[111.03]NFHMEQLK[1525.8]YAELR.A Q92922:948 1 SMARCC1 2.458333333 R.Q[111.03]NFHMEQLK[1525.79]YAELR.A Q92922:948 1 SMARCC1 1.833333333 R.Q[111.03]NFHMEQLK[1525.8]YAELR.A Q92922:948 1 SMARCC1 1.791666667 R.Q[111.03]NFHMEQLK[1525.8]YAELR.A Q92922:948 1 SMARCC1 1.65625 K.THK[2055.01]LQDPHEREFVIC[160.03]DK.Y Q96GM5:327 1 SMARCD1 1.833333333 R.Q[111.03]NFHM[147.04]EQLK[1525.79]YAELR.A Q92922:948 1 SMARCC1 1.392857143 R.QNFHMEQLK[1525.8]YAELR.A Q92922:948 1 SMARCC1 1.791666667 R.Q[111.03]NFHM[147.04]EQLK[1525.78]YAELR.A Q92922:948 1 SMARCC1 1.458333333 R.Q[111.03]NFHMEQLK[1525.82]YAELR.A Q92922:948 1 SMARCC1 1.321428571 R.QNFHMEQLK[1525.8]YAELR.A Q92922:948 1 SMARCC1 1.230769231 R.QNFHMEQLK[1525.78]YAELR.A Q92922:948 1 SMARCC1 1.15625 K.THK[2055.01]LQDPHEREFVIC[160.03]DK.Y Q96GM5:327 1 SMARCD1 1.192307692 R.QNFHM[147.04]EQLK[1525.78]YAELR.A Q92922:948 1 SMARCC1 1.6875 K.THK[2055.01]LQDPHEREFVIC[160.03]DK.Y Q96GM5:327 1 SMARCD1 1.321428571 R.QNFHMEQLK[1525.8]YAELR.A Q92922:948 1 SMARCC1 1.333333333 R.Q[111.03]NFHMEQLK[1525.78]YAELR.A Q92922:948 1 SMARCC1 1.323529412 K.THK[2072.05]LQDPHEREFVIC[160.03]DK.Y Q96GM5:327 1 SMARCD1 1.176470588 K.THK[2072.05]LQDPHEREFVIC[160.03]DK.Y Q96GM5:327 1 SMARCD1 1.291666667 R.Q[111.03]NFHMEQLK[1525.81]YAELR.A Q92922:948 1 SMARCC1 1.5 R.Q[111.03]NFHMEQLK[1525.78]YAELR.A Q92922:948 1 SMARCC1 1.041666667 R.Q[111.03]NFHM[147.04]EQLK[1525.8]YAELR.A Q92922:948 1 SMARCC1 1.208333333 R.Q[111.03]NFHMEQLK[1525.76]YAELR.A Q92922:948 1 SMARCC1 0.821428571 R.QNFHMEQLK[1525.8]YAELR.A Q92922:948 1 SMARCC1 1.375 R.Q[111.03]NFHMEQLK[1525.79]YAELR.A Q92922:948 1 SMARCC1 0.916666667 R.Q[111.03]NFHMEQLK[1525.77]YAELR.A Q92922:948 1 SMARCC1 1 R.QNFHMEQLK[1525.8]YAELR.A Q92922:948 1 SMARCC1 0.708333333 R.Q[111.03]NFHMEQLK[1525.77]YAELR.A Q92922:948 1 SMARCC1 0.846153846 R.QNFHMEQLK[1525.76]YAELR.A Q92922:948 1 SMARCC1 0.653846154 R.QNFHM[147.04]EQLK[1525.82]YAELR.A Q92922:948 1 SMARCC1 2.631578947 R.K[982.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.394736842 R.K[982.56]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.227272727 K.TLAK[284.17]SK[1400.79]GASAGR.E Q92922:615 1 SMARCC1 1.617647059 R.SPQVPAAQQMLNFPEK[1902.01]NK.E Q92922:588 1 SMARCC1 1.05 R.HQGTFTDEK[955.59]SK.A Q92922:199 1 SMARCC1 2.4 K.MK[998.55]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.909090909 R.KVEEAAK[1029.53]VTGK.A Q8TAQ2:724 1 SMARCC2 2.2 R.VASAAAK[1773.95]AALEEFSR.V Q92922:716 1 SMARCC1 1.966666667 R.VASAAAK[1773.95]AALEEFSR.V Q92922:716 1 SMARCC1 2.2 R.VASAAAK[1773.95]AALEEFSR.V Q92922:716 1 SMARCC1 1.821428571 R.VASAAAK[1773.91]AALEEFSR.V Q92922:716 1 SMARCC1 1.433333333 R.VASAAAK[1773.95]AALEEFSR.V Q92922:716 1 SMARCC1 1.233333333 R.VASAAAK[1773.95]AALEEFSR.V Q92922:716 1 SMARCC1 1.071428571 R.VASAAAK[1773.93]AALEEFSR.V Q92922:716 1 SMARCC1 1.630434783 K.SALEEFSKMK[1785.96]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 0.304347826 K.SALEEFSKMK[1785.96]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.25 R.DIGEGNLSTAAAAALAAAAVK[1785.96]AK[284.17]HLAAVEER.K Q8TAQ2:872 1 SMARCC2 2.239130435 K.SALEEFSK[1785.96]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 2.173913043 K.SALEEFSK[1785.96]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 1.826086957 K.SALEEFSK[1785.96]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 1.608695652 K.SALEEFSK[1785.96]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 1.391304348 K.SALEEFSK[1785.96]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 1.195652174 K.SALEEFSK[1785.96]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 1.545454545 K.SALEEFSK[1785.88]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 1.369565217 K.SALEEFSK[1785.96]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 1.431818182 K.SALEEFSK[1785.97]MK[284.17]EEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 0.652173913 K.SALEEFSK[1785.96]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 1.533333333 R.VASAAAK[897.53]AALEEFSR.V Q92922:716 1 SMARCC1 1 R.TDM[147.04]YTK[1066.61]K.N Q8TAQ2:584 1 SMARCC2 1.714285714 K.K[1025.62]VQEAAR.A Q92922:740 1 SMARCC1 1.571428571 K.K[1025.62]VQEAAR.A Q92922:740 1 SMARCC1 2.333333333 R.VASAAAK[1066.61]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.119047619 K.AGGALC[160.03]HILGAAYK[1215.7]YKNEQGWR.R Q92922:127 1 SMARCC1 0.944444444 K.ISAK[982.56]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 0.611111111 R.KK[982.56]DGGPNVK.Y Q8TAQ2:6 1 SMARCC2 1.775 R.HFEELETIMDREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 2.075 R.HFEELETIMDREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 2.1 R.HFEELETIMDREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 3.2 R.K[1395.74]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 1.5 R.HFEELETIMDREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 1.35 R.HFEELETIMDREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 1.45 R.HFEELETIMDREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 1.315789474 R.HFEELETIMDREK[2249.14]EALEQQR.Q Q92922:925 1 SMARCC1 1 R.HFEELETIMDREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 0.947368421 R.HFEELETIM[147.04]DREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 0.875 R.HFEELETIMDREK[1936.98]EALEQQR.Q Q92922:925 1 SMARCC1 0.789473684 R.HFEELETIM[147.04]DREK[2093.06]EALEQQR.Q Q92922:925 1 SMARCC1 0.921052632 R.HFEELETIMDREK[2092.99]EALEQQR.Q Q92922:925 1 SMARCC1 2.066666667 R.K[1395.74]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 0.710526316 R.HFEELETIM[147.04]DREK[2093.07]EALEQQR.Q Q92922:925 1 SMARCC1 0.552631579 R.HFEELETIMDREK[2093.06]EALEQQR.Q Q92922:925 1 SMARCC1 1.2 R.HFEELETIMDREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 0.475 R.HFEELETIMDREK[2093.08]EALEQQR.Q Q92922:925 1 SMARCC1 0.552631579 R.HFEELETIM[147.04]DREK[2093.07]EALEQQR.Q Q92922:925 1 SMARCC1 0.578947368 R.HFEELETIM[147.04]DREK[2093]EALEQQR.Q Q92922:925 1 SMARCC1 0.578947368 R.HFEELETIM[147.04]DREK[2093.1]EALEQQR.Q Q92922:925 1 SMARCC1 1.263157895 R.HFEELETIMDREK[2249.15]EALEQQR.Q Q92922:925 1 SMARCC1 1.479166667 R.LC[160.03]GLKVEVDMEK[2055.07]IAAEIAQAEEQAR.K Q969G3:284 1 SMARCE1 1.315789474 K.VEVDMEK[2054.99]IAAEIAQAEEQAR.K Q969G3:284 1 SMARCE1 0.916666667 R.LC[160.03]GLKVEVDMEK[2072.1]IAAEIAQAEEQAR.K Q969G3:284 1 SMARCE1 1.571428571 K.K[1039.62]VQEAAR.A Q92922:740 1 SMARCC1 1.428571429 K.K[1039.62]VQEAAR.A Q92922:740 1 SMARCC1 1.5 K.K[1039.62]VQEAAR.A Q92922:740 1 SMARCC1 2.875 R.VREEVPLELVEAHVK[1039.62]K.V Q92922:739 1 SMARCC1 2.71875 R.VREEVPLELVEAHVK[1039.62]K.V Q92922:739 1 SMARCC1 1.033333333 K.RK[1425.67]HSPSPPPPTPTESR.K Q92922:326 1 SMARCC1 3.314814815 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 2.961538462 K.VEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 2.788461538 K.VEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 2.75 K.VEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 2.148148148 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 2.777777778 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 2.5 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 2.537037037 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 2.346153846 K.VEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 1.634615385 K.VEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 1.5 K.PYAC[160.03]DIC[160.03]GK[1624.89]RYK.N Q92785:216 1 DPF2 2.142857143 R.TDPLEK[1110.64]R.G Q92785:130 1 DPF2 1.9375 R.SVTGK[1110.64]IQK.L P51532:496 1 SMARCA4 1.625 R.SVTGK[1110.64]IQK.L P51532:496 1 SMARCA4 1.25 R.SVTGK[1110.64]IQK.L P51532:496 1 SMARCA4 1 R.SVTGK[1110.64]IQK.L P51532:496 1 SMARCA4 2.5625 K.IQK[1110.63]LTK[284.17]AVATYHANTER.E P51532:499 1 SMARCA4 1.84375 K.IQK[1110.64]LTK[284.17]AVATYHANTER.E P51532:499 1 SMARCA4 1.214285714 R.AK[995.64]DDIKR.V Q4VC05:15 1 BCL7A 0.642857143 R.AK[995.64]DDIKR.V Q4VC05:15 1 BCL7A 1.8 K.VSYK[1110.64]GSPAAR.R P51532:835 1 SMARCA4 1.45 K.VSYK[1110.64]GSPAAR.R P51532:835 1 SMARCA4 1.1 K.VSYK[1110.64]GSPAAR.R P51532:835 1 SMARCA4 1.5 K.VSYK[969.55]GSPAAR.R P51532:835 1 SMARCA4 1.2 K.VSYK[1281.75]GSPAAR.R P51532:835 1 SMARCA4 1.833333333 R.VMAAIEK[795.5]VR.K Q4VC05:27 Q9BQE9:27 2 BCL7A 1 R.ITEK[1281.71]LEKQQK.I P51532:455 1 SMARCA4 1.35 K.VSYK[969.55]GSPAAR.R P51532:835 1 SMARCA4 1.1 K.VSYK[983.58]GSPAAR.R P51532:835 1 SMARCA4 1.15 K.VSYK[855.49]GSPAAR.R P51532:835 1 SMARCA4 1.785714286 R.AKDDIK[995.64]R.V Q4VC05:19 1 BCL7A 1.84375 R.K[1110.64]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.285714286 R.AK[1095.67]DDIKR.V Q4VC05:15 1 BCL7A 1.333333333 R.AK[1095.67]DDIKR.V Q4VC05:15 1 BCL7A 3.3 R.WK[1266.71]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 2.363636364 R.WK[1110.64]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 2.318181818 R.WK[1110.64]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 1.818181818 R.WK[1110.64]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 0.545454545 R.WK[1110.64]YMIVDEGHR.M P51531:846 P51532:876 2 SMARCA2 1.285714286 R.AK[981.62]DDIKR.V Q4VC05:15 1 BCL7A 1.35 K.ISYK[1110.64]GTPAMR.R P51531:805 1 SMARCA2 2.4 R.EQK[284.17]AK[1110.64]R.N Q12824:126 1 SMARCB1 1.74 R.GQLSWHQK[1110.64]TYAFSENPLPTVEIAIR.N Q12824:324 1 SMARCB1 1.1 R.GQLSWHQK[1110.64]TYAFSENPLPTVEIAIR.N Q12824:324 1 SMARCB1 1.18 R.GQLSWHQK[1110.64]TYAFSENPLPTVEIAIR.N Q12824:324 1 SMARCB1 1.2 R.EQK[1110.63]AK[284.17]R.N Q12824:124 1 SMARCB1 2.2 K.YK[1526.85]AVSISTEPPTYLR.E Q12824:108 1 SMARCB1 0.875 K.ASEVEEILDGNDEKYK[1526.76]AVSISTEPPTYLR.E Q12824:108 1 SMARCB1 0.607142857 K.YK[1526.87]AVSISTEPPTYLR.E Q12824:108 1 SMARCB1 0.689655172 K.ASEVEEILDGNDEKYK[1526.85]AVSISTEPPTYLR.E Q12824:108 1 SMARCB1 3.90625 K.ASEVEEILDGNDEK[1526.85]YK.A Q12824:106 1 SMARCB1 1.9375 K.ASEVEEILDGNDEK[1526.85]YK.A Q12824:106 1 SMARCB1 3.055555556 R.VMAAIEK[1024.6]VR.K Q4VC05:27 Q9BQE9:27 2 BCL7A 2.166666667 R.VMAAIEK[868.5]VR.K Q4VC05:27 Q9BQE9:27 2 BCL7A 2.318181818 R.IYK[1024.6]WVPVTEPK.V Q4VC05:47 1 BCL7A 0.75 K.M[147.04]K[1526.9]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.75 R.HQGTFTDEK[1110.64]SK.A Q92922:199 1 SMARCC1 1.25 R.HQGTFTDEK[1110.65]SK.A Q92922:199 1 SMARCC1 RDTTLETALNSKAYK 413 //6 5//31 0.757 0.833333333 EARMTEKLEK 431 1//12 8//61 0.52425 0.363636364 KTACYDIDVEVDDPLK 402 //9 9//30 2.68125 1.5 QKHQEYLNSILQHAK 447 //8 4//32 0.463 0.75 QKHQEYLNSILQHAK 447 //8 6//25 1.098 1.3 QKHQEYLNSILQHAK 447 //8 6//25 1.052 1.3 RQKHQEYLNSILQHAK 447 //8 4//31 0.327 0.5 QKHQEYLNSILQHAKDFK 447 //8 6//31 1.795 1.3 QKHQEYLNSILQHAK 447 //8 6//25 1.03275 1.3 QKHQEYLNSILQHAKDFK 447 //8 6//31 1.2775 1.3 QKHQEYLNSILQHAK 447 //8 5//31 1.351 1 QKHQEYLNSILQHAK 447 //8 6//31 1.34525 1.3 QKHQEYLNSILQHAKDFK 447 //8 6//31 1.48175 1.4 KELPEYYELIR 1434 2//13 12//57 1.3675 1.272727273 KELPEYYELIR 1434 2//8 9//35 1.92025 1.642857143 DRKASANAR 317 //7 7//33 0.79125 0.916666667 HQGTFTDEKSK 199 //7 5//23 1.439 0.9 WILDTDIFNEWMNEEDYEVDENRKPVSFR 292 //7 2//26 0.213 0.4 KPVSFRQR 292 1//9 6//44 0.717 1 IRNHKYR 1460 //8 10//37 4.306 2.071428571 DRKASANAR 317 //9 5//44 0.808 0.5 KVQEAAR 740 1//7 5//24 0.77125 0.8 DRKASANAR 317 //8 9//29 2.695 1.833333333 SPQVPAAQQMLNFPEKNKEK 590 //16 11//77 2.44225 0.769230769 SPQVPAAQQMLNFPEKNKEK 590 //16 8//77 1.40925 0.576923077 LMEEDELPSWIIKDDAEVER 1286 //12 8//62 1.41025 0.666666667 TKATVELK 375 //8 9//37 2.6045 1.785714286 TKATVELK 375 4//9 15//35 3.406 2.428571429 DTTLETALNSKAYKR 413 //6 6//23 0.8445 1.4 MKEEVPTALVEAHVR 704 //12 7//60 2.98825 1.166666667 QKHQEYLNSILQHAK 447 //5 2//23 0.229 0.5 NVPSKSKAAASATR 592 2//10 11//36 2.0705 1.571428571 NVPSKSKAAASATR 592 //10 7//36 1.255 0.785714286 NVPSKSKAAASATR 590 2//10 10//36 1.652 1.142857143 NVPSKSKAAASATR 590 2//10 9//36 1.49225 1.071428571 LQDSHDKEYINGDKYFQQIFDCPR 309 //16 15//105 2.775 1.285714286 LQDSHDKEYINGDKYFQQIFDCPR 309 //15 9//75 2.632 1 LQDSHDKEYINGDKYFQQIFDCPR 309 1//16 10//80 1.52425 0.615384615 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //11 7//44 2.048 1.25 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //11 6//44 1.63975 0.8125 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //11 6//44 1.9055 1 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //11 7//44 2.4535 1.25 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //11 6//44 1.1375 1 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //11 6//44 1.044 0.8125 KLRIYISNTFSPSK 193 //8 9//45 1.30125 1.071428571 HIFAKVQQR 514 //10 14//63 3.18875 1.65 MADKVLPQR 143 4//9 12//36 2.328 1.928571429 KMADKVLPQR 143 2//8 11//30 2.9 1.833333333 KMADKVLPQR 143 1//8 6//30 0.9865 1 KMADKVLPQR 143 //9 9//35 2.609 1.5 KMADKVLPQR 143 1//9 11//35 2.5545 2.071428571 MADKVLPQR 143 3//8 9//30 2.305 1.666666667 MKEEVPTALVEAHVR 704 1//11 6//55 1.13075 0.777777778 KLEAELLQIEER 240 8//15 37//70 12.55525 4.615384615 KLEAELLQIEER 240 6//15 34//70 11.3035 4.153846154 SLVALLVETQMKK 897 //13 18//71 7.55825 2.25 SLVALLVETQMKK 897 //13 15//71 7.461 2.041666667 KLEAELLQIEER 240 1//15 20//70 6.06825 2.115384615 SLVALLVETQMKK 897 //13 12//71 5.6005 1.583333333 SLVALLVETQMKK 897 //13 12//71 5.42975 1.583333333 KLEAELLQIEER 240 2//15 18//70 4.908 1.692307692 KLEAELLQIEER 240 3//6 8//26 1.9385 2.4 KLEAELLQIEER 240 2//6 7//26 1.814 2 KLEAELLQIEER 240 2//6 7//26 1.731 2 KLEAELLQIEER 240 1//6 6//26 1.5275 1.7 KLEAELLQIEERHQEK 240 //6 5//29 1.6145 1.6 KLEAELLQIEER 240 2//6 8//26 1.85275 2.1 KLEAELLQIEER 240 //6 4//26 1.3345 1.2 KLEAELLQIEER 240 3//6 8//26 1.6915 2.4 KLEAELLQIEER 240 //6 4//26 1.169 1.2 KLEAELLQIEER 240 3//6 9//26 1.6725 2.5 KIKSLVALLVETQMK 883 2//8 7//25 0.92025 1.3 KIKSLVALLVETQMK 883 1//8 6//25 1.15225 1.1 KIKSLVALLVETQMK 883 //8 4//25 1.143 0.9 KIKSLVALLVETQMK 883 //8 4//25 0.9795 0.9 KIKSLVALLVETQMK 883 //8 5//25 0.98325 1 KIKSLVALLVETQMK 883 1//8 5//25 0.9805 1.1 AKHLAAVEER 874 //8 8//29 2.35525 1.5 AKHLAAVEER 874 2//8 5//35 0.9285 0.75 MQVLKR 228 //7 4//31 1.00325 0.75 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//25 0.5865 0.5 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//25 0.44275 0.5 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//25 0.3965 0.5 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//25 0.4935 0.5 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//25 0.45775 0.5 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//25 0.4895 0.5 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//25 0.5095 0.5 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//25 0.54675 0.5 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//31 0.45625 0.5 DIGEGNLSTAAAAALAAAAVKAK 872 1//8 4//31 0.491 0.5 KLEIKLR 902 3//7 9//23 1.016 1.6 KLEIKLR 902 1//8 12//30 2.07625 2.166666667 HQEKKR 255 //9 12//36 2.8345 2.666666667 HQEKKR 255 1//8 10//30 2.52775 1.9 HQEKKR 255 //8 9//30 2.3665 1.8 KLEAELLQIEER 240 //9 6//32 1.0205 1.083333333 ASNPDLKLWEIGKIIGGMWR 98 2//16 14//79 6.51925 1.653846154 KRPAPQQIQQVQQQAVQNR 101 //8 2//32 0.175 0.285714286 SLVALLVETQMKK 897 //9 8//43 2.943 1.75 SLVALLVETQMKK 897 1//9 9//43 2.606 1.8125 KRPAPQQIQQVQQQAVQNR 101 //15 14//69 5.39125 1.615384615 QAFHMEQLKYAEMR 940 3//12 12//50 3.1925 1.722222222 QAFHMEQLKYAEMR 940 3//12 12//50 3.10775 1.722222222 QAFHMEQLKYAEMR 940 1//12 14//63 3.46 1.833333333 QAFHMEQLKYAEMR 940 1//12 12//63 3.55525 1.611111111 QAFHMEQLKYAEMR 940 //12 13//50 3.2915 1.722222222 QAFHMEQLKYAEMR 940 //12 12//50 3.179 1.555555556 EFVICDKYLQQIFESQR 341 //15 8//75 2.147 0.791666667 MADKILPQR 131 4//8 11//30 1.97225 2.083333333 LLEDSALSKYDATK 223 //7 4//21 0.45525 0.9 LLEDSALSKYDATK 223 //7 3//21 0.307 0.5 KFLESTDSFNNELKR 258 2//16 29//78 10.67075 3.071428571 KFLESTDSFNNELKR 258 7//16 31//102 8.84725 3.535714286 KFLESTDSFNNELKR 258 4//16 26//102 6.8605 2.464285714 KFLESTDSFNNELKR 258 1//16 25//78 9.0895 2.642857143 KFLESTDSFNNELKR 258 //16 24//78 8.8645 2.571428571 KFLESTDSFNNELKR 258 1//16 23//102 6.89625 2.107142857 KFLESTDSFNNELKR 258 //16 20//78 6.4445 2.214285714 KFLESTDSFNNELKR 258 //16 12//102 2.40825 0.857142857 KFLESTDSFNNELKR 258 1//16 16//102 2.93975 1.178571429 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //16 18//156 7.196 1.526315789 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //16 17//156 6.61325 1.342105263 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //16 19//156 7.606 1.684210526 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //16 13//117 5.626 1.105263158 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //16 13//117 4.4375 1.105263158 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //16 12//156 4.194 1 KRPAPQQIQQVQQQAVQNR 101 //13 26//68 12.5455 3.458333333 KRPAPQQIQQVQQQAVQNR 101 //13 22//68 10.087 2.666666667 KRPAPQQIQQVQQQAVQNR 101 //13 19//68 9.023 2.416666667 KRPAPQQIQQVQQQAVQNR 101 1//13 16//87 6.9445 1.875 KRPAPQQIQQVQQQAVQNR 101 //13 16//68 7.4155 2.041666667 KRPAPQQIQQVQQQAVQNR 101 //13 7//68 2.656 0.75 KRPAPQQIQQVQQQAVQNR 101 //13 10//68 3.56625 1.208333333 KRPAPQQIQQVQQQAVQNR 101 //17 13//130 1.58475 0.647058824 KRPAPQQIQQVQQQAVQNR 101 //12 13//59 2.90175 1.863636364 KRPAPQQIQQVQQQAVQNR 101 //12 12//59 2.7705 1.409090909 FLESTDSFNNELKR 271 1//12 11//48 3.089 1.5 FLESTDSFNNELKR 271 //12 9//48 2.09675 1.25 SSEAIKESSKFPFGISPAQSHR 1934 //12 15//145 3.268 0.894736842 SSEAIKESSKFPFGISPAQSHR 1934 1//16 12//79 4.7965 1.107142857 KFLESTDSFNNELKR 271 //12 13//48 3.87325 1.7 KFLESTDSFNNELKR 271 //12 12//48 3.9605 1.65 DITFPPGSVEATQPVLKQR 1654 //17 9//130 1.1895 0.470588235 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //8 4//31 0.53725 0.5 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //8 3//31 0.303 0.25 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //15 6//71 1.1555 0.423076923 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //15 6//71 1.6435 0.423076923 AYHNSPAYLAYINAKSR 146 //15 16//71 5.00725 1.576923077 AYHNSPAYLAYINAKSR 146 //15 16//71 5.22325 1.692307692 AYHNSPAYLAYINAKSR 146 //15 12//71 3.61875 1.076923077 AYHNSPAYLAYINAKSR 146 //16 12//102 1.3545 0.857142857 AYHNSPAYLAYINAKSR 146 //15 9//90 3.742 1.115384615 AYHNSPAYLAYINAKSR 146 1//15 15//71 3.50275 1.269230769 AYHNSPAYLAYINAKSR 146 //16 7//102 1.00625 0.5 AYHNSPAYLAYINAKSR 146 //16 13//102 3.31775 1.25 AYHNSPAYLAYINAKSR 146 1//16 9//79 2.92875 1 AYHNSPAYLAYINAKSR 146 //16 11//79 3.08 1.384615385 AYHNSPAYLAYINAKSR 146 //16 6//102 0.36425 0.285714286 AYHNSPAYLAYINAKSR 146 //16 8//102 0.97075 0.576923077 AYHNSPAYLAYINAKSR 146 //15 13//71 3.61975 1.291666667 AYHNSPAYLAYINAKSR 146 //16 11//79 3.5755 1.384615385 AYHNSPAYLAYINAKSR 146 //15 14//71 3.56525 1.458333333 AYHNSPAYLAYINAKSR 146 //16 10//102 3.22875 1.071428571 AYHNSPAYLAYINAKSR 146 //15 10//71 3.55425 0.923076923 AYHNSPAYLAYINAKSR 146 //16 8//102 0.944 0.571428571 AYHNSPAYLAYINAKSR 146 //16 12//79 1.0285 0.846153846 AYHNSPAYLAYINAKSR 146 //16 8//102 0.73775 0.464285714 AYHNSPAYLAYINAKSR 146 //15 9//90 3.148 0.961538462 AYHNSPAYLAYINAKSR 146 //16 6//102 0.67 0.5 AYHNSPAYLAYINAKSR 146 //16 7//102 0.716 0.321428571 ESSKFPFGISPAQSHR 1938 5//8 9//31 1.68925 1.75 SSEAIKESSKFPFGISPAQSHR 1938 1//8 4//31 0.5425 0.5 SSEAIKESSKFPFGISPAQSHR 1938 1//16 8//113 0.7755 0.433333333 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //7 3//28 0.5095 0.416666667 AYHNSPAYLAYINAKSR 146 //7 6//35 2.2605 1.666666667 AYHNSPAYLAYINAKSR 146 //7 4//28 0.68775 0.5 AYHNSPAYLAYINAKSR 146 //7 4//28 0.5135 0.5 KVWDQVK 79 1//7 7//32 2.68525 1.5 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //9 8//50 3.214 1.75 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1//9 12//50 4.421 2 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1//9 5//40 0.49125 0.4375 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //9 9//50 2.48875 1.625 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //9 3//50 0.3495 0.3125 KRPAPQQIQQVQQQAVQNR 101 //16 17//79 5.493 1.714285714 KRPAPQQIQQVQQQAVQNR 101 //16 11//104 2.14625 1 KRPAPQQIQQVQQQAVQNR 101 //16 14//79 3.35575 1.142857143 KRPAPQQIQQVQQQAVQNR 101 //15 29//159 8.4635 1.9 KRPAPQQIQQVQQQAVQNR 101 //15 30//159 9.039 2 KRPAPQQIQQVQQQAVQNR 101 //15 24//159 6.6495 1.525 KRPAPQQIQQVQQQAVQNR 101 //15 26//159 6.9315 1.6 KRPAPQQIQQVQQQAVQNR 101 //15 16//148 4.36025 0.868421053 KRPAPQQIQQVQQQAVQNR 101 //15 14//148 3.70325 0.777777778 LEKLYSTMVR 2146 4//9 19//45 5.412 3 LEKLYSTMVR 2146 1//9 15//45 4.83875 2.5 LEKLYSTMVR 2146 5//9 19//45 5.168 3.1875 LEKLYSTMVR 2146 4//9 18//45 5.33325 2.9375 LEKLYSTMVR 2146 2//9 17//45 4.76975 2.9375 LEKLYSTMVR 2146 1//9 12//45 3.617 1.9375 LEKLYSTMVR 2146 2//9 14//45 4.284 2.25 LEKLYSTMVR 2146 3//10 18//52 3.564 2.611111111 LEKLYSTMVR 2146 1//9 13//45 3.739 1.9375 LEKLYSTMVR 2146 3//10 17//64 3.49325 2.388888889 LEKLYSTMVR 2146 1//9 12//45 3.5975 2.125 LEKLYSTMVR 2146 //10 14//52 2.5475 2.111111111 LEKLYSTMVR 2146 1//9 13//45 2.96625 2.1875 LEKLYSTMVR 2146 //10 11//52 1.34575 1.055555556 LEKLYSTMVR 2146 //10 13//64 2.51625 1.944444444 LEKLYSTMVR 2146 1//10 10//64 1.8955 1.277777778 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 //16 14//156 4.71975 1.026315789 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 //16 11//156 4.719 0.973684211 KRPAPQQIQQVQQQAVQNR 101 //15 10//90 3.241 1 KRPAPQQIQQVQQQAVQNR 101 //15 14//90 3.2365 1.384615385 KRPAPQQIQQVQQQAVQNR 101 //16 6//102 0.866 0.464285714 KRPAPQQIQQVQQQAVQNR 101 //15 14//71 4.6705 1.307692308 KRPAPQQIQQVQQQAVQNR 101 //15 12//71 4.3695 1.153846154 KRPAPQQIQQVQQQAVQNR 101 //15 15//71 4.675 1.458333333 KRPAPQQIQQVQQQAVQNR 101 //16 10//102 2.95275 1.178571429 KRPAPQQIQQVQQQAVQNR 101 //16 12//79 3.03725 1.307692308 KRPAPQQIQQVQQQAVQNR 101 //15 9//90 3.2 1 KRPAPQQIQQVQQQAVQNR 101 //15 8//90 2.47875 0.730769231 ESSKFPFGISPAQSHR 1938 1//9 9//50 3.2495 1.625 ESSKFPFGISPAQSHR 1938 //9 9//40 2.965 1.625 KRPAPQQIQQVQQQAVQNR 101 //7 4//28 0.677 1 KRPAPQQIQQVQQQAVQNR 101 //7 2//28 0.21375 0.166666667 KRPAPQQIQQVQQQAVQNR 101 1//7 5//28 0.721 1.083333333 KRPAPQQIQQVQQQAVQNR 101 1//7 5//35 1.14775 1.083333333 KRPAPQQIQQVQQQAVQNR 101 1//7 6//35 1.284 1.416666667 KRPAPQQIQQVQQQAVQNR 101 1//7 6//35 1.277 1.416666667 KRPAPQQIQQVQQQAVQNR 101 //7 3//28 0.53475 0.416666667 KRPAPQQIQQVQQQAVQNR 101 1//7 3//28 0.24225 0.25 KRPAPQQIQQVQQQAVQNR 101 //7 2//28 0.29625 0.166666667 KRPAPQQIQQVQQQAVQNR 101 1//7 5//35 0.9495 0.833333333 KRPAPQQIQQVQQQAVQNR 101 1//7 7//35 1.3715 1.5 MADKILPQR 131 2//7 8//33 1.757 1.333333333 KMADKILPQR 131 //7 6//33 1.70475 1.416666667 NHNAKKK 125 //7 8//33 3.1755 1.75 NHNAKKK 125 //7 8//33 3.088 1.75 NHNAKKK 125 //7 8//33 3.0935 1.75 NHNAKKK 125 //7 8//33 2.68525 1.75 NHNAKKK 124 //7 8//33 3.19 1.75 NHNAKKK 124 //7 5//33 2.5555 1.333333333 KNPVCR 2159 3//8 9//28 1.0335 1.7 FLSDRKNPVCR 2159 //8 9//28 2.1805 1.416666667 NHNAKKK 124 //7 6//33 2.4875 1.333333333 KNPVCR 2159 1//8 6//28 0.609 0.916666667 NHNAKKK 124 //7 6//32 1.61975 0.916666667 KNPVCR 2159 //8 4//28 0.354 0.5 LDIQEALKRPIK 173 //13 12//75 3.038 1.090909091 LDIQEALKRPIK 173 //7 6//32 2.22625 1.166666667 RLDIQEALKR 173 //7 8//33 3.012 1.75 LDIQEALKRPIK 173 1//7 7//39 2.16275 1.25 LDIQEALKRPIK 173 //7 7//32 2.3405 1.25 LDIQEALKRPIK 173 //7 6//32 2.30775 1.166666667 LDIQEALKRPIK 173 //7 3//39 0.36675 0.416666667 SNSVGIQDAFNDGSDSTFQKR 1201 //16 17//156 5.06125 1.157894737 AKHLAAVEER 874 //12 10//51 3.875 1.45 QAPLTYEKEEEQDQGVSCNKVEWWWDCLEMLR 2033 //10 7//57 1.655 0.777777778 LPIKCFLDFK 79 //7 8//32 3.138 1.75 AKHLAAVEER 874 //7 7//33 2.39925 1.5 AKHLAAVEER 874 //7 6//33 1.279 1.333333333 LEIKLR 902 1//7 8//31 2.70425 1.75 KLEIKLR 902 //7 6//32 2.3675 1.416666667 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 16//132 4.06125 0.863636364 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 19//109 7.15175 1.833333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 20//109 6.5845 1.866666667 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 18//109 4.336 1.433333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //9 9//47 3.737 1.444444444 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //9 7//47 3.084 1.333333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //9 7//47 2.782 0.944444444 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 10//32 2.61325 1.857142857 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 1.988 1.714285714 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 2.1165 1.714285714 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 6//32 0.855 0.714285714 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 6//40 1.424 1.428571429 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 1.582 1.714285714 KHVTTAEGTPGTTDQEGPPPDGPPEK 1880 //8 4//40 0.47925 0.642857143 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1//9 7//37 1.16825 0.857142857 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1//9 6//37 1.101 0.785714286 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 9//46 2.22175 1.611111111 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 17//46 4.672 2.5 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 8//57 1.535 1.055555556 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 8//57 2.43325 1.05 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 8//57 2.895 1.05 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 8//46 2.13525 1.222222222 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 8//57 1.9505 1.1 KHVTTAEGTPGTTDQEGPPPDGPPEK 1880 //10 7//46 1.605 0.9 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 8//46 2.042 1.222222222 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 12//57 3.24375 1.35 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 11//57 3.531 1.55 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 7//57 1.69575 0.833333333 KHVTTAEGTPGTTDQEGPPPDGPPEK 1880 //10 7//57 1.49 0.9 KHVTTAEGTPGTTDQEGPPPDGPPEK 1880 //10 9//46 2.12525 1.15 KHVTTAEGTPGTTDQEGPPPDGPPEK 1880 //10 8//57 1.9915 1.1 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 12//57 2.995 1.5 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 10//57 1.8455 1.333333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 9//57 2.10625 1.277777778 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 7//57 1.559 0.55 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 7//46 1.48225 0.777777778 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 6//46 1.14575 0.5 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 8//46 1.70375 1.222222222 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 6//57 0.84025 0.5 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //8 4//40 0.35425 0.428571429 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //8 6//40 0.42275 0.928571429 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //10 11//57 3.15125 1.55 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //10 10//57 2.48525 1.333333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //10 10//46 1.52125 0.944444444 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //10 9//57 2.217 1.15 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //10 7//57 1.3695 0.777777778 IGGGDTTEHIQTHFESKTELLPSR 1862 //11 5//43 1.28775 0.625 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //9 7//38 3.3415 1.5 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //9 6//47 2.46375 0.944444444 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //14 9//67 2.682 1.090909091 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //7 5//27 1.3795 1.333333333 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 1//9 5//37 0.93325 0.714285714 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //9 5//37 0.99 0.928571429 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 1//9 7//30 0.9505 1.333333333 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 1//14 11//68 3.01825 1.409090909 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 1//9 6//37 0.6555 0.785714286 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 1//9 5//37 0.7415 0.714285714 DKPASENSEEK 1795 //9 4//44 0.82775 0.333333333 KNPVCR 2159 3//6 10//28 1.194 2.5 VDIQEALKRPMK 148 1//7 7//31 2.2505 1.25 VDIQEALKRPMK 148 1//7 8//31 2.8895 1.583333333 VDIQEALKR 148 1//7 8//33 2.607 1.583333333 VDIQEALKRPMK 148 1//7 8//38 2.589 1.583333333 RVDIQEALKR 148 //7 11//33 3.036 2.166666667 VDIQEALKRPMK 148 //7 5//31 2.15925 1.083333333 VDIQEALKRPMK 148 //7 7//31 2.759 1.5 VDIQEALKRPMK 148 1//7 6//38 1.533 0.916666667 VDIQEALKRPMK 148 //7 6//31 2.1715 1.166666667 VDIQEALKRPMK 148 //7 6//38 2.41375 1.416666667 ILEDEPHSKDETPLCTLLDWQDSLAKR 1962 //13 5//56 0.9225 0.65 ALLALAKVDENHSEFTLYESR 2243 //10 6//46 1.6915 1.0625 SSEAIKESSKFPFGISPAQSHR 1934 3//11 6//58 1.215 0.65 NHKYR 1460 //7 6//30 2.37375 1.416666667 YKLNVDQK 1191 //7 9//33 3.16475 1.833333333 GQPLPDHLQMAVQGKR 207 //8 7//40 2.347 1.5 GQPLPDHLQMAVQGKR 207 //8 7//32 2.53525 1.5 YNQMKGMGMR 94 //8 7//37 1.97275 1.5 GQPLPDHLQMAVQGKR 207 //7 5//35 2.291 1.333333333 YNQMKGMGMR 94 1//7 10//33 3.5705 2.166666667 YNQMKGMGMR 94 1//7 7//33 2.818 1.5 YNQMKGMGMR 94 1//7 7//33 2.87775 1.5 YNQMKGMGMR 94 //7 6//33 2.318 1.416666667 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //10 5//45 0.416 0.4375 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //10 4//45 0.3195 0.25 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //10 4//45 0.33175 0.25 KPLDLYR 1047 4//8 14//29 3.1385 3.4 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 5//45 0.60275 0.3125 IVQKNDPFVVDCSDKLGR 1830 //8 9//32 1.986 1.785714286 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 1.53275 0.875 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 1.7075 1.125 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 6//40 2.395 1.428571429 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 6//40 2.469 1.428571429 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 8//32 1.8995 1.785714286 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 4//32 0.391 0.285714286 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 2.731 1.714285714 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 6//40 2.7595 1.428571429 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 6//40 1.0095 1.142857143 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//32 2.9125 1.714285714 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 6//40 2.276 1.428571429 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 5//40 0.837 0.714285714 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//32 2.555 1.714285714 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1//17 15//109 5.02725 1.566666667 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 19//109 6.83775 1.733333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1//17 17//109 4.2855 1.535714286 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 16//109 4.59625 1.571428571 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1//17 14//109 4.7635 1.433333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 18//109 6.248 1.633333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 19//84 5.7675 1.666666667 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 11//84 2.403 1.107142857 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 11//84 2.2415 1.107142857 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 13//109 2.71875 1 CLIEIFGILKEYEVGDPGQRTLLDPGR 1732 //12 8//74 1.5625 0.818181818 KASANAR 317 1//7 7//30 2.81575 1.5 KNPVCR 2159 //8 6//34 1.7395 1.428571429 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //6 6//28 1.67175 1.7 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //6 5//22 1.732 1.6 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //6 5//22 0.996 1.6 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //6 4//28 0.7375 0.9 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //8 6//32 2.3495 1.428571429 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //8 6//32 2.241 1.428571429 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //8 5//40 1.6375 1 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //8 6//32 1.7725 1.428571429 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //9 6//37 1.187 1 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //9 5//30 0.9415 1.083333333 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //13 9//60 2.948 1.4 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //13 8//60 2.603 1.2 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //9 4//37 0.27975 0.428571429 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //13 7//60 2.126 1 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //13 5//60 1.075 0.6 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //9 4//37 0.821 0.642857143 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //8 6//32 3.0945 1.428571429 HQGTFTDEKSK 199 //8 11//37 3.4065 2.285714286 HQGTFTDEKSK 199 //8 9//37 2.35925 1.785714286 GKGEITPAAIQK 13 1//7 6//33 1.682 1.416666667 GKGEITPAAIQK 13 1//7 5//33 0.7695 0.833333333 MSYEPNKDPYGSMR 1230 //12 5//60 0.30175 0.291666667 SPFLHSGMKMQKAGPPVPASHIAPAPVQPPMIR 1615 //8 6//32 2.2365 1.25 LLGEQYYKDAMEQCHNYNAR 18 //13 15//74 3.73475 1.636363636 LLGEQYYKDAMEQCHNYNAR 18 //13 16//74 3.8745 1.772727273 LLGEQYYKDAMEQCHNYNAR 18 //13 13//74 3.60025 1.454545455 LLGEQYYKDAMEQCHNYNAR 18 //13 12//74 3.251 1.409090909 LLGEQYYKDAMEQCHNYNAR 18 2//13 12//74 1.8775 1.181818182 LLGEQYYKDAMEQCHNYNAR 18 //13 10//74 2.33475 1.25 LLGEQYYKDAMEQCHNYNAR 18 1//13 8//74 1.18325 0.727272727 LLGEQYYKDAMEQCHNYNAR 18 //13 6//58 1.28625 0.5 KEGLISQDGSSLEALLR 108 //15 13//71 1.59075 0.923076923 RLTMKDIGTPEAWR 1662 //9 9//30 2.9895 1.785714286 LTMKDIGTPEAWR 1662 2//9 10//31 1.21525 1.416666667 RLTMKDIGTPEAWR 1662 //9 4//37 0.45125 0.428571429 ILEDEPHSKDETPLCTLLDWQDSLAKR 1979 //16 17//132 6.8005 1.323529412 ILEDEPHSKDETPLCTLLDWQDSLAKR 1979 //16 12//132 1.995 0.735294118 ILEDEPHSKDETPLCTLLDWQDSLAKR 1979 //16 13//101 5.1135 1.09375 LEKLYSTMVR 2146 3//9 16//44 4.85225 2.6875 LEKLYSTMVR 2146 3//9 16//44 4.7845 2.6875 LEKLYSTMVR 2146 2//9 15//44 4.659 2.625 LEKLYSTMVR 2146 1//10 14//62 3.86125 2.166666667 LEKLYSTMVR 2146 1//9 12//44 4.42475 2.125 LEKLYSTMVR 2146 1//9 10//44 3.41425 1.6875 LEKLYSTMVR 2146 //10 8//51 1.0395 0.944444444 ESSKFPFGISPAQSHR 1938 2//9 12//48 3.953 2.125 ESSKFPFGISPAQSHR 1938 1//9 9//48 3.25575 1.625 ESSKFPFGISPAQSHR 1938 //9 8//39 2.53125 1.5625 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //9 8//39 1.89825 1.5625 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 2//9 10//48 3.05825 1.8125 KMADKVLPQR 139 //7 6//33 2.245 1.416666667 MEIQEAIKKPLTQK 186 2//7 10//35 2.778 1.75 MEIQEAIKKPLTQK 186 //13 8//75 1.1355 0.6 MEIQEAIKKPLTQK 186 1//7 9//35 2.82475 1.916666667 MEIQEAIKKPLTQK 186 1//7 7//35 2.199 1.25 MEIQEAIKKPLTQK 186 1//7 8//28 2.29475 1.333333333 MEIQEAIKKPLTQK 186 1//7 6//35 2.171 1.166666667 MEIQEAIKKPLTQK 186 1//7 5//28 2.006 1.083333333 MEIQEAIKKPLTQK 186 1//7 6//28 1.81 1.416666667 MEIQEAIKKPLTQK 185 2//7 10//28 3.055 2.166666667 MEIQEAIKKPLTQK 185 1//7 9//29 3.1295 1.916666667 MEIQEAIKKPLTQK 185 1//7 9//29 2.79525 1.916666667 MEIQEAIKKPLTQK 185 1//7 9//29 3.149 1.916666667 MEIQEAIKKPLTQK 185 1//7 9//28 2.87225 1.583333333 MEIQEAIKKPLTQK 185 1//7 9//28 2.5825 2.083333333 MEIQEAIKKPLTQK 185 2//7 9//36 2.88825 1.916666667 MEIQEAIKKPLTQK 185 //13 7//75 1.2035 0.681818182 MEIQEAIKKPLTQK 185 1//7 8//28 2.39075 1.333333333 MEIQEAIKKPLTQK 185 2//7 9//28 2.57575 1.583333333 MEIQEAIKKPLTQK 185 1//7 8//36 2.2215 1.583333333 MEIQEAIKKPLTQK 185 1//7 9//28 2.6005 1.916666667 MEIQEAIKKPLTQK 185 1//7 8//29 2.36175 1.333333333 MEIQEAIKKPLTQK 185 1//7 9//29 2.62675 1.916666667 MEIQEAIKKPLTQK 185 1//7 7//36 2.42375 1.5 MEIQEAIKKPLTQK 185 1//7 7//36 2.38275 1.75 MEIQEAIKKPLTQK 185 1//7 7//36 2.7495 1.75 MEIQEAIKKPLTQK 185 //7 6//29 2.16125 1.166666667 MEIQEAIKKPLTQK 185 1//7 8//29 2.359 1.833333333 MEIQEAIKKPLTQK 185 1//7 6//36 1.9095 1.166666667 MEIQEAIKKPLTQK 185 //13 8//75 2.2145 0.818181818 MEIQEAIKKPLTQK 185 //7 6//29 2.36975 1.416666667 RMEIQEAIKK 185 //7 6//33 2.15975 1.416666667 MEIQEAIKKPLTQK 185 1//7 5//28 1.6025 1.083333333 MEIQEAIKKPLTQK 185 1//7 6//36 2.11225 1.166666667 MEIQEAIKKPLTQK 185 1//7 5//36 1.0185 1.083333333 MADKVLPQR 143 3//7 11//33 2.9055 2.25 KMADKVLPQR 143 1//7 8//33 2.78825 1.833333333 KMADKVLPQR 143 //7 8//33 2.51825 1.75 NKSKTPEIYLAYR 457 //9 8//48 3.258 1.5625 KVMAAIEK 20 //8 5//30 0.6005 0.833333333 GQLSWHQKTYAFSENPLPTVEIAIR 324 //12 14//151 5.13275 1.026315789 GQLSWHQKTYAFSENPLPTVEIAIR 324 1//12 13//111 4.6045 0.921052632 MQKEITALAPSTMK 315 //11 7//42 1.07425 0.875 MQKEITALAPSTMK 315 4//10 15//38 3.2975 3.142857143 MQKEITALAPSTMK 315 3//11 15//42 2.50425 1.9375 MQKEITALAPSTMK 315 1//11 13//42 2.27575 1.8125 MQKEITALAPSTMK 315 2//10 11//38 1.75075 1.642857143 MQKEITALAPSTMK 315 1//10 12//38 1.85225 1.785714286 MQKEITALAPSTMKIK 315 //10 9//38 1.07625 1.357142857 VAPEEHPVLLTEAPLNPKANR 113 //13 8//74 1.5225 0.681818182 HQGVMVGMGQKDSYVGDEAQSKR 50 //5 3//24 0.9765 1 HQGVMVGMGQKDSYVGDEAQSKR 50 //7 5//31 1.1385 1.333333333 VAPEEHPVLLTEAPLNPKANR 113 //16 15//111 3.53275 1.2 EITALAPSTMKIKIIAPPER 326 //17 10//137 3.83725 0.590909091 EITALAPSTMKIKIIAPPER 326 //17 12//184 4.3135 0.795454545 EITALAPSTMKIKIIAPPER 326 //17 12//184 3.72625 0.636363636 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1//13 18//134 4.42275 0.795454545 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 //13 18//134 4.3785 0.840909091 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 //13 14//134 3.425 0.613636364 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 //13 19//134 5.409 0.977272727 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 //13 18//134 5.0085 0.909090909 HQGVMVGMGQKDCYVGDEAQSKR 62 //12 12//179 2.7585 0.547619048 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1//13 14//134 3.4845 0.613636364 HQGVMVGMGQKDCYVGDEAQSKR 62 //12 12//132 2.04625 0.571428571 HQGVMVGMGQKDCYVGDEAQSKR 62 //12 13//179 2.31275 0.571428571 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1//13 13//134 2.469 0.590909091 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 //9 14//130 3.31525 0.590909091 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 //9 17//130 4.63225 0.863636364 HQGVMVGMGQKDCYVGDEAQSKR 51 //12 11//132 3.15375 0.714285714 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 //9 17//130 4.09 0.795454545 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 //9 14//130 3.0315 0.659090909 HQGVMVGMGQKDCYVGDEAQSKR 51 //12 12//179 2.889 0.619047619 HQGVMVGMGQKDCYVGDEAQSKR 51 //12 15//179 2.56475 0.642857143 HQGVMVGMGQKDCYVGDEAQSKR 51 //12 9//132 1.8385 0.523809524 HQGVMVGMGQKDCYVGDEAQSKR 51 //12 12//179 2.4265 0.571428571 HQGVMVGMGQKDCYVGDEAQSKR 51 //12 14//132 2.01325 0.619047619 HQGVMVGMGQKDCYVGDEAQSKR 51 //12 10//132 2.0905 0.523809524 RGILTLKYPIEHGIVTNWDDMEK 68 //11 13//176 2.91175 0.52173913 HQGVMVGMGQKDSYVGDEAQSKR 50 //10 11//115 1.507 0.631578947 HQGVMVGMGQKDSYVGDEAQSKR 50 2//13 10//95 1.354 0.708333333 WKYMIVDEGHR 846 //15 13//70 3.083 0.923076923 GILTLKYPIEHGIVTNWDDMEK 68 1//12 12//63 2.74925 1.227272727 EKLCYVALDFEQEMATAASSSSLEKSYELPDGQVITIGNER 215 //7 5//41 1.083 1.333333333 KDLYANTVLSGGTTMYPGIADR 291 1//11 17//58 4.245 2.227272727 KDLYANTVLSGGTTMYPGIADR 291 1//11 17//73 4.1265 2.045454545 KDLYANTVLSGGTTMYPGIADR 291 //11 14//73 3.569 1.681818182 KDLYANTVLSGGTTMYPGIADR 291 //11 15//73 4.42775 2.15 KDLYANTVLSGGTTMYPGIADR 291 //11 13//73 1.9415 1.136363636 KDLYANTVLSGGTTMYPGIADR 291 //11 12//73 3.28 1.409090909 KDLYANTVLSGGTTMYPGIADR 291 //15 8//96 0.502 0.307692308 KDLYANTVLSGGTTMYPGIADR 291 //11 11//58 2.02925 1.136363636 KDLYANTVLSGGTTMYPGIADR 291 //11 7//73 1.2015 0.636363636 KDLYANTVLSGGTTMYPGIADR 291 //11 10//73 1.07125 0.7 KDLYANTVLSGGTTMYPGIADR 291 //11 9//58 1.65 0.95 KLDQTIAR 168 //11 14//46 2.99 2.3125 HIFAKVQQR 514 //8 6//29 1.802 1.3 ASEVEEILDGNDEKYKAVSISTEPPTYLR 108 2//13 10//71 1.09925 0.6 QNFHMEQLKYAELR 948 //4 3//14 1.058 1.333333333 QNFHMEQLKYAELR 948 //4 3//14 1.021 1.333333333 QNFHMEQLKYAELR 948 //4 3//18 1.049 1.333333333 QNFHMEQLKYAELR 948 //4 3//18 1.019 1.333333333 QNFHMEQLKYAELR 948 //4 3//18 1.05 1.333333333 DRKASANAR 317 //8 3//48 0.3765 0.214285714 HQGTFTDEKSK 199 //8 7//29 2.518 1.416666667 KVQEAAR 740 3//8 10//29 1.251 1.75 NTGDADQWCPLLETLTDAEMEKK 363 1//15 8//71 1.9385 0.730769231 KRDSDAGSSTPTTSTR 1414 //13 10//87 3.03775 0.846153846 QWLKAIEEGTLEEIEEEVR 1390 //16 13//137 3.2315 0.941176471 LKLIANNTTVERR 379 //12 13//58 2.80725 1.55 LKLIANNTTVER 379 1//12 11//48 2.021 1.25 LKLIANNTTVERR 379 //12 11//47 3.29525 1.5 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //9 9//210 1.7515 0.326923077 WEKRWVTVGDTSLR 33 //14 9//79 2.12125 0.730769231 KELPEYYELIR 1434 //13 11//56 1.81875 0.818181818 KELPEYYELIR 1434 //13 6//56 1.05275 0.55 VIQAGMFDQKSSSHER 1207 //13 10//56 2.64125 1.090909091 VIQAGMFDQKSSSHER 1207 //13 7//56 1.843 0.545454545 VIQAGMFDQKSSSHER 1207 //13 11//71 2.332 0.863636364 VIQAGMFDQKSSSHER 1207 //13 8//71 1.641 0.590909091 GIVEDIHCGSMKGTGMR 95 //16 8//79 2.10525 0.576923077 HQEYLNSILQHAKDFKEYHR 460 //12 20//76 8.2375 2.291666667 QKHQEYLNSILQHAKDFK 460 //12 19//76 8.073 2.5 QKHQEYLNSILQHAKDFK 460 //12 20//61 9.103 2.818181818 HQEYLNSILQHAKDFK 460 //13 10//87 2.73775 0.833333333 QKHQEYLNSILQHAKDFK 460 //12 21//76 7.76325 2.590909091 HQEYLNSILQHAKDFK 460 //13 12//87 3.27725 0.846153846 HQEYLNSILQHAKDFKEYHR 460 //12 9//61 3.715 1.318181818 QKHQEYLNSILQHAKDFK 460 //12 17//76 7.797 2.409090909 QKHQEYLNSILQHAKDFK 460 //13 10//69 3.66375 0.958333333 HQEYLNSILQHAKDFKEYHR 460 //12 22//76 9.29575 2.75 QKHQEYLNSILQHAKDFK 460 //12 22//76 8.243 2.772727273 QKHQEYLNSILQHAKDFK 460 //13 13//69 3.8235 1.083333333 QKHQEYLNSILQHAKDFK 460 //12 16//76 7.472 2.227272727 HQEYLNSILQHAKDFKEYHR 460 //13 9//69 2.947 0.916666667 QKHQEYLNSILQHAKDFK 460 //12 18//76 6.91825 2.181818182 QKHQEYLNSILQHAKDFK 460 //12 17//76 7.2375 2.136363636 HQEYLNSILQHAKDFK 460 //12 18//76 7.555 2.25 QKHQEYLNSILQHAKDFK 460 //13 7//87 2.4755 0.833333333 QKHQEYLNSILQHAKDFK 460 //12 11//61 5.923 1.636363636 QKHQEYLNSILQHAKDFK 460 //12 17//76 7.2635 2.227272727 QKHQEYLNSILQHAKDFK 460 //12 16//76 7.0725 2.136363636 QKHQEYLNSILQHAKDFK 460 //12 12//61 6.195 1.818181818 QKHQEYLNSILQHAKDFK 460 //12 12//61 6.11925 1.681818182 QKHQEYLNSILQHAKDFK 460 //12 17//76 7.87625 2.208333333 HQEYLNSILQHAKDFKEYHR 460 //12 11//61 5.665 1.545454545 HQEYLNSILQHAKDFKEYHR 460 //12 18//76 5.2695 2.181818182 QKHQEYLNSILQHAKDFK 460 //13 6//87 2.5695 0.666666667 QKHQEYLNSILQHAKDFK 460 //12 13//76 6.84125 1.863636364 QKHQEYLNSILQHAKDFK 460 //12 15//76 7.084 2.045454545 HQEYLNSILQHAKDFKEYHR 460 //12 13//76 5.991 1.583333333 HQEYLNSILQHAKDFKEYHR 460 //12 14//76 4.85625 1.541666667 QKHQEYLNSILQHAKDFK 460 //13 10//69 3.11875 0.958333333 HQEYLNSILQHAKDFKEYHR 460 //12 11//76 5.99 1.416666667 HQEYLNSILQHAKDFKEYHR 460 //13 9//69 3.2365 0.916666667 HQEYLNSILQHAKDFKEYHR 460 //12 13//76 6.0985 1.833333333 QKHQEYLNSILQHAKDFK 460 //12 11//76 5.62925 1.416666667 HQEYLNSILQHAKDFKEYHR 460 //12 17//76 5.5265 2.041666667 QKHQEYLNSILQHAKDFK 460 //12 10//61 5.13325 1.5 HQEYLNSILQHAKDFKEYHR 460 //12 16//76 5.85375 1.791666667 QKHQEYLNSILQHAKDFK 460 //13 7//69 2.865 0.708333333 QKHQEYLNSILQHAKDFK 460 //13 9//69 2.992 0.791666667 HQEYLNSILQHAKDFK 460 //13 10//69 3.48425 0.958333333 HQEYLNSILQHAKDFKEYHR 460 //13 14//87 4.313 1.307692308 HQEYLNSILQHAKDFKEYHR 460 //13 8//69 2.776 0.791666667 HQEYLNSILQHAKDFKEYHR 460 //12 10//76 4.619 1.375 QKHQEYLNSILQHAKDFK 460 //12 10//76 5.09625 1.375 HQEYLNSILQHAKDFK 460 //12 9//76 4.0095 1.041666667 HQEYLNSILQHAKDFKEYHR 460 //13 9//69 1.493 0.583333333 QKHQEYLNSILQHAKDFK 460 //12 12//76 4.138 1.541666667 HQEYLNSILQHAKDFKEYHR 460 //12 12//61 3.97325 1.208333333 HQEYLNSILQHAKDFKEYHR 460 //13 15//87 3.1625 1.307692308 QKHQEYLNSILQHAKDFK 460 //13 7//69 3.3905 0.833333333 QKHQEYLNSILQHAKDFK 460 //13 6//69 2.7995 0.666666667 QKHQEYLNSILQHAKDFK 460 //13 8//69 2.9235 0.75 QKHQEYLNSILQHAKDFK 460 //12 7//61 3.3525 0.954545455 HQEYLNSILQHAKDFKEYHR 460 //12 7//61 2.49725 0.818181818 QKHQEYLNSILQHAKDFK 460 //12 8//61 3.51925 1 QKHQEYLNSILQHAKDFK 460 //12 9//76 3.4485 1.041666667 HQEYLNSILQHAKDFK 460 //13 9//87 1.56725 0.615384615 QKHQEYLNSILQHAKDFK 460 //13 8//69 3.1745 0.875 HQEYLNSILQHAKDFKEYHR 460 //13 8//87 3.27625 0.807692308 QKHQEYLNSILQHAKDFK 460 //12 7//76 2.836 0.75 HQEYLNSILQHAKDFKEYHR 460 //12 6//76 1.75775 0.583333333 LKLIANNTTVER 379 3//9 11//32 2.32875 1.571428571 LKLIANNTTVER 379 1//9 8//32 1.86775 1.142857143 LKLIANNTTVERR 379 5//9 14//38 3.04625 2.357142857 LKLIANNTTVERR 379 2//9 15//31 4.068 2.214285714 LKLIANNTTVER 379 5//9 13//39 2.531 2.071428571 LKLIANNTTVER 379 2//9 7//39 1.94325 1.214285714 LKLIANNTTVER 379 4//9 12//39 2.0405 2.083333333 LKLIANNTTVERR 379 5//9 13//38 2.65825 2.285714286 LKLIANNTTVER 379 2//9 8//39 1.57475 1.285714286 LKLIANNTTVER 379 3//9 10//39 1.713 1.666666667 LKLIANNTTVERR 379 1//9 7//38 0.78175 0.642857143 LKLIANNTTVERR 379 1//9 6//38 0.922 0.571428571 LKLIANNTTVERR 379 5//9 13//38 2.49725 2.666666667 HQEYLNSILQHAKDFKEYHR 463 //12 8//61 2.2165 1.090909091 LKLIANNTTVERR 379 4//9 12//38 2.14125 2 LKLIANNTTVERR 379 3//9 10//31 1.387 1.666666667 KELPEYYELIR 1434 2//12 12//63 2.26225 1.208333333 WKYMIVDEGHR 846 //12 14//78 4.5625 1.541666667 KEKLPQVTR 240 3//9 7//41 1.9 1.5 RFSSWIGGSILASLGTFQQMWISKQEYEEGGK 413 //17 8//85 1.516 0.642857143 ALLALAKVDENHSEFTLYESR 2243 //14 16//66 5.98725 2.090909091 ALLALAKVDENHSEFTLYESR 2243 1//14 17//66 6.44975 2.136363636 ALLALAKVDENHSEFTLYESR 2243 //14 14//66 5.15125 1.727272727 ALLALAKVDENHSEFTLYESR 2243 1//15 17//71 6.1195 1.846153846 ALLALAKVDENHSEFTLYESR 2243 //14 14//66 5.3825 1.863636364 ALLALAKVDENHSEFTLYESR 2243 //15 15//71 5.9535 1.75 ALLALAKVDENHSEFTLYESR 2243 //14 14//66 4.84025 1.727272727 ALLALAKVDENHSEFTLYESR 2243 2//15 15//93 3.50275 1.384615385 ALLALAKVDENHSEFTLYESR 2243 //15 15//71 5.7905 1.875 ALLALAKVDENHSEFTLYESR 2243 1//15 16//93 3.01975 1.230769231 ALLALAKVDENHSEFTLYESR 2243 1//15 15//93 3.02125 1.166666667 ALLALAKVDENHSEFTLYESR 2243 //15 18//71 6.21375 2.076923077 ALLALAKVDENHSEFTLYESR 2243 //15 18//71 5.923 2.076923077 ALLALAKVDENHSEFTLYESR 2243 //15 15//71 5.54875 1.730769231 ALLALAKVDENHSEFTLYESR 2243 //14 12//66 5.1675 1.636363636 ALLALAKVDENHSEFTLYESR 2243 //15 13//93 3.23575 1.192307692 ALLALAKVDENHSEFTLYESR 2243 //15 16//71 4.842 1.538461538 ALLALAKVDENHSEFTLYESR 2243 //14 13//66 4.094 1.681818182 ALLALAKVDENHSEFTLYESR 2243 //15 13//71 4.6905 1.666666667 ALLALAKVDENHSEFTLYESR 2243 //15 10//93 2.84175 1 ALLALAKVDENHSEFTLYESR 2243 //14 13//66 3.63875 1.545454545 ALLALAKVDENHSEFTLYESR 2243 //15 13//71 4.18325 1.423076923 ALLALAKVDENHSEFTLYESR 2243 //14 11//66 2.23775 1.045454545 ALLALAKVDENHSEFTLYESR 2243 //15 9//93 1.81925 0.730769231 ALLALAKVDENHSEFTLYESR 2243 //15 12//71 4.091 1.038461538 ALLALAKVDENHSEFTLYESR 2243 //15 11//71 2.7085 0.916666667 ALLALAKVDENHSEFTLYESR 2243 //14 10//66 2.66125 1.045454545 ELSQKTPPSMR 371 //8 7//37 2.3075 1.285714286 SNSVGIQDAFNDGSDSTFQKR 1201 //13 6//56 1.47475 0.5 MSYEPNKDPYGSMR 1230 //13 10//56 2.814 1.090909091 MSYEPNKDPYGSMR 1230 //13 9//56 2.596 1.15 AYHNSPAYLAYINAKSR 146 //13 8//71 2.155 0.727272727 AYHNSPAYLAYINAKSR 146 //13 7//56 1.90675 0.636363636 AYHNSPAYLAYINAKSR 146 //12 17//61 7.75725 2.083333333 AYHNSPAYLAYINAKSR 146 //13 8//87 1.86875 0.576923077 AYHNSPAYLAYINAKSR 146 //13 6//87 1.46425 0.5 AYHNSPAYLAYINAKSR 146 //12 14//76 4.29825 1.583333333 AYHNSPAYLAYINAKSR 146 //12 15//61 6.4685 1.708333333 AYHNSPAYLAYINAKSR 146 //13 7//87 2.04525 0.538461538 AYHNSPAYLAYINAKSR 146 //12 10//76 2.14825 1.090909091 AYHNSPAYLAYINAKSR 146 //13 8//87 2.219 0.576923077 AYHNSPAYLAYINAKSR 146 //12 12//61 3.01175 1.25 AYHNSPAYLAYINAKSR 146 //13 6//87 0.63425 0.307692308 AYHNSPAYLAYINAKSR 146 //12 10//61 1.902 0.818181818 ASNPDLKLWEIGKIIGGMWR 92 //16 22//103 9.2365 2.029411765 ASNPDLKLWEIGKIIGGMWR 92 //16 25//137 8.66675 2.176470588 ASNPDLKLWEIGKIIGGMWR 92 //16 16//137 5.02875 1.264705882 LKLIANNTTVER 379 2//10 6//50 1.48925 0.555555556 QVQSLMVHQRKLEAELLQIEER 240 1//16 8//103 1.93125 0.617647059 LKIPEGLFDPSNVK 303 //15 11//72 3.46375 1.115384615 SPSPSPTPEAKKK 312 //8 6//38 2.394 1.428571429 SPSPSPTPEAKK 312 //11 7//45 2.17825 1.3125 VASAAAKSALEEFSKMK 694 //11 8//42 2.3365 1.5 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //15 8//75 2.07425 0.875 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1//15 11//75 2.30425 1.125 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //16 10//105 2.3085 0.928571429 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //16 5//105 1.4165 0.571428571 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //16 8//105 1.68175 0.75 EPKEGQEEVLKEVVESEGER 828 //16 16//137 5.365 1.323529412 EPKEGQEEVLKEVVESEGER 828 //16 14//137 5.08725 1.029411765 EPKEGQEEVLKEVVESEGER 828 //16 14//103 4.0995 1.117647059 EPKEGQEEVLKEVVESEGER 828 //16 14//103 3.59725 1.029411765 TPPSMRLKLIANNTTVER 379 //14 8//113 2.50175 0.642857143 QEYEEGGKQCVER 421 //12 8//50 1.676 1 QEYEEGGKQCVER 421 //12 9//50 1.6435 1.055555556 QEYEEGGKQCVER 421 2//12 13//63 3.82025 1.55 QEYEEGGKQCVER 421 1//12 9//50 2.1435 1.111111111 QEYEEGGKQCVER 421 4//12 15//63 4.12825 1.8 QEYEEGGKQCVER 421 2//12 15//63 3.73725 1.833333333 QEYEEGGKQCVERK 421 //12 17//63 4.81975 2.444444444 QEYEEGGKQCVER 421 //12 8//63 2.958 1.25 QEYEEGGKQCVERK 421 //12 11//50 2.329 1.166666667 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //9 5//42 1.37775 0.5625 EKLTELMFEHYNIPAFFLCK 135 //12 9//63 2.699 1.3 EKLTELMFEHYNIPAFFLCK 135 1//12 12//63 2.62425 1.55 EKLTELMFEHYNIPAFFLCK 135 //12 6//63 1.544 0.777777778 EKLTELMFEHYNIPAFFLCK 135 //12 7//63 1.3005 0.55 EKLTELMFEHYNIPAFFLCK 135 //12 6//63 0.98225 0.555555556 EKLTELMFEHYNIPAFFLCK 135 1//12 10//63 1.5315 1.111111111 EKLTELMFEHYNIPAFFLCK 135 //12 9//50 1.9475 0.65 EKLTELMFEHYNIPAFFLCK 135 //17 11//119 2.0815 0.733333333 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //13 6//71 1.756 0.636363636 HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1//13 7//71 2.1505 0.681818182 HMDGMYGPPAKR 1372 //13 8//56 1.3315 0.863636364 KTGQPEELVSCSDCGR 285 1//8 4//43 0.17375 0.375 LKLIANNTTVER 379 4//9 14//32 1.68225 2.357142857 LKLIANNTTVERR 379 //9 9//31 2.746 1.428571429 LKLIANNTTVER 379 //12 8//49 1.8655 1.222222222 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //12 3//76 0.29 0.125 EKLTELMFEHYNIPAFFLCK 135 2//8 6//31 0.28575 1 EKLTELMFEHYNIPAFFLCK 135 1//8 5//31 0.26475 0.583333333 ELSQKTPPSMR 371 2//8 8//28 1.0085 1.4 ELSQKTPPSMR 371 //8 5//30 0.9375 1 PVKFQLEDDGEFYMIGSEVGNYLR 16 2//16 19//93 8.9035 1.84375 PVKFQLEDDGEFYMIGSEVGNYLR 16 1//16 18//93 6.86475 1.5625 LKLIANNTTVERR 379 1//8 7//26 0.68975 1.166666667 LKLIANNTTVER 379 2//8 7//28 1.008 1.3 LKLIANNTTVERR 379 //8 8//26 1.941 1.5 IVASSHGKKTK 71 //11 14//46 6.00975 2 IVASSHGKKTK 71 //11 9//46 4.179 1.444444444 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //15 14//104 2.83025 1.464285714 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1//15 10//104 1.7385 0.821428571 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1//15 14//75 3.1585 1.625 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 2//15 10//104 1.797 0.821428571 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //15 11//104 2.3445 1 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //15 7//79 1.786 0.692307692 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1//15 10//104 1.65975 0.75 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //15 10//98 2.35175 0.958333333 EKLTELMFEHYNIPAFFLCK 135 1//15 11//104 2.1185 0.857142857 EKLTELMFEHYNIPAFFLCK 135 //15 9//104 1.99625 0.714285714 EKLTELMFEHYNIPAFFLCK 135 //15 7//104 2.047 0.642857143 HQGTFTDEKSK 199 //13 14//57 3.12975 1.545454545 SKASHHIYPYSSSQDDEEWLRPVMR 201 //12 11//76 5.1465 1.541666667 LKLIANNTTVER 379 1//13 8//58 0.71975 0.454545455 DTALETALNAKAYKR 437 //9 11//41 3.1605 1.75 VIHVESGKILTGTDAPK 626 //8 7//31 2.496 1.714285714 VIHVESGKILTGTDAPK 626 //8 6//31 1.72975 1.214285714 HQGTFTDEKSK 199 //5 4//22 0.80775 0.9 ITPIQKPR 357 1//8 8//38 2.751 1.785714286 TKATIELKALR 399 3//9 12//32 1.61975 1.833333333 TKATIELKALR 399 3//9 10//32 1.475 1.833333333 TKATIELK 399 2//6 10//25 2.486 2.1 TKATIELK 399 1//6 9//25 2.0865 2 TKATIELKALR 399 //8 8//36 1.82625 1.571428571 TKATIELKALR 399 //8 6//36 1.3015 1.428571429 TKATIELK 399 //8 9//38 2.2185 1.785714286 TKATIELK 399 1//8 9//37 2.99575 1.785714286 HQGTFTDEKSK 199 //5 3//21 0.7245 1 VSYKGSPAAR 835 //11 7//47 0.859 1 HQGTFTDEKSK 199 //12 10//49 2.1755 1.1 HQGTFTDEKSK 199 1//8 9//30 2.3535 1.416666667 HRKEVDYSDSLTEK 1375 //8 9//40 2.4375 1.571428571 KRDSDAGSSTPTTSTR 1414 //8 5//33 1.5105 0.714285714 TKATIELKALR 405 //8 7//37 0.943 1.071428571 EKPVDLQNFGLR 592 2//11 14//43 2.04675 1.833333333 NKEKPVDLQNFGLR 590 //13 8//71 1.6455 1.090909091 NKEKPVDLQNFGLR 590 //11 11//53 2.368 1.611111111 SPQVPAAQQMLNFPEKNK 588 //13 10//56 1.50375 1.136363636 SPQVPAAQQMLNFPEKNK 588 //13 10//71 1.7775 1.045454545 SPQVPAAQQMLNFPEKNK 588 //11 5//43 0.8885 0.555555556 SPQVPAAQQMLNFPEKNK 588 //11 5//43 1.1555 0.555555556 SPQVPAAQQMLNFPEKNK 588 //11 5//43 0.7925 0.555555556 KRPAPQQIQQVQQQAVQNR 101 //9 2//32 0.119 0.142857143 KRPAPQQIQQVQQQAVQNR 101 //9 4//39 0.39825 0.428571429 KRPAPQQIQQVQQQAVQNR 101 //18 13//120 2.84275 0.875 KRPAPQQIQQVQQQAVQNR 101 1//17 6//123 0.5685 0.1875 EVEAQLPEKVEYVIKCDMSALQR 997 //15 10//107 2.901 0.678571429 KRPAPQQIQQVQQQAVQNR 101 //12 12//50 2.657 1.8 KRPAPQQIQQVQQQAVQNR 101 //12 6//63 1.23 0.65 DTALETALNAKAYKR 437 //6 6//30 1.5285 1.7 DTALETALNAKAYKR 437 //6 5//23 1.42 1.6 DTALETALNAKAYKR 437 //8 5//31 0.82225 0.833333333 RDTALETALNAKAYK 437 //8 4//31 0.42525 0.75 DTALETALNAKAYK 437 //8 4//27 0.22225 0.333333333 RDTALETALNAKAYK 437 //8 4//31 0.65925 0.75 RDTALETALNAKAYK 437 //8 4//25 0.6045 0.5 KRPAPQQIQQVQQQAVQNR 101 //10 7//36 1.0945 0.8125 KRPAPQQIQQVQQQAVQNR 101 //10 7//36 1.163 0.8125 KRPAPQQIQQVQQQAVQNR 101 //10 3//44 0.444 0.3125 KRPAPQQIQQVQQQAVQNR 101 //10 4//44 0.635 0.5 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //11 5//53 1.052 0.555555556 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //13 6//71 1.548 0.727272727 EKPTDMQNFGLR 568 //13 8//56 1.9285 1.090909091 EKPTDMQNFGLR 568 2//13 12//71 2.16925 1.409090909 GQPLPDHLQMAVQGKR 207 1//5 3//24 0.09825 0.625 TKATIELK 399 3//9 14//35 2.794 2.214285714 TKATIELK 399 1//9 11//35 1.5045 1.642857143 TKATIELK 399 3//9 12//45 3.68175 1.722222222 PSPAPPAVPPAASPVMPPQTQSPGQPAQPAPMVPLHQKQSR 348 2//15 20//110 4.43775 1.7 PSPAPPAVPPAASPVMPPQTQSPGQPAQPAPMVPLHQKQSR 348 2//15 16//110 3.25225 1.2 PSPAPPAVPPAASPVMPPQTQSPGQPAQPAPMVPLHQKQSR 348 //15 8//110 1.22075 0.533333333 DTALETALNAKAYKR 437 //5 2//25 0.2085 0.25 RDTALETALNAKAYK 437 //5 4//25 0.3765 0.75 ISAKTLTDEVNSPDSDRR 275 //5 5//19 0.903 1.25 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //9 4//32 0.93875 0.642857143 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //9 4//32 0.8565 0.642857143 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //12 7//55 2.03775 1.166666667 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //12 7//55 1.66825 1.166666667 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //12 5//55 1.503 0.888888889 AYHNSPAYLAYINAKSR 146 //18 10//120 1.50025 0.53125 KLEAELLQIEER 240 1//12 10//50 1.9025 1.388888889 SVTGKIQK 496 1//8 6//30 1.27275 0.916666667 EQKAKR 124 //5 6//24 1.59675 1.75 LDGTTKAEDR 1131 //8 3//40 0.975 0.571428571 EQKAKR 124 4//8 11//30 2.302 2.1 EQKAKR 124 //8 9//30 1.87225 1.333333333 VSYKGSPAAR 835 1//8 7//30 1.06675 1.3 VSYKGSPAAR 835 3//8 8//30 1.2955 1.166666667 GFKYLR 1122 2//8 7//30 1.18575 1.4 DTALETALNAKAYKR 437 1//6 4//31 0.3095 0.75 RDTALETALNAKAYK 437 //6 7//25 1.45225 1.5 RDTALETALNAKAYK 437 //6 6//31 1.875 1.416666667 RDTALETALNAKAYK 437 //6 3//31 0.589 0.666666667 RDTALETALNAKAYK 437 //6 4//31 0.444 0.5 KRDSDAGSSTPTTSTR 1414 //13 6//56 0.99525 0.55 QRGKGEITPAAIQK 13 //12 12//50 4.48875 1.833333333 QRGKGEITPAAIQK 13 //12 13//50 4.91575 2.055555556 LDLAGRDLTDYLMKILTER 192 1//11 10//52 1.259 1.055555556 LDLAGRDLTDYLMKILTER 192 //11 9//52 1.74675 1.5625 DLTDYLMKILTER 192 //11 9//42 1.546 1.388888889 LDLAGRDLTDYLMKILTER 192 //11 6//52 0.917 0.611111111 DLTDYLMKILTER 192 //11 9//42 1.64425 1.5625 LDLAGRDLTDYLMKILTER 192 //11 9//52 1.33125 1 DLTDYLMKILTER 192 2//8 11//35 2.332 1.5625 DLTDYLMKILTER 192 1//8 9//35 2.57775 1.785714286 DLTDYLMKILTER 192 //11 7//42 0.91325 0.777777778 LDLAGRDLTDYLMKILTER 192 2//11 8//52 1.384 0.888888889 DLTDYLMKILTER 192 1//8 9//35 2.054 1.4375 DLTDYLMKILTER 192 4//11 12//52 2.418 2 DLTDYLMKILTER 192 1//8 9//35 2.26775 1.4375 LDLAGRDLTDYLMKILTER 192 //8 10//35 2.862 1.625 LDLAGRDLTDYLMKILTER 192 //11 11//42 3.43225 1.222222222 DLTDYLMKILTER 192 2//11 11//52 1.77875 1.75 DLTDYLMKILTER 192 3//11 12//52 2.045 1.777777778 DLTDYLMKILTER 192 //8 7//35 1.6745 0.875 LDLAGRDLTDYLMKILTER 192 1//8 10//43 1.60975 1.625 DLTDYLMKILTER 192 1//11 6//52 0.9965 0.722222222 DLTDYLMKILTER 192 //8 6//35 1.49375 0.8125 DLTDYLMKILTER 192 1//10 8//58 1.28425 0.833333333 DLTDYLMKILTER 192 //10 2//47 0.25525 0.111111111 DLTDYLMKILTER 192 //10 2//47 0.1965 0.111111111 DLTDYLMKILTER 192 //10 4//58 0.61625 0.333333333 VDFPTAIGMVVERDDGSTLMEIDGDKGK 60 //15 13//96 4.14275 1.458333333 HQGVMVGMGQKDCYVGDEAQSKR 51 //7 7//39 1.7685 1.5 EQKKENER 517 //9 13//46 5.5845 2.375 KENERIEK 517 //9 9//56 2.4305 1.055555556 KENERIEK 517 //9 8//56 2.13175 1 KENERIEK 517 //9 10//46 1.9615 1.277777778 AVATYHANTEREQKK 516 //9 8//50 3.08 1.388888889 EQKKENER 516 //9 11//46 3.8055 1.777777778 KKIPDPDSDDVSEVDAR 689 //9 11//40 4.223 1.777777778 IQKLTKAVATYHANTER 499 //5 5//18 1.354 1.5 IQKLTKAVATYHANTER 499 //5 4//18 1.327 1.125 EIITLAPSTMKIKIIAPPER 327 //17 11//113 2.7305 0.964285714 EIITLAPSTMKIKIIAPPER 327 //17 12//113 3.1455 1 KDLYANTVLSGGSTMYPGIADR 292 //11 7//73 1.14625 0.75 WKYMIVDEGHR 846 //9 7//52 2.984 1 AVATWHANTEREQKK 492 //9 9//50 3.4595 1.222222222 IKIIAPPER 329 1//6 7//27 1.32 1.8 IKIIAPPER 329 //6 4//27 0.64375 0.9 IKIIAPPER 329 4//7 7//23 1.284 2.125 IKIIAPPER 329 3//7 6//23 1.03975 1.625 IKIIAPPER 329 3//7 6//23 1.059 1.5 ETERIEKER 500 //9 12//45 4.53725 2.055555556 IKIIAPPER 329 2//7 5//23 0.99625 1.375 DIGEGNLSTAAAAALAAAAVKAK 872 //8 1//40 0.073 0.071428571 NKSKTPEIYLAYR 455 //9 9//48 1.937 1.1875 NKSKTPEIYLAYR 455 //9 8//48 1.99375 1.125 NKSKTPEIYLAYR 455 //9 7//48 2.2255 1.0625 KVMATIEK 20 3//8 10//30 1.0825 1.666666667 KVMATIEK 20 1//8 10//30 0.78675 1.333333333 EQKAKR 124 1//7 7//34 2.04675 1.5 SRAKDDIK 15 //8 7//30 1.07175 1.2 IFKWVPVVDPQEEER 47 2//8 6//26 1.17175 1.3 IFKWVPVVDPQEEER 47 //8 5//32 0.462 0.75 IFKWVPVVDPQEEER 47 //8 5//26 1.013 1 HQEYLNSILQHAKDFKEYHR 460 //11 2//63 0.14775 0.1 WKYMIVDEGHR 846 1//10 8//36 1.2225 0.8125 WKYMIVDEGHR 846 2//10 9//44 1.445 1.125 WKYMIVDEGHR 846 2//7 7//39 1.3775 1.428571429 WKYMIVDEGHR 846 //6 5//27 1.0705 1.083333333 WKYMIVDEGHR 846 1//10 5//36 0.6685 0.5625 VSYKGSPAAR 835 1//9 6//35 0.49025 0.571428571 AKDDIKK 19 2//8 10//30 2.655 1.75 EARITEKLEK 455 3//11 20//55 5.83825 2.944444444 VSYKGSPAAR 835 2//10 7//42 1.51825 0.875 AKDDIKK 15 2//8 12//30 2.2705 1.916666667 SRAKDDIK 15 //8 9//30 2.06125 1.333333333 SVTGKIQK 496 //7 5//33 1.839 1.142857143 SVTGKIQK 496 //7 4//33 0.926 0.571428571 SVTGKIQK 496 //7 6//33 0.577 0.714285714 KRDSDAGSSTPTTSTR 1414 //7 5//36 0.873 0.714285714 AYHNSPAYLAYINAKSR 146 //11 7//55 0.8365 0.944444444 KEGLISQDGSSLEALLR 108 2//11 12//43 2.1525 1.5 LSFPSIKPDTDQTLKK 99 2//11 13//43 4.1775 1.611111111 LSFPSIKPDTDQTLK 99 3//11 13//43 2.3055 1.388888889 LSFPSIKPDTDQTLK 99 3//11 16//43 2.63425 1.944444444 LSFPSIKPDTDQTLK 99 //13 8//56 1.56525 0.727272727 LSFPSIKPDTDQTLKK 99 //11 10//43 3.4535 1.444444444 LSFPSIKPDTDQTLK 99 //13 7//56 0.99325 0.545454545 LSFPSIKPDTDQTLKK 107 //11 10//43 3.90275 1.444444444 LSFPSIKPDTDQTLKK 107 //11 9//53 1.77375 1.055555556 KTGQPEELVSCSDCGR 285 //5 3//19 0.2985 0.8 KTGQPEELVSCSDCGR 285 //5 3//19 0.3425 0.8 KRDSDAGSSTPTTSTR 1414 //9 2//37 0.2615 0.142857143 KELPEYYELIR 1434 3//9 10//31 1.43 1.642857143 TKATVELKALR 381 1//9 9//33 1.9445 1.75 IQKLSKAVATWHANTER 478 6//12 17//61 3.73675 2.5 LDASILEDRDKPYACDICGK 207 //5 3//24 0.10875 0.3 LDASILEDRDKPYACDICGK 207 //5 3//20 0.257 0.3 SGHPSCLQFTPVMMAAVKTYR 318 //9 7//38 1.769 1.416666667 SGHPSCLQFTPVMMAAVKTYR 318 //5 2//24 0.04275 0.2 SGHPSCLQFTPVMMAAVKTYR 318 //5 2//24 0.02125 0.2 SGHPSCLQFTPVMMAAVKTYR 318 //5 2//19 0.1055 0.2 KELPEYYELIR 1434 1//9 8//32 0.7645 1 KEGLISQDGSSLEALLR 108 1//5 3//19 0.08575 0.4 KGPDGLALPNNYCDFCLGDSK 261 1//12 11//63 2.44675 1.409090909 ILEPDDFLDDLDDEDYEEDTPKRR 178 //12 9//80 0.54625 0.681818182 CTLLLMLDYQPPQFKLDPRLAR 264 1//17 30//103 7.7725 2.323529412 DKPYACDICGKR 207 //12 8//48 1.123 0.555555556 KKDGGPNVK 6 2//9 13//35 3.20825 2.214285714 LPFLDSQTGVAQSNCYIWMEKR 59 //15 9//90 0.99225 0.846153846 LPFLDSQTGVAQSNCYIWMEKR 59 //15 9//90 1.1225 0.769230769 SKGKGVGSAR 186 3//9 5//34 1.17675 0.833333333 KKDGGPNVK 6 1//8 8//38 1.959 1.285714286 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//5 6//26 0.9245 1.25 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//5 4//26 0.9455 1 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//5 5//21 1.29675 1.125 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//5 7//26 0.93925 1.75 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//5 4//21 0.9925 1 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//5 4//26 0.937 1 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//5 4//26 0.909 1 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//5 4//21 0.992 0.75 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//5 4//26 0.982 1 PGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 3//5 4//26 1.0655 1.125 KRPAPQQIQQVQQQAVQNR 101 1//9 5//30 0.65 0.5 KRPAPQQIQQVQQQAVQNR 101 1//9 5//37 0.60875 0.5 KLDQTIMRK 156 //10 10//64 1.78525 1.222222222 SKGKGVGSAR 186 //11 10//46 3.3395 1.5625 LSFPSIKPDTDQTLK 99 1//8 7//34 1.0535 0.857142857 KEGLISQDGSSLEALLR 108 //8 9//33 1.99525 1.857142857 KVWDQVKASNPDLK 85 //9 8//30 2.3125 1.583333333 SGHPSCLQFTPVMMAAVKTYR 318 //14 13//156 4.514 0.947368421 HQGTFTDEKSK 199 //8 10//38 2.90025 1.625 HQGTFTDEKSK 199 //8 10//38 2.7955 1.625 KVQEAAR 740 //8 7//36 2.037 1.5 QQLLTERQNFHMEQLKYAELR 948 //10 10//59 3.6625 1.611111111 SGHPSCLQFTPVMMAAVKTYR 318 4//18 10//118 2.0675 0.766666667 TDPLEKR 130 //8 6//35 2.2145 1.428571429 TDPLEKR 130 //8 6//35 2.252 1.428571429 DRKASANAR 317 1//9 10//35 2.67425 1.642857143 TDPLEKR 130 //8 7//37 1.69025 1.5 TDPLEKR 130 1//7 5//31 1.67525 0.833333333 RHQGTFTDEKSK 199 //9 8//31 3.182 1.357142857 RHQGTFTDEKSK 199 //9 8//38 2.33125 1.25 SKASHHIYPYSSSQDDEEWLRPVMR 201 //9 8//37 1.62975 1.5 SKASHHIYPYSSSQDDEEWLRPVMR 201 //9 4//37 0.43475 0.285714286 SKASHHIYPYSSSQDDEEWLRPVMR 201 //9 6//37 0.96225 0.666666667 KIRDQDR 364 1//9 11//35 3.0415 1.714285714 KTGQPEELVSCSDCGR 285 //8 2//34 0.18675 0.142857143 GQLSWHQKTYAFSENPLPTVEIAIR 324 //17 29//134 11.28575 2.441176471 GQLSWHQKTYAFSENPLPTVEIAIR 324 //17 29//134 10.5905 2.5 SRDETPLCTIAHWQDSLAKR 1930 //17 28//93 12.704 2.625 SRDETPLCTIAHWQDSLAKR 1930 //17 27//93 11.4355 2.4375 SRDETPLCTIAHWQDSLAKR 1930 //17 27//120 9.61775 2.1875 SRDETPLCTIAHWQDSLAKR 1930 //16 17//130 4.1565 1.176470588 SRDETPLCTIAHWQDSLAKR 1930 //17 21//120 7.338 1.65625 SRDETPLCTIAHWQDSLAKR 1930 //16 21//130 6.4905 1.323529412 SRDETPLCTIAHWQDSLAKR 1930 //16 16//100 5.6565 1.375 SRDETPLCTIAHWQDSLAKR 1930 //16 21//130 6.96375 1.5 SRDETPLCTIAHWQDSLAKR 1930 //17 19//120 6.8155 1.5 SRDETPLCTIAHWQDSLAKR 1930 //17 18//120 6.70425 1.5 MTEKLEKQQK 434 //12 12//47 4.78475 1.722222222 MTEKLEKQQK 434 //12 14//47 3.9955 1.722222222 AAKALLAMAR 2187 4//8 9//30 2.036 1.666666667 MTEKLEKQQK 434 //12 13//47 4.36325 1.888888889 MTEKLEKQQK 434 //12 11//47 4.3065 1.666666667 MTEKLEKQQK 434 //12 11//60 3.94925 1.5 MTEKLEKQQK 434 //12 13//49 3.651 1.7 QQKIEQER 437 //12 12//51 4.8285 1.888888889 QQKIEQER 437 //12 11//51 2.59575 1.3 QQKIEQER 437 //12 11//51 2.17975 1.333333333 RDTTLETALNSKAYK 413 //6 4//31 1.1195 1 DTTLETALNSKAYKR 413 //6 4//29 0.9885 1.2 DTTLETALNSKAYKR 413 1//6 6//23 0.4515 1.1 SRDETPLCTIAHWQDSLAKR 1930 //6 1//19 0.11275 0.125 SRDETPLCTIAHWQDSLAKR 1930 //6 2//19 0.1735 0.25 GKGGTKTLMNTIMQLR 1029 //8 3//40 1 0.571428571 ITEKLEKQQK 458 //12 15//48 5.12575 2.166666667 ITEKLEKQQK 458 //12 13//48 4.929 1.944444444 ITEKLEKQQK 458 //12 14//48 5.0705 1.944444444 ITEKLEKQQK 458 //12 13//60 5.3045 1.75 ITEKLEKQQK 458 //12 15//49 5.85325 1.95 ITEKLEKQQK 458 1//12 16//48 5.43575 2.222222222 ITEKLEKQQK 458 //12 15//49 5.833 2.166666667 ITEKLEKQQK 458 //12 12//48 4.514 1.722222222 SRDETPLCTIAHWQDSLAKR 1930 //17 22//107 7.98475 2 SRDETPLCTIAHWQDSLAKR 1930 //17 19//110 7.084 1.933333333 SRDETPLCTIAHWQDSLAKR 1930 //16 21//98 8.576 2.178571429 SRDETPLCTIAHWQDSLAKR 1930 //17 15//110 5.17375 1.5 SRDETPLCTIAHWQDSLAKR 1930 //17 15//110 4.87875 1.5 SRDETPLCTIAHWQDSLAKR 1930 //17 14//107 1.92875 0.833333333 SRDETPLCTIAHWQDSLAKR 1930 //16 9//98 1.77 0.785714286 GQPLPDHLQMAVQGKR 207 //14 8//75 1.6695 0.791666667 KNPVCREMSMALLSNLAQGDALAAR 2110 1//12 6//47 1.449 0.611111111 DTALETALNAKAYKR 437 //6 3//31 0.353 0.666666667 DTALETALNAKAYKR 437 //6 5//29 1.7685 1.6 DTALETALNAKAYKR 437 //6 6//23 1.24925 1.7 RDTALETALNAKAYK 437 //6 8//25 1.81825 1.75 RDTALETALNAKAYK 437 //6 5//31 1.664 1.333333333 RDTALETALNAKAYK 437 //6 4//25 0.7535 0.666666667 RDTALETALNAKAYK 437 //6 4//31 0.62825 0.75 RDTALETALNAKAYK 437 //6 3//25 0.26275 0.25 RDTALETALNAKAYK 437 //6 4//23 1.0215 1.2 AYHNSPAYLAYINAKSR 146 //16 16//102 4.1485 1.571428571 AYHNSPAYLAYINAKSR 146 //16 13//102 3.228 1.142857143 AYHNSPAYLAYINAKSR 146 //15 13//70 3.9295 1.5 AYHNSPAYLAYINAKSR 146 //16 15//102 3.82175 1.535714286 AYHNSPAYLAYINAKSR 146 //16 13//79 2.31525 0.821428571 AYHNSPAYLAYINAKSR 146 //15 11//89 1.88425 1.166666667 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //16 10//102 2.6785 0.75 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //12 7//45 2.945 1.2 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //12 6//45 1.8475 0.8 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //12 5//45 1.389 0.6 KLEAELLQIEER 240 1//14 6//62 0.73 0.375 AYHNSPAYLAYINAKSR 146 //14 14//110 2.95875 1.392857143 AYHNSPAYLAYINAKSR 146 //14 10//110 2.3345 0.857142857 AYHNSPAYLAYINAKSR 146 //14 12//110 2.7475 1.035714286 AYHNSPAYLAYINAKSR 146 //14 11//84 3.48 1.107142857 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //16 13//117 4.82725 1 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //16 5//156 0.423 0.184210526 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //16 7//156 0.87975 0.447368421 YVGDRKNPVCR 2110 //12 11//64 2.84125 1.555555556 YVGDRKNPVCR 2110 //9 6//39 0.92525 1.166666667 SRDETPLCTIAHWQDSLAKR 1930 1//17 29//122 11.50525 2.5625 SRDETPLCTIAHWQDSLAKR 1930 1//16 25//132 7.7025 1.735294118 SRDETPLCTIAHWQDSLAKR 1930 1//16 23//132 7.849 1.676470588 SRDETPLCTIAHWQDSLAKR 1930 //16 21//132 3.54075 1.235294118 SRDETPLCTIAHWQDSLAKR 1930 //16 23//132 3.97675 1.647058824 SRDETPLCTIAHWQDSLAKR 1930 1//17 25//122 7.77625 2 SRDETPLCTIAHWQDSLAKR 1930 1//16 20//101 6.24125 1.65625 SRDETPLCTIAHWQDSLAKR 1930 //17 19//94 7.17625 1.6 SRDETPLCTIAHWQDSLAKR 1930 //17 19//94 7.074 1.5625 SRDETPLCTIAHWQDSLAKR 1930 //17 20//94 7.597 1.733333333 SRDETPLCTIAHWQDSLAKR 1930 //16 13//101 3.59 0.8125 ITKVYELGNEPER 1046 //14 14//83 3.1455 1.590909091 FPFGIQQAKSHR 1898 //9 14//43 5.54025 2.5625 FPFGIQQAKSHR 1898 //9 10//53 4.6395 1.8125 NIKLLEDEPR 1904 2//9 16//45 4.214 2.375 NIKLLEDEPR 1904 3//9 15//45 4.1855 2.3125 NIKLLEDEPR 1904 1//10 14//52 3.4275 2.277777778 NIKLLEDEPR 1904 1//9 12//45 3.651 2 QEKFYATLVR 2097 1//9 16//45 4.7115 2.25 QEKFYATLVR 2097 1//9 16//45 4.8695 2.5625 QEKFYATLVR 2097 //9 14//45 4.1105 2.125 QEKFYATLVR 2097 1//10 13//52 1.70375 1.833333333 QEKFYATLVR 2097 //10 13//52 2.6615 1.555555556 QEKFYATLVR 2097 //9 9//45 3.70375 1.625 QEKFYATLVR 2097 //10 12//52 2.47725 1.5 QEKFYATLVR 2097 2//10 11//52 1.5225 1.555555556 QEKFYATLVR 2097 1//10 14//64 2.5315 1.611111111 QEKFYATLVR 2097 1//9 10//45 2.88075 1.6875 QEKFYATLVR 2097 1//9 10//45 2.37625 1.5 QEKFYATLVR 2097 //9 11//45 2.525 1.75 KRPAPQQIQQVQQQAVQNR 101 //15 18//148 4.6055 1 KRPAPQQIQQVQQQAVQNR 101 //15 16//148 3.373 0.736842105 KRPAPQQIQQVQQQAVQNR 101 //15 19//148 3.548 1.026315789 KRPAPQQIQQVQQQAVQNR 101 //15 15//148 2.965 0.842105263 KRPAPQQIQQVQQQAVQNR 101 //16 11//102 3.58475 1.071428571 KRPAPQQIQQVQQQAVQNR 101 //15 15//70 4.83175 1.384615385 KRPAPQQIQQVQQQAVQNR 101 //15 15//70 4.621 1.346153846 KRPAPQQIQQVQQQAVQNR 101 //16 10//102 1.71425 0.535714286 KRPAPQQIQQVQQQAVQNR 101 //15 11//89 2.838 1.038461538 KRPAPQQIQQVQQQAVQNR 101 //15 13//70 3.72625 1.076923077 KCLIDIFGILMEYEVGDPSQK 1676 //15 11//92 2.507 1.166666667 APQTYEKEEDEDKGVACSK 1984 //10 13//57 3.79675 1.75 APQTYEKEEDEDKGVACSK 1984 //10 14//57 3.9695 1.8 APQTYEKEEDEDKGVACSK 1984 //10 16//57 4.318 2.5 APQTYEKEEDEDKGVACSK 1984 //10 10//46 2.29825 0.85 AKHLAAVEER 874 //8 6//47 1.2055 0.928571429 AKHLAAVEER 874 //8 7//39 0.76325 0.928571429 SLVALLVETQMKK 897 //12 8//51 3.90725 1.25 SLVALLVETQMKK 897 //12 7//51 2.2325 0.9 AKHLAAVEER 874 //7 8//35 0.88025 1.071428571 KNNLFVVDR 1781 2//9 11//45 3.1295 1.777777778 KNNLFVVDR 1781 //9 10//45 2.907 1.777777778 KNNLFVVDR 1781 1//9 7//45 2.4255 1.3125 HMDGMYGPPAKR 1372 1//12 20//63 6.69725 2.583333333 HMDGMYGPPAKR 1372 //11 12//43 3.22125 1.666666667 SRDETPLCTIAHWQDSLAKR 1930 //16 30//132 8.296 2.264705882 SRDETPLCTIAHWQDSLAKR 1930 //17 28//94 13.29 2.90625 SRDETPLCTIAHWQDSLAKR 1930 //16 24//132 6.40825 1.735294118 SRDETPLCTIAHWQDSLAKR 1930 //16 25//132 6.27775 1.676470588 SRDETPLCTIAHWQDSLAKR 1930 //17 28//94 12.157 2.6875 SRDETPLCTIAHWQDSLAKR 1930 //16 18//101 6.48075 1.40625 SRDETPLCTIAHWQDSLAKR 1930 //16 22//132 6.4315 1.676470588 SRDETPLCTIAHWQDSLAKR 1930 //16 19//132 5.6875 1.382352941 SRDETPLCTIAHWQDSLAKR 1930 //16 18//101 6.67075 1.5 SRDETPLCTIAHWQDSLAKR 1930 //16 20//132 4.908 1.235294118 SRDETPLCTIAHWQDSLAKR 1930 //17 27//94 12.57 2.65625 SRDETPLCTIAHWQDSLAKR 1930 //16 24//132 8.243 1.852941176 SRDETPLCTIAHWQDSLAKR 1930 //17 26//94 10.571 2.5 SRDETPLCTIAHWQDSLAKR 1930 //17 30//122 10.9935 2.625 SRDETPLCTIAHWQDSLAKR 1930 //16 24//132 8.088 1.764705882 SRDETPLCTIAHWQDSLAKR 1930 //16 16//101 6.39075 1.375 DETPLCTIAHWQDSLAKR 1930 //16 24//132 7.35475 1.647058824 SRDETPLCTIAHWQDSLAKR 1930 //16 23//132 8.0885 1.676470588 SRDETPLCTIAHWQDSLAKR 1930 //16 17//101 6.45675 1.375 SRDETPLCTIAHWQDSLAKR 1930 //16 15//132 3.901 0.970588235 DETPLCTIAHWQDSLAKR 1930 //16 20//132 6.82075 1.5 DETPLCTIAHWQDSLAKR 1930 //16 19//132 6.54775 1.470588235 SRDETPLCTIAHWQDSLAKR 1930 //17 24//122 9.5665 2.0625 DETPLCTIAHWQDSLAKR 1930 //16 21//132 5.85975 1.46875 SRDETPLCTIAHWQDSLAKR 1930 //16 22//132 7.3465 1.470588235 SRDETPLCTIAHWQDSLAKR 1930 //17 22//122 8.10775 1.75 SRDETPLCTIAHWQDSLAKR 1930 //17 24//122 9.719 2.1875 SRDETPLCTIAHWQDSLAKR 1930 //17 20//122 7.446 1.53125 SRDETPLCTIAHWQDSLAKR 1930 //17 26//122 9.31675 2.0625 SRDETPLCTIAHWQDSLAKR 1930 //16 25//101 6.92575 1.78125 SRDETPLCTIAHWQDSLAKR 1930 //16 14//101 5.0125 1.03125 SRDETPLCTIAHWQDSLAKR 1930 //16 24//132 7.4495 1.705882353 SRDETPLCTIAHWQDSLAKR 1930 //17 20//122 7.075 1.5625 SRDETPLCTIAHWQDSLAKR 1930 //17 20//122 7.732 1.5625 SRDETPLCTIAHWQDSLAKR 1930 //17 22//122 8.49725 1.866666667 SRDETPLCTIAHWQDSLAKR 1930 //17 23//122 8.21975 1.875 SRDETPLCTIAHWQDSLAKR 1930 //16 12//131 1.92925 0.705882353 SRDETPLCTIAHWQDSLAKR 1930 //17 17//122 6.824 1.375 SRDETPLCTIAHWQDSLAKR 1930 //17 17//122 6.01925 1.21875 SRDETPLCTIAHWQDSLAKR 1930 //16 17//132 6.04025 1.205882353 SRDETPLCTIAHWQDSLAKR 1930 //16 16//101 5.3155 1.1875 SRDETPLCTIAHWQDSLAKR 1930 //16 15//132 3.97825 1.088235294 SRDETPLCTIAHWQDSLAKR 1930 //17 17//122 5.543 1.15625 SRDETPLCTIAHWQDSLAKR 1930 //16 11//131 1.76725 0.529411765 DETPLCTIAHWQDSLAKR 1930 //17 16//122 5.24275 1.3 SRDETPLCTIAHWQDSLAKR 1930 //16 12//101 4.92975 1.09375 SRDETPLCTIAHWQDSLAKR 1930 //17 17//122 6.60525 1.46875 SRDETPLCTIAHWQDSLAKR 1930 //17 16//122 5.697 1.1875 SRDETPLCTIAHWQDSLAKR 1930 //16 11//132 1.525 0.441176471 SRDETPLCTIAHWQDSLAKR 1930 //16 16//132 3.06475 0.941176471 DETPLCTIAHWQDSLAKR 1930 //16 10//132 3.43575 0.71875 SRDETPLCTIAHWQDSLAKR 1930 //17 15//122 4.628 1 SRDETPLCTIAHWQDSLAKR 1930 //17 12//122 3.96575 1.0625 SRDETPLCTIAHWQDSLAKR 1930 //16 14//101 3.74925 1.09375 SRDETPLCTIAHWQDSLAKR 1930 //16 11//132 2.3535 0.75 SRDETPLCTIAHWQDSLAKR 1930 //11 9//55 2.838 1.333333333 MEIQEAIKKPLTQK 185 1//13 10//75 1.34775 0.909090909 MEIQEAIKKPLTQK 185 //13 8//75 1.00575 0.6 NIKLLEDEPR 1904 4//9 16//44 4.73625 2.5 NIKLLEDEPR 1904 3//9 17//44 4.4105 2.5625 NIKLLEDEPR 1904 1//9 11//44 3.32 1.9375 FPFGIQQAKSHR 1898 //9 14//42 5.755 2.5625 FPFGIQQAKSHR 1898 //9 10//51 4.42925 1.8125 QEKFYATLVR 2097 //9 11//44 4.255 2.0625 QEKFYATLVR 2097 //9 12//44 4.552 2.3125 QEKFYATLVR 2097 //9 11//44 4.0605 2.0625 QEKFYATLVR 2097 //9 10//44 3.506 1.8125 AAKALLAMAR 2187 2//8 9//30 1.075 1.5 NIKLLEDEPR 1904 //12 14//51 6.717 2.05 NIKLLEDEPR 1904 //12 12//64 4.1905 1.35 HMDGMYGPPAKR 1372 1//8 8//36 2.7515 1.571428571 HMDGMYGPPAKR 1372 1//8 7//36 2.1275 1.285714286 VQEFNSGLLHWQLGGGDTTEHIQTHFESKMEIPPR 1824 //9 3//37 0.212 0.357142857 VQEFNSGLLHWQLGGGDTTEHIQTHFESKMEIPPR 1824 //9 2//37 0.07475 0.142857143 VREEVPLELVEAHVKK 739 //8 5//31 1.09625 0.833333333 TDIYSKK 608 3//8 9//29 1.52775 1.583333333 TDIYSKK 608 //8 4//29 1.31525 0.75 QQGGGMMMGPGGGGAASLSKAAAGSAAGGFQR 392 //14 3//62 0.9275 0.333333333 QQGGGMMMGPGGGGAASLSKAAAGSAAGGFQR 392 //14 3//62 1.0665 0.333333333 QQGGGMMMGPGGGGAASLSKAAAGSAAGGFQR 392 3//14 6//62 1.61675 0.541666667 HFEELETIMDREKEALEQQR 925 //7 5//34 2.0455 1.333333333 HFEELETIMDREKEALEQQR 925 //8 5//40 1.36175 0.714285714 HFEELETIMDREKEALEQQR 925 //8 10//40 2.42825 2.071428571 EKEALEQQR 925 //8 5//38 1.072 0.857142857 AAIMQALWLYIKHNQLQDGHER 340 //15 10//104 2.2185 1.035714286 AAIMQALWLYIKHNQLQDGHER 340 //15 10//98 1.7655 0.958333333 AAIMQALWLYIKHNQLQDGHER 340 //15 9//75 2.72175 0.916666667 AAIMQALWLYIKHNQLQDGHER 340 //15 9//104 1.96 0.785714286 AAIMQALWLYIKHNQLQDGHER 340 //15 12//104 2.1335 1.035714286 AAIMQALWLYIKHNQLQDGHER 340 //15 10//75 3.0445 1.083333333 AAIMQALWLYIKHNQLQDGHER 340 //15 9//75 2.6475 1.166666667 AAIMQALWLYIKHNQLQDGHER 340 //14 8//74 1.975 0.875 HIFAKVQQR 514 //11 6//56 1.7075 0.65 HIFAKVQQR 514 //8 10//38 3.463 2.071428571 QRGKGEITPAAIQK 13 //8 7//35 1.93 1.071428571 VASAAAKAALEEFSR 716 2//13 17//57 4.3425 1.954545455 TPTTQETDGFQVKR 241 1//11 10//40 2.76925 1.5625 LQDSHDKEYINGDKYFQQIFDCPR 309 //15 15//104 3.02025 1.214285714 LQDSHDKEYINGDKYFQQIFDCPR 309 //15 13//104 2.74475 1.25 LQDSHDKEYINGDKYFQQIFDCPR 309 //15 11//79 2.63575 0.923076923 LQDSHDKEYINGDKYFQQIFDCPR 309 //15 10//75 2.42275 1.083333333 LQDSHDKEYINGDKYFQQIFDCPR 309 //15 6//105 1.349 0.653846154 LQDSHDKEYINGDKYFQQIFDCPR 309 //15 7//104 1.53625 0.692307692 EYINGDKYFQQIFDCPR 309 //15 15//104 2.7375 1.25 LQDSHDKEYINGDKYFQQIFDCPR 309 1//15 11//75 3.0825 1.25 YFYSKVQQR 498 //8 8//38 3.01825 1.785714286 KRPAPQQIQQVQQQAVQNR 101 //8 6//40 1.8005 1.428571429 KRPAPQQIQQVQQQAVQNR 101 //8 6//40 1.727 1.428571429 VASAAAKAALEEFSR 716 //11 11//45 2.33325 1.5 VASAAAKAALEEFSR 716 1//11 11//45 1.87875 1.166666667 EFVICDKYLQQIFESQR 341 1//15 13//75 3.56675 1.375 EFVICDKYLQQIFESQR 341 2//15 12//75 2.7975 1.083333333 LQDPHEREFVICDKYLQQIFESQR 341 //15 6//104 1.5545 0.653846154 EFVICDKYLQQIFESQR 341 1//15 14//75 3.2615 1.541666667 LQDPHEREFVICDKYLQQIFESQR 341 1//15 11//75 2.52275 1.041666667 EFVICDKYLQQIFESQR 341 1//15 9//79 2.67775 0.846153846 LQDPHEREFVICDKYLQQIFESQR 341 //15 13//80 2.5295 1.076923077 LQDPHEREFVICDKYLQQIFESQR 341 //15 11//104 1.484 0.714285714 EFVICDKYLQQIFESQR 341 1//14 11//74 2.66275 1 EFVICDKYLQQIFESQR 341 //15 14//79 2.474 1.230769231 EFVICDKYLQQIFESQR 341 //14 12//74 2.973 1.25 EFVICDKYLQQIFESQR 341 //15 8//79 1.7665 0.730769231 LQDPHEREFVICDKYLQQIFESQR 341 1//15 8//75 2.096 0.833333333 EFVICDKYLQQIFESQR 341 //15 11//79 2.124 1.038461538 EFVICDKYLQQIFESQR 341 //15 7//79 1.903 0.642857143 EFVICDKYLQQIFESQR 341 //15 8//79 1.41925 0.464285714 EFVICDKYLQQIFESQR 341 //15 11//104 1.82625 0.785714286 EFVICDKYLQQIFESQR 341 //15 9//104 2.20675 0.714285714 EFVICDKYLQQIFESQR 341 //15 12//104 2.04775 0.892857143 EFVICDKYLQQIFESQR 341 //15 8//79 1.76375 0.807692308 EFVICDKYLQQIFESQR 341 //15 8//79 2.00525 0.730769231 EFVICDKYLQQIFESQR 341 //15 7//80 1.8695 0.692307692 EFVICDKYLQQIFESQR 341 //15 8//80 1.50925 0.576923077 EFVICDKYLQQIFESQR 341 1//14 10//74 2.42675 0.958333333 EFVICDKYLQQIFESQR 341 //15 11//104 1.87075 0.785714286 EFVICDKYLQQIFESQR 341 //15 6//80 1.7885 0.653846154 QNFHMEQLKYAELR 948 //4 4//15 1.001 1.333333333 QNFHMEQLKYAELR 948 3//12 19//63 4.18425 2.166666667 QNFHMEQLKYAELR 948 //12 16//50 4.44 2 QNFHMEQLKYAELR 948 4//12 15//50 3.07125 1.722222222 QNFHMEQLKYAELR 948 5//12 17//50 2.96925 1.833333333 THKLQDPHEREFVICDK 327 //15 9//75 2.563 0.916666667 QNFHMEQLKYAELR 948 3//12 15//63 3.38625 1.611111111 QNFHMEQLKYAELR 948 3//12 12//63 3.14125 1.2 QNFHMEQLKYAELR 948 3//12 16//63 3.23975 1.666666667 QNFHMEQLKYAELR 948 3//12 12//50 2.4675 1.333333333 QNFHMEQLKYAELR 948 3//12 15//63 3.3855 1.45 QNFHMEQLKYAELR 948 3//12 11//50 2.8665 1.277777778 THKLQDPHEREFVICDK 327 //15 12//75 3.234 1.208333333 QNFHMEQLKYAELR 948 2//12 12//50 3.72875 1.666666667 THKLQDPHEREFVICDK 327 //15 10//98 2.16025 1.083333333 QNFHMEQLKYAELR 948 2//12 11//63 2.70525 1.1 QNFHMEQLKYAELR 948 2//12 14//63 3.1175 1.388888889 THKLQDPHEREFVICDK 327 //15 10//104 2.2915 0.75 THKLQDPHEREFVICDK 327 //15 10//104 2.965 0.821428571 QNFHMEQLKYAELR 948 2//12 14//63 2.61225 1.388888889 QNFHMEQLKYAELR 948 1//12 13//63 2.56475 1.166666667 QNFHMEQLKYAELR 948 2//12 14//63 3.60125 1.888888889 QNFHMEQLKYAELR 948 3//12 15//63 2.61625 1.611111111 QNFHMEQLKYAELR 948 4//12 11//63 2.91375 1.15 QNFHMEQLKYAELR 948 2//12 12//63 2.452 1.166666667 QNFHMEQLKYAELR 948 //12 10//63 2.1795 1.111111111 QNFHMEQLKYAELR 948 //12 11//50 2.3375 1.15 QNFHMEQLKYAELR 948 2//12 10//63 2.15225 1 QNFHMEQLKYAELR 948 //12 10//50 2.08725 1.111111111 QNFHMEQLKYAELR 948 //12 11//50 2.39275 1.333333333 KRPAPQQIQQVQQQAVQNR 101 1//8 6//39 1.1625 1.214285714 KRPAPQQIQQVQQQAVQNR 101 //8 3//31 0.547 0.357142857 TLAKSKGASAGR 615 //9 7//55 1.08625 0.75 SPQVPAAQQMLNFPEKNK 588 1//14 8//78 1.6315 0.846153846 HQGTFTDEKSK 199 //8 6//29 1.567 1.1 MKEEVPTALVEAHVR 704 //8 8//40 2.05 1.375 KVEEAAKVTGK 724 1//9 10//34 2.299 1.428571429 VASAAAKAALEEFSR 716 4//17 28//84 8.02225 2.533333333 VASAAAKAALEEFSR 716 1//17 22//84 6.8255 2.033333333 VASAAAKAALEEFSR 716 1//17 24//84 6.39075 2.3 VASAAAKAALEEFSR 716 //17 17//84 5.371 1.678571429 VASAAAKAALEEFSR 716 //17 15//84 5.1615 1.5 VASAAAKAALEEFSR 716 2//17 19//84 4.203 1.8 VASAAAKAALEEFSR 716 //17 16//84 3.7265 1.428571429 SALEEFSKMKEEVPTALVEAHVR 704 //17 15//109 4.642 1.3 SALEEFSKMKEEVPTALVEAHVR 704 //17 12//109 4.421 1.133333333 DIGEGNLSTAAAAALAAAAVKAKHLAAVEER 872 //17 8//109 3.202 0.785714286 SALEEFSKMKEEVPTALVEAHVR 702 //17 15//109 5.84375 1.533333333 SALEEFSKMKEEVPTALVEAHVR 702 //17 16//109 4.86575 1.4 SALEEFSKMKEEVPTALVEAHVR 702 //17 16//109 5.671 1.566666667 SALEEFSKMKEEVPTALVEAHVR 702 //17 11//109 4.09425 0.966666667 SALEEFSKMKEEVPTALVEAHVR 702 //17 16//109 4.70825 1.333333333 SALEEFSKMKEEVPTALVEAHVR 702 //17 14//109 4.93325 1.5 SALEEFSKMKEEVPTALVEAHVR 702 //17 11//84 4.05225 1.035714286 SALEEFSKMKEEVPTALVEAHVR 702 //17 17//109 4.48575 1.366666667 SALEEFSKMKEEVPTALVEAHVR 702 //17 13//109 3.27325 1 SALEEFSKMKEEVPTALVEAHVR 702 //17 11//109 3.562 0.866666667 VASAAAKAALEEFSR 716 //5 3//22 0.8345 0.8 TDMYTKK 584 //8 7//37 2.57775 1.5 KVQEAAR 740 1//7 5//31 0.541 0.833333333 KVQEAAR 740 1//7 7//31 1.10075 1.5 VASAAAKSALEEFSK 694 1//8 8//34 3.8845 1.785714286 AGGALCHILGAAYKYKNEQGWR 127 //8 5//41 0.95 0.857142857 ISAKTLTDEVNSPDSDRR 275 //8 5//31 1.6465 0.928571429 KKDGGPNVK 6 //8 7//37 2.032 1.142857143 HFEELETIMDREKEALEQQR 925 1//15 34//119 13.53425 3.566666667 HFEELETIMDREKEALEQQR 925 1//15 31//119 11.9735 3.033333333 HFEELETIMDREKEALEQQR 925 1//15 29//119 10.95075 2.9 KFLESTDSFNNELKR 258 3//9 17//51 4.45575 2.111111111 HFEELETIMDREKEALEQQR 925 //15 27//119 11.79925 2.866666667 HFEELETIMDREKEALEQQR 925 //15 26//119 10.53125 2.566666667 HFEELETIMDREKEALEQQR 925 //15 24//119 9.359 2.4 HFEELETIMDREKEALEQQR 925 //14 29//122 10.98925 2.933333333 HFEELETIMDREKEALEQQR 925 //15 26//119 9.6015 2.5 HFEELETIMDREKEALEQQR 925 //15 22//91 9.628 2.333333333 HFEELETIMDREKEALEQQR 925 1//15 23//108 7.56875 2.035714286 HFEELETIMDREKEALEQQR 925 //15 23//119 7.74925 2 HFEELETIMDREKEALEQQR 925 //15 18//91 6.48125 1.533333333 KFLESTDSFNNELKR 258 1//9 13//41 3.252 1.666666667 HFEELETIMDREKEALEQQR 925 1//15 23//119 6.66425 2 HFEELETIMDREKEALEQQR 925 //15 18//91 6.23925 1.333333333 HFEELETIMDREKEALEQQR 925 1//15 19//119 5.243 1.6 HFEELETIMDREKEALEQQR 925 //15 19//119 5.49175 1.633333333 HFEELETIMDREKEALEQQR 925 //15 16//91 5.02475 1.533333333 HFEELETIMDREKEALEQQR 925 //15 17//119 3.98425 1.166666667 HFEELETIMDREKEALEQQR 925 //15 13//91 3.90825 1.133333333 HFEELETIMDREKEALEQQR 925 1//14 13//122 2.18725 0.666666667 LCGLKVEVDMEKIAAEIAQAEEQAR 284 //15 10//98 1.82025 1.083333333 VEVDMEKIAAEIAQAEEQAR 284 //15 9//75 2.0295 0.833333333 LCGLKVEVDMEKIAAEIAQAEEQAR 284 //15 9//104 1.9245 0.653846154 KVQEAAR 740 4//8 11//29 2.59 2.166666667 KVQEAAR 740 4//8 9//29 2.22 1.916666667 KVQEAAR 740 4//8 9//29 2.47 1.916666667 VREEVPLELVEAHVKK 739 //8 4//31 0.50075 0.5 VREEVPLELVEAHVKK 739 //8 3//31 0.27625 0.25 RKHSPSPPPPTPTESR 326 //10 9//59 1.004 0.777777778 KVEHEISEGNVATAAAAALASAATKAK 880 //8 3//31 0.5875 0.416666667 VEHEISEGNVATAAAAALASAATKAK 880 //8 3//25 0.4445 0.416666667 VEHEISEGNVATAAAAALASAATKAK 880 1//8 4//31 0.4465 0.5 VEHEISEGNVATAAAAALASAATKAK 880 //8 3//31 0.469 0.416666667 KVEHEISEGNVATAAAAALASAATKAK 880 //8 3//25 0.17 0.25 KVEHEISEGNVATAAAAALASAATKAK 880 1//8 4//31 0.5615 0.5 KVEHEISEGNVATAAAAALASAATKAK 880 //8 3//31 0.5265 0.416666667 KVEHEISEGNVATAAAAALASAATKAK 880 //8 3//31 0.5505 0.416666667 VEHEISEGNVATAAAAALASAATKAK 880 //8 2//31 0.23075 0.166666667 VEHEISEGNVATAAAAALASAATKAK 880 1//8 4//31 0.62425 0.5 PYACDICGKRYK 216 //13 10//58 2.56925 1.5 TDPLEKR 130 1//7 5//33 0.95925 0.714285714 SVTGKIQK 496 //7 6//33 1.19675 0.785714286 SVTGKIQK 496 //7 6//33 0.87125 0.785714286 SVTGKIQK 496 //7 5//33 1.267 1.142857143 SVTGKIQK 496 //7 5//33 0.58 0.714285714 IQKLTKAVATYHANTER 499 1//7 6//36 1.4065 1.416666667 IQKLTKAVATYHANTER 499 1//7 5//36 0.90025 0.833333333 AKDDIKR 15 //8 9//30 1.44225 1.333333333 AKDDIKR 15 //8 8//30 1.641 1.25 VSYKGSPAAR 835 1//7 7//34 1.10875 1 VSYKGSPAAR 835 4//7 12//41 1.7425 2.214285714 VSYKGSPAAR 835 1//7 6//34 0.689 0.785714286 VSYKGSPAAR 835 1//7 5//32 0.5745 0.583333333 VSYKGSPAAR 835 4//11 21//48 6.542 3.277777778 VMAAIEKVR 27 //5 3//22 0.22225 0.3 ITEKLEKQQK 455 //11 13//44 5.07425 2 VSYKGSPAAR 835 1//8 5//28 0.5315 0.75 VSYKGSPAAR 835 //6 6//27 0.89475 1.7 VSYKGSPAAR 835 //5 3//21 0.41 0.625 AKDDIKR 19 //8 9//30 2.2345 1.333333333 KRDSDAGSSTPTTSTR 1414 //9 4//30 1.3105 0.75 AKDDIKR 15 //10 13//41 2.645 1.875 AKDDIKR 15 //10 10//41 1.846 1.571428571 WKYMIVDEGHR 846 1//7 11//34 2.7115 2 WKYMIVDEGHR 846 //7 5//32 0.741 0.714285714 WKYMIVDEGHR 846 //7 6//39 1.331 1.214285714 WKYMIVDEGHR 846 //7 5//39 2.116 1.142857143 WKYMIVDEGHR 846 //7 4//39 0.49725 0.642857143 AKDDIKR 15 2//8 11//29 2.21625 1.833333333 ISYKGTPAMR 805 1//9 5//35 0.1525 0.357142857 EQKAKR 126 //7 7//34 1.21425 1 GQLSWHQKTYAFSENPLPTVEIAIR 324 //7 5//36 1.261 1.142857143 GQLSWHQKTYAFSENPLPTVEIAIR 324 //7 5//36 1.588 1.142857143 GQLSWHQKTYAFSENPLPTVEIAIR 324 //7 6//36 1.369 1.214285714 EQKAKR 124 //7 6//34 1.5095 1.416666667 YKAVSISTEPPTYLR 108 //12 10//59 3.31475 1.136363636 ASEVEEILDGNDEKYKAVSISTEPPTYLR 108 //12 10//72 2.941 1.090909091 YKAVSISTEPPTYLR 108 //12 10//59 4.634 1.636363636 ASEVEEILDGNDEKYKAVSISTEPPTYLR 108 //12 7//72 1.92125 0.772727273 ASEVEEILDGNDEKYK 106 //12 11//58 4.82925 1.409090909 ASEVEEILDGNDEKYK 106 //12 10//58 4.25475 1.227272727 VMAAIEKVR 27 1//8 6//30 0.95375 0.916666667 VMAAIEKVR 27 1//7 4//23 0.4245 0.6 IYKWVPVTEPK 47 1//8 5//29 0.28225 0.416666667 MKEEVPTALVEAHVR 704 1//12 11//59 3.88625 1.363636364 HQGTFTDEKSK 199 //7 9//33 3.074 2.083333333 HQGTFTDEKSK 199 //9 7//33 2.1525 1.416666667 R.RK[1976.06]MADK.V Q6STE5:102 Q92925:139 -.M[1502.75]AADEVAGGAR.K Q6STE5:1 R.KLIDQK[2146]K.D P51531:521 P51532:545 R.EQK[2102.13]AKR.N Q12824:124 R.GSLYK[2085.11]R.Y Q12824:45 R.GSLYK[2085.09]R.Y Q12824:45 R.GSLYK[2258.23]R.Y Q12824:45 R.GSLYK[2631.37]R.Y Q12824:45 R.GSLYK[2085.11]R.Y Q12824:45 R.GSLYK[2648.39]R.Y Q12824:45 R.GSLYK[2085.09]R.Y Q12824:45 R.GSLYK[2085.1]R.Y Q12824:45 R.GSLYK[2648.42]R.Y Q12824:45 R.HQGTFTDEK[1717.93]SK.A Q92922:199 R.K[1717.93]ASANAR.K Q92922:317 R.K[1253.68]PVDFK.K P51531:1445 P51532:1503 R.IEK[1542.77]ER.M P51531:500 P51532:524 R.NHK[3954.84]YR.S P51531:1460 P51532:1518 R.IRNHK[1282.75]YR.S P51531:1460 P51532:1518 R.K[1251.72]ASANAR.K Q92922:317 R.IRNHK[1253.68]YR.S P51531:1460 P51532:1518 R.NHK[1066.61]YR.S P51531:1460 P51532:1518 K.LIDQK[1253.68]K.D P51531:521 P51532:545 K.GGAK[2705.33]TLM[147.04]NTIM[147.04]QLR.K P51531:1003 K.GGAK[2705.35]TLM[147.04]NTIM[147.04]QLR.K P51531:1003 K.EK[2682.31]PVDLQNFGLR.T Q92922:592 K.K[1154.69]VQEAAR.A Q92922:740 R.TDIYSK[1154.69]K.T Q92922:608 R.K[1976.06]MADK.V Q96GM5:127 Q6STE5:102 Q92925:139 R.ASGK[1974.02]FELLDR.I P51531:1051 P51532:1081 K.K[2102.13]NAK.K Q8TAQ2:314 R.NVDK[1808.99]DPAK.E P51531:1354 R.NVDK[1809.02]DPAK.E P51531:1354 R.NVDK[1808.97]DPAK.E P51531:1354 R.NVDK[1808.99]DPAK.E P51531:1354 R.QAFHMEQLK[3281.55]YAEMR.A Q8TAQ2:940 R.Q[111.03]AFHMEQLK[3281.51]YAEMR.A Q8TAQ2:940 R.QAFHMEQLK[3281.54]YAEMR.A Q8TAQ2:940 R.HIFAK[4013.96]VQQR.R Q92925:514 R.HIFAK[4029.97]VQQR.R Q92925:514 R.HIFAK[4029.96]VQQR.R Q92925:514 R.HIFAK[4013.92]VQQR.R Q92925:514 R.HIFAK[4029.97]VQQR.R Q92925:514 R.HIFAK[4029.98]VQQR.R Q92925:514 K.FK[1919.12]SDQGWR.R Q8TAQ2:101 K.AK[1391.8]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.KLEIK[1322.74]LR.H Q8TAQ2:902 Q92922:910 K.LEIK[1450.83]LR.H Q8TAQ2:902 Q92922:910 K.LEIK[1466.82]LR.H Q8TAQ2:902 Q92922:910 K.KLEIK[1450.83]LR.H Q8TAQ2:902 Q92922:910 K.KLEIK[1450.83]LR.H Q8TAQ2:902 Q92922:910 K.LEIK[1322.74]LR.H Q8TAQ2:902 Q92922:910 R.HIFAK[1974.06]VQQR.R Q92925:514 K.SLVALLVETQMK[1735.97]K.L Q8TAQ2:897 Q92922:905 K.SLVALLVETQMK[1735.97]K.L Q8TAQ2:897 Q92922:905 R.K[1740.99]LEAELLQIEER.H Q969G3:240 R.K[1741.02]LEAELLQIEER.H Q969G3:240 K.SLVALLVETQMK[1735.97]K.L Q8TAQ2:897 Q92922:905 R.K[1740.99]LEAELLQIEER.H Q969G3:240 R.K[1740.97]LEAELLQIEER.H Q969G3:240 K.SLVALLVETQMK[1735.97]K.L Q8TAQ2:897 Q92922:905 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[2258.23]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.98]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1736]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1736]LEIK.L Q8TAQ2:898 Q92922:906 R.MQVLK[2138.25]R.Q Q969G3:228 R.MQVLK[2122.27]R.Q Q969G3:228 R.MQVLK[2122.27]R.Q Q969G3:228 R.M[147.04]QVLK[2122.27]R.Q Q969G3:228 R.MQVLK[2138.26]R.Q Q969G3:228 R.MQVLK[2122.27]R.Q Q969G3:228 R.MQVLK[1388.78]R.Q Q969G3:228 R.MQVLK[1388.78]R.Q Q969G3:228 R.K[1039.62]TKVER.D Q8TAQ2:846 R.MQVLK[2349.29]R.Q Q969G3:228 R.MQVLK[2349.29]R.Q Q969G3:228 R.MQVLK[2349.29]R.Q Q969G3:228 R.MQVLK[2349.29]R.Q Q969G3:228 R.MQVLK[2349.29]R.Q Q969G3:228 R.MQVLK[2349.29]R.Q Q969G3:228 R.MQVLK[2349.29]R.Q Q969G3:228 R.MQVLK[2349.29]R.Q Q969G3:228 R.MQVLK[2349.29]R.Q Q969G3:228 R.MQVLK[2349.29]R.Q Q969G3:228 R.HQEK[1164.76]K.R Q969G3:255 R.HQEK[1164.76]KR.K Q969G3:255 K.KLEIK[1246.7]LR.H Q8TAQ2:902 Q92922:910 K.LEIK[1090.62]LR.H Q8TAQ2:902 Q92922:910 K.LEIK[1246.71]LR.H Q8TAQ2:902 Q92922:910 K.K[284.17]LEIK[1735.97]LR.H Q8TAQ2:902 Q92922:910 K.NYK[2705.51]KYIQAEPPTNK.S Q8TAQ2:36 R.K[2510.38]VEEAAK.V Q8TAQ2:718 R.K[1725.01]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1725.01]LDQTIMR.K Q96GM5:156 Q6STE5:131 K.SLVALLVETQMK[2510.38]K.L Q8TAQ2:897 Q92922:905 K.THK[2029.95]LQDPHER.E Q96GM5:327 K.THK[2029.99]LQDPHER.E Q96GM5:327 K.THK[2029.96]LQDPHER.E Q96GM5:327 K.THK[2046.96]LQDPHER.E Q96GM5:327 K.THK[2029.95]LQDPHER.E Q96GM5:327 K.THK[2029.96]LQDPHER.E Q96GM5:327 R.Q[111.03]AFHMEQLK[2468.2]YAEMR.A Q8TAQ2:940 K.LEIK[1336.75]LR.H Q8TAQ2:902 Q92922:910 R.HQEK[1818.96]K.R Q969G3:255 R.HQEK[1818.96]K.R Q969G3:255 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.K[3260.39]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[3260.39]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[3260.39]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[3260.39]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[3260.39]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[3276.42]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[2510.38]LEAELLQIEER.H Q969G3:240 R.K[2510.38]LEAELLQIEER.H Q969G3:240 R.K[2510.38]LEAELLQIEER.H Q969G3:240 R.K[2510.38]LEAELLQIEER.H Q969G3:240 R.K[2510.38]LEAELLQIEER.H Q969G3:240 R.K[2510.38]LEAELLQIEER.H Q969G3:240 R.K[2510.38]LEAELLQIEER.H Q969G3:240 K.AYHNSPAYLAYINAK[2510.38]SR.A Q969G3:146 R.GK[2510.35]GEITPAAIQK.M Q15532:13 R.GK[2510.33]GEITPAAIQK.M Q15532:13 K.SSEAIK[1964.95]ESSK.F O14497:1934 K.SSEAIK[1964.98]ESSK.F O14497:1934 K.FLESTDSFNNELK[2655.37]RLC[160.03]GLK.V Q969G3:271 K.FLESTDSFNNELK[2655.37]R.L Q969G3:271 K.SSEAIK[2093.08]ESSK.F O14497:1934 K.SSEAIK[2093.08]ESSK.F O14497:1934 K.AYHNSPAYLAYINAK[2348.27]SR.A Q969G3:146 R.MQVLK[3064.51]R.Q Q969G3:228 R.MQVLK[3064.51]R.Q Q969G3:228 R.LTMK[3260.39]DIGTPEAWR.V O14497:1662 R.LTMK[3260.39]DIGTPEAWR.V O14497:1662 R.LTMK[2204.14]DIGTPEAWR.V O14497:1662 R.LTMK[2204.14]DIGTPEAWR.V O14497:1662 R.LTMK[2204.14]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.14]DIGTPEAWR.V O14497:1662 R.LTMK[2204.14]DIGTPEAWR.V O14497:1662 R.LTMK[2204.14]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.14]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.14]DIGTPEAWR.V O14497:1662 R.RLTM[147.04]K[2204.13]DIGTPEAWR.V O14497:1662 R.RLTM[147.04]K[2204.13]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.14]DIGTPEAWR.V O14497:1662 R.RLTM[147.04]K[2204.14]DIGTPEAWR.V O14497:1662 R.LTM[147.04]K[2204.1]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.09]DIGTPEAWR.V O14497:1662 R.LTM[147.04]K[2204.14]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.14]DIGTPEAWR.V O14497:1662 R.LTMK[2204.14]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.14]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.13]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.14]DIGTPEAWR.V O14497:1662 R.LTMK[2204.14]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.14]DIGTPEAWR.V O14497:1662 R.RLTMK[2204.14]DIGTPEAWR.V O14497:1662 R.MQVLK[2040.04]R.Q Q969G3:228 R.MQVLK[2655.37]R.Q Q969G3:228 R.KFLESTDSFNNELK[2655.37]R.L Q969G3:271 R.K[3260.39]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2204.14]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2204.14]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2204.14]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1167.67]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[3673.85]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[3673.85]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[3673.85]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[3673.84]LDQTIM[147.04]R.K Q96GM5:156 Q6STE5:131 R.K[3673.85]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.MSYEPNK[2510.38]DPYGSMR.K O14497:1230 R.MSYEPNK[2510.38]DPYGSMR.K O14497:1230 R.MSYEPNK[2510.38]DPYGSMR.K O14497:1230 R.RDITFPPGSVEATQPVLK[2510.38]QR.R O14497:1654 R.RDITFPPGSVEATQPVLK[2510.38]QR.R O14497:1654 R.RDITFPPGSVEATQPVLK[2510.38]QR.R O14497:1654 R.RDITFPPGSVEATQPVLK[2510.38]QR.R O14497:1654 R.DITFPPGSVEATQPVLK[2510.38]QR.R O14497:1654 R.DITFPPGSVEATQPVLK[2510.32]QR.R O14497:1654 R.K[1504.83]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1504.83]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1504.83]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1520.82]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1504.83]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1520.82]LDQTIM[147.04]R.K Q96GM5:156 Q6STE5:131 R.K[1520.83]LDQTIM[147.04]R.K Q96GM5:156 Q6STE5:131 R.K[1504.83]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[1520.82]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1504.83]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[1504.83]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1520.82]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[1504.82]LDQTIM[147.04]R.K Q96GM5:156 Q6STE5:131 R.K[1504.83]LDQTIM[147.04]RK.R Q96GM5:156 Q6STE5:131 R.K[1520.83]LDQTIM[147.04]RK.R Q96GM5:156 Q6STE5:131 R.K[1520.81]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[2762.24]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[2762.24]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.LTMK[2510.38]DIGTPEAWR.V O14497:1662 R.LTMK[2510.38]DIGTPEAWR.V O14497:1662 R.RLTMK[2510.38]DIGTPEAWR.V O14497:1662 R.LTMK[2510.38]DIGTPEAWR.V O14497:1662 R.LTMK[2510.38]DIGTPEAWR.V O14497:1662 R.LTMK[2510.32]DIGTPEAWR.V O14497:1662 R.RLTMK[2510.38]DIGTPEAWR.V O14497:1662 R.RLTM[147.04]K[2510.38]DIGTPEAWR.V O14497:1662 R.LTMK[2510.38]DIGTPEAWR.V O14497:1662 R.LTMK[2510.38]DIGTPEAWR.V O14497:1662 R.K[2040.04]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[2040.04]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.38]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2510.35]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1336.75]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1464.81]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1260.72]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1260.72]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1260.71]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1260.71]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1260.72]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1260.69]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.NHNAK[1038.57]K.K Q96GM5:124 R.NHNAK[1656.88]K.K Q96GM5:124 R.K[1260.72]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.NHNAK[1038.56]K.K Q96GM5:124 R.K[1104.64]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.NHNAK[1038.56]K.K Q96GM5:124 R.FLSDRK[1689.02]NPVC[160.03]R.E O14497:2159 R.K[1689.02]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1506.89]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1689.02]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1689.02]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1689.02]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1689.02]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2538.2]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 K.SSEAIK[1388.78]ESSK.F O14497:1934 K.AK[4304.94]HLAAVEER.K Q8TAQ2:874 Q92922:882 R.K[1545.86]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1388.78]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1388.74]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1036.66]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1164.76]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 K.SALEEFSK[3064.54]MKEEVPTALVEAHVR.K Q8TAQ2:702 R.VASAAAK[3064.51]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[3064.51]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[3064.51]SALEEFSK.M Q8TAQ2:694 K.SK[3064.51]AAASATR.E Q8TAQ2:592 K.SK[3064.51]AAASATR.E Q8TAQ2:592 K.SK[3064.51]AAASATR.E Q8TAQ2:592 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.K[2908.41]VEEAAK.V Q8TAQ2:718 R.TDMYTK[3064.51]K.N Q8TAQ2:584 R.TDMYTK[3064.51]K.N Q8TAQ2:584 K.AK[3220.56]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3220.57]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3220.58]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[2908.41]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.5]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3220.57]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[2908.41]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[2908.41]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[2908.41]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3220.56]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3220.61]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.5]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3220.6]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.K[3064.51]VEEAAK.V Q8TAQ2:718 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3220.58]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3220.55]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3064.51]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[3220.6]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.EK[284.17]TSEAPK[2918.44]K.D Q8TAQ2:795 K.SK[3999.01]AAASATR.E Q8TAQ2:592 K.SK[3999.01]AAASATR.E Q8TAQ2:592 R.TDMYTK[284.17]K[3998.98]NVPSK.S Q8TAQ2:585 K.K[3998.99]NVPSK.S Q8TAQ2:585 R.TDMYTK[3999.01]K.N Q8TAQ2:584 R.TDMYTK[3999.01]K.N Q8TAQ2:584 R.TDMYTK[3999.01]K.N Q8TAQ2:584 R.TDMYTK[3999.03]K[284.17]NVPSK.S Q8TAQ2:584 R.TDMYTK[3999.01]K.N Q8TAQ2:584 R.TDMYTK[3999.01]K.N Q8TAQ2:584 K.SK[1498.72]AAASATR.E Q8TAQ2:592 R.RK[1038.57]MADK.V Q6STE5:102 Q92925:139 R.K[1692.96]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1708.96]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1336.75]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1708.95]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1492.87]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1692.96]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1708.95]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1692.96]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1708.96]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1708.95]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.DPK[3474.8]GYVQDLLR.S Q6STE5:417 K.QQK[2671.39]IEQER.K P51531:437 P51532:461 R.WK[2655.41]YMIVDEGHR.M P51531:846 P51532:876 R.K[982.53]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1272.71]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2040.09]PLDLYR.L O14497:1047 R.K[2040.09]PLDLYR.L O14497:1047 R.K[1480.7]PLDLYR.L O14497:1047 R.K[2040.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1480.7]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1496.71]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1512.68]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1496.69]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 K.TFGQK[3064.51]PVK.F Q12824:13 K.TFGQK[3064.51]PVK.F Q12824:13 K.TFGQK[3064.51]PVK.F Q12824:13 R.GSLYK[1169.67]R.Y Q12824:45 K.TFGQK[3064.51]PVK.F Q12824:13 K.SK[2511.29]GASAGR.E Q92922:615 K.SK[3064.51]GASAGR.E Q92922:615 K.SK[3064.51]GASAGR.E Q92922:615 K.K[3064.51]VQEAAR.A Q92922:740 K.K[3064.51]VQEAAR.A Q92922:740 K.K[3064.51]VQEAAR.A Q92922:740 K.K[3064.51]VQEAAR.A Q92922:740 K.K[3064.51]VQEAAR.A Q92922:740 K.K[3064.51]VQEAAR.A Q92922:740 K.K[3220.6]VQEAAR.A Q92922:740 K.K[3064.46]VQEAAR.A Q92922:740 K.K[3064.51]VQEAAR.A Q92922:740 K.K[3064.51]VQEAAR.A Q92922:740 K.K[3064.47]VQEAAR.A Q92922:740 R.VASAAAK[3064.51]AALEEFSR.V Q92922:716 R.VASAAAK[3064.51]AALEEFSR.V Q92922:716 R.VASAAAK[3220.58]AALEEFSR.V Q92922:716 R.VASAAAK[3220.6]AALEEFSR.V Q92922:716 R.VASAAAK[3064.51]AALEEFSR.V Q92922:716 R.VASAAAK[3064.51]AALEEFSR.V Q92922:716 R.VASAAAK[3064.51]AALEEFSR.V Q92922:716 R.VASAAAK[3220.61]AALEEFSR.V Q92922:716 R.VASAAAK[3220.61]AALEEFSR.V Q92922:716 R.VASAAAK[3220.58]AALEEFSR.V Q92922:716 K.K[3353.77]YVHADAPTNK.T Q92922:65 R.K[982.56]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1038.58]ASANAR.K Q92922:317 K.K[3999.01]TLAK.S Q92922:609 K.K[3998.96]TLAK.S Q92922:609 K.K[3999]TLAK.S Q92922:609 K.K[3999.01]TLAK.S Q92922:609 K.SK[3999]GASAGR.E Q92922:615 K.SK[3999.02]GASAGR.E Q92922:615 K.SK[3999.01]GASAGR.E Q92922:615 K.SK[3998.95]GASAGR.E Q92922:615 R.TDIYSK[3999.01]K.T Q92922:608 R.TDIYSK[3999]K.T Q92922:608 R.TDIYSK[3999.01]K[284.17]TLAK.S Q92922:608 R.TDIYSK[3999]K[284.17]TLAK.S Q92922:608 R.TDIYSK[3999.01]K.T Q92922:608 R.TDIYSK[3998.99]K[284.17]TLAK.S Q92922:608 R.TDIYSK[3998.97]K[284.17]TLAK.S Q92922:608 R.TDIYSK[3999.01]K.T Q92922:608 K.K[3999]VQEAAR.A Q92922:740 R.K[1542.77]PLDLYR.L O14497:1047 R.K[1542.77]PLDLYR.L O14497:1047 R.K[1477.85]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1477.85]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.GK[1939.88]GEITPAAIQK.M Q15532:13 K.GK[3739.99]GVGSAR.K Q92785:188 K.LISK[2768.27]FDKLPVK.I O14497:1808 K.LISK[2768.27]FDKLPVK.I O14497:1808 K.LISK[2768.27]FDKLPVK.I O14497:1808 K.LISK[2768.27]FDKLPVK.I O14497:1808 K.LISK[2768.27]FDKLPVK.I O14497:1808 K.LISK[2768.23]FDKLPVK.I O14497:1808 K.LISK[2768.27]FDKLPVK.I O14497:1808 K.LISK[2768.27]FDKLPVK.I O14497:1808 R.LTMK[2081.14]DIGTPEAWR.V O14497:1662 R.TDPLEK[1939.03]R.G Q92785:130 R.TDPLEK[1782.93]R.G Q92785:130 R.TDPLEK[1939.03]R.G Q92785:130 R.DLK[3474.73]IITDVIGNPEEERR.A Q92925:480 R.DLK[3474.73]IITDVIGNPEEERR.A Q92925:480 R.DLK[3474.72]IITDVIGNPEEERR.A Q92925:480 R.K[1504.83]LDQTIAR.K Q92925:168 R.K[1504.83]LDQTIAR.K Q92925:168 R.K[1504.83]LDQTIAR.K Q92925:168 R.K[1504.83]LDQTIARK.R Q92925:168 R.K[1520.82]LDQTIAR.K Q92925:168 R.K[1520.83]LDQTIAR.K Q92925:168 R.K[1504.83]LDQTIARK.R Q92925:168 R.K[2040.04]LDQTIAR.K Q92925:168 R.K[2040.04]LDQTIAR.K Q92925:168 R.K[2040.04]LDQTIAR.K Q92925:168 R.K[3673.85]LDQTIAR.K Q92925:168 R.K[3673.85]LDQTIAR.K Q92925:168 R.K[1450.83]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.19]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.FLSDRK[2078.19]NPVC[160.03]R.E O14497:2159 R.K[2094.19]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.19]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.16]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2094.19]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.18]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.19]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.17]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1938.08]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.19]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.17]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.FLSDRK[1922.09]NPVC[160.03]R.E O14497:2159 R.K[2094.19]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.17]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.19]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1938.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.06]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.05]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.06]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1938.06]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.FLSDRK[1922.09]NPVC[160.03]R.E O14497:2159 R.K[1938.12]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1526.84]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2094.18]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1938.07]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1322.74]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1450.83]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1466.83]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 K.K[1848.01]VMAAIEK.V Q9BQE9:20 R.EQK[1154.67]AKR.N Q12824:124 K.EITALAPSTMK[284.17]IK[3150.7]IIAPPER.K P60709:328 K.EITALAPSTMK[284.17]IK[3150.6]IIAPPER.K P60709:328 R.KEK[1813.92]LPQVTR.S O96019:242 R.E[111.03]GSPANWK[1829.97]R.K O96019:238 R.EGSPANWK[1829.95]R.K O96019:238 R.EGSPANWK[1829.96]R.K O96019:238 R.E[111.03]GSPANWK[1829.96]R.K O96019:238 R.E[111.03]GSPANWK[1845.96]R.K O96019:238 R.E[111.03]GSPANWK[2227.19]R.K O96019:238 R.IYK[2560.4]WVPVTEPK.V Q4VC05:47 K.GK[2928.41]DEK.C Q4VC05:67 R.AK[2928.4]DDIK[284.17]R.V Q4VC05:15 R.IFK[2560.4]WVPVVDPQEEER.R Q8WUZ0:47 R.K[2616.47]DLYANTVLSGGSTMYPGIADR.M Q562R1:292 R.K[2616.44]DLYANTVLSGGSTMYPGIADR.M Q562R1:292 R.K[2616.43]DLYANTVLSGGSTMYPGIADR.M Q562R1:292 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[4350.28]R.G Q562R1:62 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[4350.2]R.G Q562R1:62 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[4506.33]R.G Q562R1:62 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[4350.26]R.G Q562R1:62 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[4350.2]R.G Q562R1:62 R.GILTLK[3001.45]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[4350.26]R.G Q562R1:62 R.GILTLK[3001.49]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.GILTLK[3001.44]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.HQGVMVGMGQK[284.17]DC[160.03]YVGDEAQSK[4350.21]R.G Q562R1:62 R.HQGVMVGM[147.04]GQK[4350.26]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 R.HQGVMVGMGQK[4350.28]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 R.GILTLK[3001.44]YPIEHGIVTNWDDMEK.I P60709:68 R.HQGVMVGMGQK[4506.4]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 R.HQGVMVGM[147.04]GQK[4506.35]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 R.GILTLK[3017.46]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.GILTLK[3001.49]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.GILTLK[3001.44]YPIEHGIVTNWDDMEK.I P60709:68 R.GILTLK[3001.5]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.GILTLK[3017.44]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.GILTLK[3001.48]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.HQGVMVGMGQK[2993.57]DC[160.03]YVGDEAQSKR.G Q562R1:51 R.MK[284.17]NHHC[160.03]K[2928.49]LTQVLNTHYVAPR.R P51531:862 P51532:892 R.WK[2772.32]YM[147.04]IVDEGHRM[147.04]K.N P51531:846 P51532:876 K.EITALAPSTMK[1698.86]IK.I P60709:326 R.K[2853.48]ELPEYYELIR.K P51531:1434 P51532:1492 K.Q[111.03]QK[5000.52]IEQER.K P51531:437 P51532:461 R.WK[2608.32]YMIVDEGHR.M P51531:846 P51532:876 R.WK[2608.32]YMIVDEGHR.M P51531:846 P51532:876 R.WK[2608.32]YMIVDEGHR.M P51531:846 P51532:876 R.WK[2624.32]YMIVDEGHR.M P51531:846 P51532:876 R.WK[2608.32]YMIVDEGHR.M P51531:846 P51532:876 R.WK[2608.32]YMIVDEGHR.M P51531:846 P51532:876 K.IRWK[2608.32]YMIVDEGHR.M P51531:846 P51532:876 R.WK[2608.32]YMIVDEGHR.M P51531:846 P51532:876 R.WK[2608.32]YMIVDEGHR.M P51531:846 P51532:876 R.WK[2608.25]YM[147.04]IVDEGHR.M P51531:846 P51532:876 R.WK[2624.35]YMIVDEGHR.M P51531:846 P51532:876 K.IVASSHGK[1209.69]K.T Q12824:70 R.GSLYK[1391.8]R.Y Q12824:45 R.DPK[3518.83]GYVQDLLR.S Q6STE5:417 K.K[2072.05]IR.D Q12824:364 K.K[2055.04]IR.D Q12824:364 K.K[2072.05]IR.D Q12824:364 K.K[2072.05]IR.D Q12824:364 K.K[2088.08]IR.D Q12824:364 K.K[1253.68]IRDQDR.N Q12824:364 R.GSLYK[1542.77]R.Y Q12824:45 R.GSLYK[1066.61]R.Y Q12824:45 K.DDWNK[2930.37]VSEHVGSR.T Q8TAQ2:622 Q92922:644 R.LK[1931.95]LIANNTTVERR.F O96019:379 K.TPPSM[147.04]RLK[2549.3]LIANNTTVER.R O96019:379 K.VSYK[1793.05]GSPAAR.R P51532:835 K.VSYK[1636.95]GSPAAR.R P51532:835 K.VSYK[1793.05]GSPAAR.R P51532:835 K.AEDRGMLLK[3646.73]TFNEPGSEYFIFLLSTR.A P51532:1140 R.LK[1998.07]IPEGLFDPSNVK.G O96019:303 R.ELSQK[1717.93]TPPSMR.L O96019:371 R.ELSQK[1717.93]TPPSMR.L O96019:371 R.ELSQK[2085.03]TPPSMR.L O96019:371 R.ELSQK[2085.03]TPPSMR.L O96019:371 R.ELSQK[2085.03]TPPSMR.L O96019:371 R.ELSQK[2085.03]TPPSMR.L O96019:371 R.LNRELSQK[2112.95]TPPSMR.L O96019:371 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2631.36]LIANNTTVER.R O96019:379 R.LK[2631.36]LIANNTTVER.R O96019:379 R.LK[2236.12]LIANNTTVERR.F O96019:379 R.LK[2631.38]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVERR.F O96019:379 R.LK[2821.42]LIANNTTVER.R O96019:379 R.LK[2648.4]LIANNTTVER.R O96019:379 R.LK[2631.36]LIANNTTVERR.F O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2631.39]LIANNTTVER.R O96019:379 R.LK[2631.35]LIANNTTVERR.F O96019:379 R.LK[2648.42]LIANNTTVER.R O96019:379 R.LK[2821.44]LIANNTTVERR.F O96019:379 R.LK[2631.36]LIANNTTVER.R O96019:379 R.LK[2631.37]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2631.41]LIANNTTVERR.F O96019:379 R.LK[2648.42]LIANNTTVER.R O96019:379 R.LK[2475.27]LIANNTTVER.R O96019:379 R.LK[2631.36]LIANNTTVER.R O96019:379 R.LK[2648.4]LIANNTTVER.R O96019:379 R.LK[2648.38]LIANNTTVER.R O96019:379 R.LK[2492.32]LIANNTTVER.R O96019:379 R.LK[2821.38]LIANNTTVER.R O96019:379 R.LK[2821.39]LIANNTTVER.R O96019:379 R.LK[2631.38]LIANNTTVERR.F O96019:379 R.LK[2648.41]LIANNTTVER.R O96019:379 R.LK[2631.38]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2648.38]LIANNTTVERR.F O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2821.39]LIANNTTVERR.F O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2492.32]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2648.4]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2631.36]LIANNTTVERR.F O96019:379 R.LK[2475.26]LIANNTTVERR.F O96019:379 R.LK[2236.1]LIANNTTVERR.F O96019:379 R.LK[2821.43]LIANNTTVERR.F O96019:379 R.LK[2821.44]LIANNTTVERR.F O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2492.32]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2821.4]LIANNTTVERR.F O96019:379 R.LK[2492.32]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVERR.F O96019:379 R.LK[2631.37]LIANNTTVERR.F O96019:379 R.LK[2648.41]LIANNTTVERR.F O96019:379 R.LK[2648.35]LIANNTTVERR.F O96019:379 R.LK[2648.36]LIANNTTVER.R O96019:379 R.LK[2821.36]LIANNTTVER.R O96019:379 R.LK[2492.26]LIANNTTVER.R O96019:379 R.LK[2492.32]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVERR.F O96019:379 R.LK[2475.28]LIANNTTVERR.F O96019:379 R.LK[2821.43]LIANNTTVERR.F O96019:379 R.LK[2492.32]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 K.DFK[1793.05]EYHR.S P51531:463 P51532:487 K.DFK[1793.05]EYHR.S P51531:463 P51532:487 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 K.DFK[1636.92]EYHR.S P51531:463 P51532:487 K.DFK[1793.05]EYHR.S P51531:463 P51532:487 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 K.DFK[1636.92]EYHR.S P51531:463 P51532:487 K.DFK[1793.05]EYHR.S P51531:463 P51532:487 K.DFK[1793.05]EYHR.S P51531:463 P51532:487 K.DFK[1793.02]EYHR.S P51531:463 P51532:487 R.LK[2977.5]LIANNTTVER.R O96019:379 K.DFK[1793.02]EYHR.S P51531:463 P51532:487 K.DFK[1793.02]EYHR.S P51531:463 P51532:487 R.LK[1717.93]LIANNTTVER.R O96019:379 R.LK[1698.86]LIANNTTVER.R O96019:379 R.IRNHK[1519.87]YR.S P51531:1460 P51532:1518 K.DKPASENSEEK[3885.98]LISK.F O14497:1804 K.Q[111.03]EYEEGGK[2671.41]QC[160.03]VER.K O96019:421 K.Q[111.03]EYEEGGK[2671.4]QC[160.03]VER.K O96019:421 K.Q[111.03]EYEEGGK[2671.37]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.Q[111.03]EYEEGGK[2671.33]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.4]QC[160.03]VER.K O96019:421 K.Q[111.03]EYEEGGK[2671.38]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.33]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.36]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.Q[111.03]EYEEGGK[2671.32]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.Q[111.03]EYEEGGK[2671.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.32]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.Q[111.03]EYEEGGK[2671.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.Q[111.03]EYEEGGK[2671.4]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.4]QC[160.03]VER.K O96019:421 K.Q[111.03]EYEEGGK[2671.39]QC[160.03]VER.K O96019:421 R.K[1538.81]PLDLYR.L O14497:1047 R.ELSQK[2538.2]TPPSMR.L O96019:371 R.ELSQK[1939.88]TPPSMR.L O96019:371 R.ELSQK[1939.94]TPPSMR.L O96019:371 R.ELSQK[2204.14]TPPSMR.L O96019:371 R.ELSQK[2204.14]TPPSMR.L O96019:371 R.LK[2204.14]LIANNTTVER.R O96019:379 R.LK[2204.14]LIANNTTVERR.F O96019:379 R.LK[2204.14]LIANNTTVERR.F O96019:379 R.LK[2204.14]LIANNTTVER.R O96019:379 R.LK[2204.14]LIANNTTVER.R O96019:379 R.LK[2204.14]LIANNTTVERR.F O96019:379 R.LK[2204.09]LIANNTTVER.R O96019:379 R.LK[2204.14]LIANNTTVERR.F O96019:379 R.LK[2204.14]LIANNTTVER.R O96019:379 R.LK[2204.14]LIANNTTVERR.F O96019:379 R.LK[2204.1]LIANNTTVER.R O96019:379 K.TPPSMRLK[2549.32]LIANNTTVER.R O96019:379 K.TPPSM[147.04]RLK[2549.32]LIANNTTVER.R O96019:379 K.TPPSMRLK[2565.31]LIANNTTVER.R O96019:379 R.EK[1636.95]EAAEQAER.S Q969G3:305 K.TPPSM[147.04]RLK[2958.5]LIANNTTVER.R O96019:379 K.ASNPDLK[1822.02]LWEIGK.I Q969G3:92 K.EK[1618.89]LPQVTR.S O96019:242 R.KEK[1490.79]LPQVTR.S O96019:242 R.KEK[2205.13]LPQVTR.S O96019:242 R.Q[111.03]AFHMEQLK[4833.52]YAEMR.A Q8TAQ2:940 R.Q[111.03]AFHMEQLK[4833.46]YAEMR.A Q8TAQ2:940 R.QAFHMEQLK[4833.48]YAEMR.A Q8TAQ2:940 R.QAFHMEQLK[4833.48]YAEMR.A Q8TAQ2:940 R.QAFHMEQLK[4833.48]YAEMR.A Q8TAQ2:940 K.TPPSMRLK[2565.33]LIANNTTVER.R O96019:379 K.TPPSM[147.04]RLK[2547.33]LIANNTTVER.R O96019:379 K.TPPSMRLK[2547.34]LIANNTTVER.R O96019:379 K.TPPSM[147.04]RLK[2547.28]LIANNTTVER.R O96019:379 K.IK[2322.23]SLVALLVETQMK[284.17]K.L Q8TAQ2:885 Q92922:893 K.THK[1859.84]LQDPHER.E Q96GM5:327 K.THK[1859.83]LQDPHER.E Q96GM5:327 K.THK[1876.86]LQDPHER.E Q96GM5:327 K.THK[1876.83]LQDPHER.E Q96GM5:327 K.THK[1876.86]LQDPHER.E Q96GM5:327 K.THK[1859.83]LQDPHER.E Q96GM5:327 K.THK[1987.94]LQDPHER.E Q96GM5:327 K.THK[1876.86]LQDPHER.E Q96GM5:327 K.THK[1987.92]LQDPHER.E Q96GM5:327 R.MK[4833.49]FSEIPQR.L Q96GM5:353 K.THK[2795.41]LQDPHER.E Q96GM5:327 K.THK[2795.41]LQDPHER.E Q96GM5:327 K.THK[2795.34]LQDPHER.E Q96GM5:327 K.THK[2795.41]LQDPHER.E Q96GM5:327 K.THK[2811.4]LQDPHER.E Q96GM5:327 K.THK[2811.47]LQDPHER.E Q96GM5:327 K.THK[2795.41]LQDPHER.E Q96GM5:327 R.M[147.04]SPSKSPFLPSMK[2793.4]MQK.V Q8NFD5:1566 R.ELSQK[4426.14]TPPSMR.L O96019:371 R.ELSQK[4270.04]TPPSMR.L O96019:371 R.ELSQK[1624.79]TPPSMR.L O96019:371 K.EK[2087.96]LPQVTR.S O96019:242 R.TDPLEK[1636.95]R.G Q92785:130 R.TDPLEK[1793.05]R.G Q92785:130 K.SK[284.17]GK[1636.91]GVGSAR.K Q92785:188 R.LK[4125.94]LIANNTTVER.R O96019:379 R.GSLYK[2795.41]R.Y Q12824:45 R.GSLYK[2795.41]R.Y Q12824:45 R.EQK[1538.81]AK[284.17]R.N Q12824:124 R.EQK[1538.8]AKR.N Q12824:124 K.GK[3071.5]QGGPTYYIDTNALR.V O96019:62 K.GK[3071.5]QGGPTYYIDTNALR.V O96019:62 R.GSLYK[1793.05]R.Y Q12824:45 R.EQK[1636.95]AK[284.17]R.N Q12824:124 R.EQK[1793.04]AK[284.17]R.N Q12824:124 R.EGSPANWK[1420.84]R.K O96019:238 R.EGSPANWK[1420.84]R.K O96019:238 R.QNFHMEQLK[4833.48]YAELR.A Q92922:948 R.QNFHMEQLK[4833.48]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[4833.5]YAELR.A Q92922:948 R.QNFHMEQLK[4833.48]YAELR.A Q92922:948 R.QNFHMEQLK[4833.48]YAELR.A Q92922:948 R.QNFHMEQLK[4833.48]YAELR.A Q92922:948 R.QNFHMEQLK[4833.48]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[3646.74]YAELR.A Q92922:948 R.QNFHMEQLK[2795.41]YAELR.A Q92922:948 R.QNFHMEQLK[2795.41]YAELR.A Q92922:948 R.QNFHMEQLK[2795.41]YAELR.A Q92922:948 R.ELSQK[1542.77]TPPSMR.L O96019:371 R.LK[3283.57]LIANNTTVER.R O96019:379 R.HQGTFTDEK[1636.95]SK.A Q92922:199 R.EK[1930.01]EALEQQR.Q Q92922:925 R.K[2030.11]ASANAR.K Q92922:317 R.K[2030.14]ASANAR.K Q92922:317 R.LK[1542.77]GGR.R P51532:1610 K.K[1217.75]VQEAAR.A Q92922:740 R.TDIYSK[1665.01]K.T Q92922:608 R.TDIYSK[1664.98]K.T Q92922:608 K.K[1168.71]TLAK.S Q92922:609 K.K[1168.71]TLAK.S Q92922:609 K.SK[1665]GASAGR.E Q92922:615 K.SK[1664.99]GASAGR.E Q92922:615 K.SK[1168.71]GASAGR.E Q92922:615 K.K[1168.71]VQEAAR.A Q92922:740 K.K[1542.77]SSR.K P51532:1408 R.DRK[1300.71]ASANAR.K Q92922:317 K.VSYK[1542.77]GSPAAR.R P51532:835 K.IQK[1542.77]LTK.A P51532:499 R.K[1971.99]ASANAR.K Q92922:317 K.K[1931.95]VQEAAR.A Q92922:740 R.K[1508.93]ASANAR.K Q92922:317 K.ATIELK[1680.92]ALR.L P51532:405 R.TKATIELK[1923.06]ALR.L P51532:405 K.ATIELK[1923.06]ALR.L P51532:405 R.TKATIELK[2292.19]ALR.L P51532:405 R.TKATIELK[2292.19]ALR.L P51532:405 K.ATIELK[2292.19]ALR.L P51532:405 K.ATIELK[2292.19]ALR.L P51532:405 K.ATIELK[2292.19]ALR.L P51532:405 R.ITEK[2510.38]LEK.Q P51532:455 R.ITEK[2510.38]LEK.Q P51532:455 R.GQPLPDHLQMAVQGK[2510.38]R.P P51532:207 R.K[2510.38]RDSDAGSSTPTTSTR.S P51532:1414 R.K[2998.44]LRIFISNTFNPAK.S Q96GM5:181 R.YNQMK[2510.38]GMGMR.S P51532:94 R.YNQMK[2510.38]GMGMR.S P51532:94 R.K[1930.04]M[147.04]ADK.V Q96GM5:127 Q6STE5:102 Q92925:139 R.K[1930.05]MADK.V Q96GM5:127 Q6STE5:102 Q92925:139 R.NHNAK[1930.05]K.K Q96GM5:124 R.NHNAK[1930.05]K.K Q96GM5:124 R.NHNAK[1773.95]K.K Q96GM5:124 R.NHNAK[1930.05]K.K Q96GM5:124 R.NHNAK[1930.05]K.K Q96GM5:124 R.ITPIQK[2510.38]PR.G P51532:357 R.ITPIQK[2510.38]PR.G P51532:357 R.ITPIQK[2510.38]PR.G P51532:357 R.ITPIQK[2510.38]PR.G P51532:357 K.ATIELK[4013.97]ALR.L P51532:405 R.TKATIELK[4013.97]ALR.L P51532:405 R.TKATIELK[1700.86]ALR.L P51532:405 R.TKATIELK[1700.86]ALR.L P51532:405 M.A[1983.04]VRK.K Q8TAQ2:2 R.TDMYTK[1168.71]K.N Q8TAQ2:584 R.TDMYTK[1168.71]K.N Q8TAQ2:584 K.SK[1168.71]AAASATR.E Q8TAQ2:592 K.MK[4437.31]EEVPTALVEAHVR.K Q8TAQ2:704 K.MK[4437.31]EEVPTALVEAHVR.K Q8TAQ2:704 K.MK[4437.31]EEVPTALVEAHVR.K Q8TAQ2:704 M.A[1872.99]VRK.K Q8TAQ2:2 M.A[1872.99]VRK.K Q8TAQ2:2 R.LK[2269.14]GGR.R P51532:1610 R.ITEK[3260.39]LEK.Q P51532:455 R.ITEK[3260.39]LEK.Q P51532:455 R.ITEK[3260.4]LEK[284.17]QQK.I P51532:455 R.ITEK[3260.38]LEK[284.17]QQK.I P51532:455 R.ITEK[3276.34]LEK[284.17]QQK.I P51532:455 R.GQPLPDHLQMAVQGK[2204.14]R.P P51532:207 R.YNQMK[1735.94]GMGMR.S P51532:94 R.EQK[1125.68]AKR.N Q12824:124 R.Q[111.03]KK[1024.63]SSR.K P51532:1408 K.K[1370.7]IRDQDR.N Q12824:364 K.IQK[1180.68]LTK.A P51532:499 K.IQK[1024.6]LTK.A P51532:499 R.EQK[1300.72]AK[284.17]R.N Q12824:124 R.EQK[1300.71]AKR.N Q12824:124 R.EQK[1048.6]AKR.N Q12824:124 R.RK[1930.05]MADK.V Q6STE5:102 Q92925:139 R.RK[1930.04]MADK.V Q6STE5:102 Q92925:139 R.RK[1930.05]MADK.V Q6STE5:102 Q92925:139 R.RK[1930.05]MADK.V Q6STE5:102 Q92925:139 R.RK[1930.05]MADK.V Q6STE5:102 Q92925:139 R.DPK[1931.93]GYVQDLLR.S Q6STE5:417 R.YNQMK[1744.96]GMGMR.S P51532:94 R.YNQMK[1744.97]GMGMR.S P51532:94 R.KEK[2501.36]LPQVTR.S O96019:242 R.KEK[2501.32]LPQVTR.S O96019:242 R.KEK[1876]LPQVTR.S O96019:242 R.KEK[2501.36]LPQVTR.S O96019:242 R.KEK[1891.99]LPQVTR.S O96019:242 R.KEK[2517.34]LPQVTR.S O96019:242 K.EK[1876]LPQVTR.S O96019:242 K.EK[1891.99]LPQVTR.S O96019:242 R.KEK[1876]LPQVTR.S O96019:242 R.KEK[2501.36]LPQVTR.S O96019:242 K.EK[1876]LPQVTR.S O96019:242 R.KEK[1876]LPQVTR.S O96019:242 K.EK[1876]LPQVTR.S O96019:242 K.EK[2501.36]LPQVTR.S O96019:242 R.KEK[2501.36]LPQVTR.S O96019:242 R.KEK[1891.99]LPQVTR.S O96019:242 R.KEK[1876]LPQVTR.S O96019:242 K.EK[1876]LPQVTR.S O96019:242 K.EK[2501.36]LPQVTR.S O96019:242 R.KEK[1876]LPQVTR.S O96019:242 K.EK[1876]LPQVTR.S O96019:242 R.K[1891.98]EKLPQVTR.S O96019:240 R.K[1876]EKLPQVTR.S O96019:240 R.K[1876]EKLPQVTR.S O96019:240 R.K[1876]EKLPQVTR.S O96019:240 R.DLTDYLMK[3260.59]ILTER.G Q562R1:192 P60709:191 R.AK[3001.43]DDIK[284.17]R.V Q4VC05:15 K.IK[1325.67]IIAPPER.K Q562R1:329 P60709:328 K.IK[1310.72]IIAPPER.K Q562R1:329 P60709:328 K.IK[1310.72]IIAPPER.K Q562R1:329 P60709:328 K.IK[1310.72]IIAPPER.K Q562R1:329 P60709:328 K.IK[2011.05]IIAPPER.K Q562R1:329 P60709:328 K.IK[1325.69]IIAPPER.K Q562R1:329 P60709:328 K.IK[2151.07]IIAPPER.K Q562R1:329 P60709:328 R.K[2365.29]C[160.03]F. Q562R1:374 P60709:373 R.K[2365.3]C[160.03]F. Q562R1:374 P60709:373 K.AVATYHANTEREQK[2624.46]K.E P51532:516 K.AVATYHANTEREQK[2624.5]K.E P51532:516 R.WK[2610.29]YMIVDEGHR.M P51531:846 P51532:876 K.IK[1698.86]IIAPPER.K Q562R1:329 P60709:328 K.IK[2034.06]IIAPPER.K Q562R1:329 P60709:328 K.K[1301.81]ETER.I P51531:493 K.K[1301.81]ETER.I P51531:493 R.IEK[1301.81]ER.M P51531:500 P51532:524 R.IEK[1301.8]ER.M P51531:500 P51532:524 R.IEK[1301.8]ER.M P51531:500 P51532:524 K.IK[1454.77]IIAPPER.K Q562R1:329 P60709:328 R.IEK[1301.8]ER.M P51531:500 P51532:524 -.M[2352.24]AGRTVR.A Q8WUZ0:1 K.K[1848.01]VMATIEK.V Q8WUZ0:20 K.K[1848.01]VMATIEK.V Q8WUZ0:20 K.K[1848.01]VMATIEK.V Q8WUZ0:20 R.EQK[1184.68]AKR.N Q12824:124 R.EQK[1184.68]AKR.N Q12824:124 R.AK[1180.68]DDIKK.V Q8WUZ0:15 Q9BQE9:15 R.EQK[1197.67]AK[284.17]R.N Q12824:124 R.EQK[2136.12]AK[284.17]R.N Q12824:124 R.EQK[2136.13]AKR.N Q12824:124 R.EQK[2136.11]AK[284.17]R.N Q12824:124 M.A[2764.37]GRTVRAETR.S Q8WUZ0:2 R.SRAK[1698.86]DDIK.R Q8WUZ0:15 Q4VC05:15 Q9BQE9:15 R.SRAK[1698.86]DDIK.R Q8WUZ0:15 Q4VC05:15 Q9BQE9:15 R.AK[1698.86]DDIKK.V Q8WUZ0:15 Q9BQE9:15 R.AK[1698.86]DDIK.R Q8WUZ0:15 Q4VC05:15 Q9BQE9:15 R.SRAK[1698.86]DDIK.R Q8WUZ0:15 Q4VC05:15 Q9BQE9:15 R.AKDDIK[1300.71]K.V Q8WUZ0:19 Q9BQE9:19 K.IQK[1082.63]LTK.A P51532:499 K.VMATIEK[1481.85]VR.R Q8WUZ0:27 R.SRAK[1300.71]DDIK.R Q8WUZ0:15 Q4VC05:15 Q9BQE9:15 K.IQK[1082.63]LTK.A P51532:499 K.IQK[1197.67]LTK.A P51532:499 R.AK[1125.68]DDIKK.V Q8WUZ0:15 Q9BQE9:15 R.AK[1125.68]DDIKK.V Q8WUZ0:15 Q9BQE9:15 R.AK[1125.68]DDIKK.V Q8WUZ0:15 Q9BQE9:15 R.AK[1931.95]DDIKK.V Q8WUZ0:15 Q9BQE9:15 R.HIFAK[2204.14]VQQR.R Q92925:514 K.ATIELK[2081.14]ALR.L P51532:405 K.ATIELK[2083.16]ALR.L P51532:405 K.ATIELK[1955.06]ALR.L P51532:405 K.ATIELK[1955.06]ALR.L P51532:405 R.TKATIELK[1955.06]ALR.L P51532:405 K.ATIELK[2083.16]ALR.L P51532:405 R.TKATIELK[1955.06]ALR.L P51532:405 K.ATIELK[2083.16]ALR.L P51532:405 K.ATIELK[2083.16]ALR.L P51532:405 R.LK[2087.96]GGR.R P51532:1610 R.LK[2087.96]GGR.R P51532:1610 R.TDPLEK[1931.95]R.G Q92785:130 R.TDPLEK[1717.93]R.G Q92785:130 R.TDPLEK[1494.91]R.G Q92785:130 K.PYAC[160.03]DIC[160.03]GK[2374.34]R.Y Q92785:216 R.QK[2604.26]IAK.E P51531:1505 K.IK[2604.26]LNK.K P51531:1540 K.DFK[2662.35]EYHR.S P51531:463 P51532:487 R.QK[2646.31]IAK.E P51531:1505 R.QK[2646.31]IAK.E P51531:1505 R.QK[2646.31]IAK.E P51531:1505 R.SEEQK[1717.93]SK.K Q92785:258 R.QK[2081.14]IAK.E P51531:1505 R.K[2606.21]ELPEYYELIR.K P51531:1434 P51532:1492 R.K[3218.48]ELPEYYELIR.K P51531:1434 P51532:1492 K.K[2953.59]EGLISQDGSSLEALLR.T Q92785:108 K.VEEAAK[1747.81]VTGK.A Q8TAQ2:724 R.TDPLEK[1207.69]R.G Q92785:130 R.ALPEFFNGKNK[2908.43]SK.T Q8TAQ2:455 Q92922:480 R.ALPEFFNGKNK[2908.43]SK.T Q8TAQ2:455 Q92922:480 K.K[284.17]GGNYK[1367.77]K.R Q8TAQ2:297 K.GK[1207.72]GVGSAR.K Q92785:188 K.E[111.03]PK[3855.79]EPR.E Q8TAQ2:773 K.E[111.03]PK[3855.77]EPR.E Q8TAQ2:773 K.E[111.03]PK[3855.83]EPR.E Q8TAQ2:773 K.E[111.03]PK[3855.81]EPR.E Q8TAQ2:773 K.E[111.03]PK[3855.79]EPR.E Q8TAQ2:773 K.E[111.03]PK[3855.75]EPR.E Q8TAQ2:773 K.E[111.03]PK[3855.75]EPR.E Q8TAQ2:773 K.E[111.03]PK[3855.81]EPR.E Q8TAQ2:773 K.E[111.03]PK[3855.73]EPR.E Q8TAQ2:773 K.E[111.03]PK[3855.79]EPR.E Q8TAQ2:773 R.TDPLEK[2510.38]R.G Q92785:130 R.TDPLEK[2510.38]R.G Q92785:130 K.SK[1397.81]GK[284.17]GVGSAR.K Q92785:186 K.M[147.04]ADK[1367.79]ILPQR.I Q96GM5:131 Q6STE5:106 R.K[1955.06]VWDQVK.A Q969G3:79 R.K[2081.14]VWDQVK.A Q969G3:79 R.TDPLEK[1893.03]R.G Q92785:130 K.VEVDMEK[2646.33]IAAEIAQAEEQAR.K Q969G3:284 K.GK[1542.77]GVGSAR.K Q92785:188 K.GK[1542.77]GVGSAR.K Q92785:188 K.GK[1066.64]GVGSAR.K Q92785:188 K.SK[2940.48]GK[284.17]GVGSAR.K Q92785:186 K.AGGALC[160.03]HILGAAYK[2662.25]YK.N Q92922:127 R.K[1123.62]ASANAR.K Q92922:317 R.K[1123.62]ASANAR.K Q92922:317 R.TDPLEK[1253.68]R.G Q92785:130 K.K[1123.6]VQEAAR.A Q92922:740 R.K[1123.61]PVSFR.Q Q92922:292 R.TDPLEK[1698.87]R.G Q92785:130 R.TDPLEK[1698.86]R.G Q92785:130 R.TDPLEK[3283.55]R.G Q92785:130 R.TDPLEK[3283.57]R.G Q92785:130 R.TDPLEK[3283.6]R.G Q92785:130 R.TDPLEK[1195.67]R.G Q92785:130 K.K[2087.96]IRDQDR.N Q12824:364 K.K[3150.65]EGLISQDGSSLEALLR.T Q92785:108 K.K[3150.65]EGLISQDGSSLEALLR.T Q92785:108 R.DLK[2649.33]VMTDVAGNPEEER.R Q6STE5:432 R.DLK[2649.33]VMTDVAGNPEEER.R Q6STE5:432 R.DLK[2649.33]VMTDVAGNPEEER.R Q6STE5:432 R.DLK[2649.33]VMTDVAGNPEEERR.A Q6STE5:432 R.DLK[2649.33]VMTDVAGNPEEER.R Q6STE5:432 R.DLK[2649.33]VMTDVAGNPEEERR.A Q6STE5:432 R.DLK[2649.32]VMTDVAGNPEEERR.A Q6STE5:432 R.DLK[2649.33]VMTDVAGNPEEERR.A Q6STE5:432 R.DLK[2649.33]VMTDVAGNPEEER.R Q6STE5:432 R.DLK[2649.34]VMTDVAGNPEEER.R Q6STE5:432 R.AAK[1683.91]ALLAMAR.V Q8NFD5:2187 R.AAK[1683.9]ALLAM[147.04]AR.V Q8NFD5:2187 K.LEK[1280.76]QQK.I P51531:434 P51532:458 R.AAK[1683.93]ALLAMAR.V Q8NFD5:2187 R.AAK[1683.95]ALLAMAR.V Q8NFD5:2187 R.AAK[1527.83]ALLAMAR.V Q8NFD5:2187 R.AAK[1527.83]ALLAMAR.V Q8NFD5:2187 R.AAK[1323.71]ALLAM[147.04]AR.V Q8NFD5:2187 R.AAK[1323.71]ALLAMAR.V Q8NFD5:2187 R.AAK[1323.69]ALLAMAR.V Q8NFD5:2187 R.RK[1976.06]ITSK.D Q8NFD5:1612 R.K[1976.06]ITSK.D Q8NFD5:1612 R.K[1976.06]ITSK.D Q8NFD5:1612 K.AYK[2649.33]R.S P51531:416 P51532:440 K.AYK[2649.33]R.S P51531:416 P51532:440 K.K[2170.17]PLDLFR.L Q8NFD5:1083 R.AAK[1665.94]ALLAMAR.V Q8NFD5:2187 R.AAK[1665.95]ALLAM[147.04]AR.V Q8NFD5:2187 R.AAK[1665.96]ALLAMAR.V Q8NFD5:2187 R.AAK[1509.88]ALLAMAR.V Q8NFD5:2187 R.AAK[1509.88]ALLAMAR.V Q8NFD5:2187 R.AAK[1665.98]ALLAMAR.V Q8NFD5:2187 R.AAK[1509.88]ALLAM[147.04]AR.V Q8NFD5:2187 R.AAK[1665.95]ALLAM[147.04]AR.V Q8NFD5:2187 R.RDTALETALNAK[2649.33]AYK.R P51532:437 R.DTALETALNAK[2649.33]AYKR.S P51532:437 R.DTALETALNAK[2649.33]AYK.R P51532:437 R.DTALETALNAK[2649.33]AYKR.S P51532:437 R.DTALETALNAK[2649.33]AYKR.S P51532:437 R.RDTALETALNAK[2649.33]AYK.R P51532:437 R.DTALETALNAK[2649.33]AYK.R P51532:437 R.HMDGMYGPPAK[2040.09]R.H Q8NFD5:1372 K.VSYK[2981.51]GSPAAR.R P51532:835 R.RK[1930.05]ITSK.D Q8NFD5:1612 R.K[1930.05]ITSK.D Q8NFD5:1612 R.K[1930.05]ITSK.D Q8NFD5:1612 R.RK[1930.05]ITSK.D Q8NFD5:1612 R.RK[1930.05]ITSK.D Q8NFD5:1612 R.RK[1930.05]ITSK.D Q8NFD5:1612 R.RK[1930.05]ITSK.D Q8NFD5:1612 R.RK[1930.05]ITSK.D Q8NFD5:1612 R.K[1930.09]ITSK.D Q8NFD5:1612 R.KITSK[2204.14]DIVTPEAWR.V Q8NFD5:1616 R.KITSK[2204.14]DIVTPEAWR.V Q8NFD5:1616 K.ITSK[2204.1]DIVTPEAWR.V Q8NFD5:1616 R.KITSK[2204.14]DIVTPEAWR.V Q8NFD5:1616 R.KITSK[2204.14]DIVTPEAWR.V Q8NFD5:1616 K.ITSK[2204.12]DIVTPEAWR.V Q8NFD5:1616 R.KITSK[3260.39]DIVTPEAWR.V Q8NFD5:1616 R.AAK[3260.39]ALLAMAR.V Q8NFD5:2187 R.AAK[3260.39]ALLAMAR.V Q8NFD5:2187 R.AAK[3260.39]ALLAMAR.V Q8NFD5:2187 R.HMDGMYGPPAK[1735.97]R.H Q8NFD5:1372 R.K[2204.17]ITSK[284.17]DIVTPEAWR.V Q8NFD5:1612 R.K[2204.16]ITSK[284.17]DIVTPEAWR.V Q8NFD5:1612 R.K[2204.08]ITSK[284.17]DIVTPEAWR.V Q8NFD5:1612 R.K[2204.15]ITSK[284.17]DIVTPEAWR.V Q8NFD5:1612 R.K[4426.13]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[4426.14]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[4426.14]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 K.RLDIQEALK[1628.9]R.P Q96GM5:173 R.NHNAK[284.17]K[1628.85]K.K Q96GM5:125 R.DLK[2649.33]TMTDVVGNPEEER.R Q96GM5:464 R.DLK[2649.33]TMTDVVGNPEEERR.A Q96GM5:464 R.DLK[2649.33]TMTDVVGNPEEERR.A Q96GM5:464 R.DLK[2649.33]TMTDVVGNPEEERR.A Q96GM5:464 R.DLK[2649.33]TMTDVVGNPEEERR.A Q96GM5:464 R.DLK[2649.33]TMTDVVGNPEEER.R Q96GM5:464 R.DLK[2649.31]TMTDVVGNPEEERR.A Q96GM5:464 R.DLK[2649.36]TMTDVVGNPEEER.R Q96GM5:464 R.DLK[2649.33]TMTDVVGNPEEER.R Q96GM5:464 R.DLK[2649.32]TM[147.04]TDVVGNPEEER.R Q96GM5:464 R.DLK[2649.33]TM[147.04]TDVVGNPEEERR.A Q96GM5:464 R.LDIQEALK[1812.98]RPIK.Q Q96GM5:173 R.K[1680.91]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1680.91]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1491.83]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1491.83]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1491.83]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[1491.83]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1519.84]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1519.84]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1519.84]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1502.82]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[1519.84]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[1519.84]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1519.84]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[1502.8]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[1519.84]LDQTIMRK.R Q96GM5:156 Q6STE5:131 R.K[1519.84]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.K[1519.83]LDQTIM[147.04]R.K Q96GM5:156 Q6STE5:131 R.K[1519.84]LDQTIMR.K Q96GM5:156 Q6STE5:131 R.EITFPPGSVEASQPVLK[2510.38]QR.R Q8NFD5:1608 R.EITFPPGSVEASQPVLK[2510.38]QR.R Q8NFD5:1608 R.EITFPPGSVEASQPVLK[2510.38]QR.R Q8NFD5:1608 R.EITFPPGSVEASQPVLK[2510.38]QR.R Q8NFD5:1608 R.KITSK[2510.38]DIVTPEAWR.V Q8NFD5:1616 K.ITSK[2510.38]DIVTPEAWR.V Q8NFD5:1616 K.ITSK[2510.38]DIVTPEAWR.V Q8NFD5:1616 R.KITSK[2510.38]DIVTPEAWR.V Q8NFD5:1616 K.ITSK[2510.38]DIVTPEAWR.V Q8NFD5:1616 K.ITSK[2510.38]DIVTPEAWR.V Q8NFD5:1616 K.DDWNK[2720.42]VSEHVGSR.T Q8TAQ2:622 Q92922:644 K.AK[2449.13]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[2449.13]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[2605.22]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[2449.13]HLAAVEER.K Q8TAQ2:874 Q92922:882 R.K[1388.78]KEQEGK.G Q8NFD5:1843 R.K[1388.78]KEQEGK.G Q8NFD5:1843 R.NIK[1725.01]LLEDEPR.S Q8NFD5:1904 R.NIK[1725.01]LLEDEPR.S Q8NFD5:1904 R.KK[1388.78]EQEGK.G Q8NFD5:1844 K.SK[1369.77]AAASATR.E Q8TAQ2:592 K.SK[1369.77]AAASATR.E Q8TAQ2:592 K.SK[1369.73]AAASATR.E Q8TAQ2:592 R.GK[1624.79]GEITPAAIQK.M Q15532:13 K.MADK[1624.79]VLPQR.I Q92925:143 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.32]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.32]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.28]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2406.2]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2406.2]IITDVIGNPEEERR.A Q92925:480 R.DLK[2406.2]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2406.19]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.35]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.32]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.RDLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.32]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.RDLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2406.15]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.34]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2406.21]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.34]IITDVIGNPEEERR.A Q92925:480 R.HIFAK[2649.33]VQQR.R Q92925:514 R.YVGDRK[1922.09]NPVC[160.03]R.E Q8NFD5:2110 R.YVGDRK[1938.06]NPVC[160.03]R.E Q8NFD5:2110 R.K[1491.83]LDQTIAR.K Q92925:168 R.K[1491.83]LDQTIAR.K Q92925:168 R.K[1491.83]LDQTIAR.K Q92925:168 R.K[1680.91]LDQTIAR.K Q92925:168 R.K[1680.91]LDQTIAR.K Q92925:168 R.K[1519.84]LDQTIAR.K Q92925:168 R.K[1519.84]LDQTIAR.K Q92925:168 R.K[1519.84]LDQTIAR.K Q92925:168 R.K[1519.84]LDQTIAR.K Q92925:168 R.EQK[1280.77]AK[284.17]R.N Q12824:124 R.VMAAIEK[1491.83]VRK.W Q4VC05:27 Q9BQE9:27 R.VMAAIEK[1491.83]VRK.W Q4VC05:27 Q9BQE9:27 K.K[1624.79]VQEAAR.A Q92922:740 K.K[1624.79]VQEAAR.A Q92922:740 R.TDIYSK[4284.11]K.T Q92922:608 R.TDIYSK[4284.11]K.T Q92922:608 R.SDK[2140.23]LGR.V Q8NFD5:1792 R.SDK[1119.62]LGR.V Q8NFD5:1792 R.SDK[1119.62]LGR.V Q8NFD5:1792 K.EDEDPAK[3088.46]GDQSR.S Q92922:428 K.EDEDPAK[3088.46]GDQSR.S Q92922:428 K.EDEDPAK[3088.46]GDQSR.S Q92922:428 K.K[2796.38]PLTQK.R Q92925:186 K.K[2796.38]PLTQKR.K Q92925:186 K.K[2796.38]PLTQKR.K Q92925:186 K.K[1395.74]PLTQKR.K Q92925:186 R.QNFHMEQLK[2900.51]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[2900.5]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[2900.51]YAELR.A Q92922:948 R.QNFHMEQLK[2900.51]YAELR.A Q92922:948 R.QNFHMEQLK[2900.51]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[2900.5]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[2900.51]YAELR.A Q92922:948 R.Q[111.03]NFHM[147.04]EQLK[2900.48]YAELR.A Q92922:948 K.K[1391.77]GQASLYGKR.R Q92922:346 K.K[1391.8]VQEAAR.A Q92922:740 K.K[1744.97]VQEAAR.A Q92922:740 R.DPK[1785.96]GYVQDLLR.S Q6STE5:417 R.DRK[1872.96]ASANAR.K Q92922:317 R.QNFHMEQLK[3281.55]YAELR.A Q92922:948 R.QNFHMEQLK[3281.55]YAELR.A Q92922:948 R.QNFHMEQLK[3281.49]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[3281.54]YAELR.A Q92922:948 R.QNFHM[147.04]EQLK[3281.53]YAELR.A Q92922:948 R.QNFHMEQLK[3281.45]YAELR.A Q92922:948 R.QNFHMEQLK[2458.16]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[3281.51]YAELR.A Q92922:948 K.K[1483.78]VQEAAR.A Q92922:740 K.K[2510.38]VQEAAR.A Q92922:740 K.K[2510.38]VQEAAR.A Q92922:740 R.YFYSK[1785.93]VQQR.R Q96GM5:498 R.YFYSK[1785.96]VQQR.R Q96GM5:498 R.Q[111.03]NFHMEQLK[2468.24]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[2468.23]YAELR.A Q92922:948 R.QNFHMEQLK[3343.65]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[2468.22]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[3343.66]YAELR.A Q92922:948 R.QNFHMEQLK[2468.22]YAELR.A Q92922:948 R.QNFHM[147.04]EQLK[3343.7]YAELR.A Q92922:948 R.QNFHMEQLK[3343.67]YAELR.A Q92922:948 R.Q[111.03]NFHM[147.04]EQLK[2468.19]YAELR.A Q92922:948 R.QNFHMEQLK[2468.21]YAELR.A Q92922:948 R.Q[111.03]NFHM[147.04]EQLK[2468.2]YAELR.A Q92922:948 R.QNFHMEQLK[2468.26]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[3343.76]YAELR.A Q92922:948 R.QNFHMEQLK[2468.26]YAELR.A Q92922:948 R.QNFHMEQLK[2468.24]YAELR.A Q92922:948 R.QNFHMEQLK[2468.24]YAELR.A Q92922:948 R.QNFHMEQLK[2468.24]YAELR.A Q92922:948 R.QNFHMEQLK[2468.24]YAELR.A Q92922:948 R.QNFHMEQLK[2468.24]YAELR.A Q92922:948 R.QNFHMEQLK[2468.17]YAELR.A Q92922:948 R.QNFHMEQLK[2468.25]YAELR.A Q92922:948 R.QNFHM[147.04]EQLK[2468.25]YAELR.A Q92922:948 R.QNFHM[147.04]EQLK[2468.23]YAELR.A Q92922:948 R.Q[111.03]NFHM[147.04]EQLK[2468.24]YAELR.A Q92922:948 R.QNFHMEQLK[2468.24]YAELR.A Q92922:948 R.QNFHM[147.04]EQLK[2468.19]YAELR.A Q92922:948 K.RK[2055.02]LR.I Q96GM5:181 Q6STE5:156 Q92925:193 K.THK[2055.02]LQDPHER.E Q96GM5:327 K.THK[2055.02]LQDPHER.E Q96GM5:327 K.THK[2055.02]LQDPHER.E Q96GM5:327 K.THK[2055.02]LQDPHER.E Q96GM5:327 R.Q[111.03]NFHMEQLK[2417.2]YAELR.A Q92922:948 K.THK[2071.01]LQDPHER.E Q96GM5:327 K.THK[2072.05]LQDPHER.E Q96GM5:327 K.THK[2071]LQDPHER.E Q96GM5:327 K.THK[2055.04]LQDPHER.E Q96GM5:327 K.THK[2072.05]LQDPHER.E Q96GM5:327 K.THK[2072.03]LQDPHER.E Q96GM5:327 R.Q[111.03]NFHMEQLK[2417.21]YAELR.A Q92922:948 K.THK[2088.03]LQDPHER.E Q96GM5:327 R.Q[111.03]NFHMEQLK[2417.21]YAELR.A Q92922:948 K.THK[2072.05]LQDPHER.E Q96GM5:327 K.THK[2055]LQDPHER.E Q96GM5:327 R.QNFHMEQLK[2417.22]YAELR.A Q92922:948 R.QNFHMEQLK[2417.22]YAELR.A Q92922:948 K.THK[2055.03]LQDPHER.E Q96GM5:327 K.THK[2055]LQDPHER.E Q96GM5:327 K.THK[2071.02]LQDPHER.E Q96GM5:327 K.THK[2054.99]LQDPHER.E Q96GM5:327 K.THK[2072.05]LQDPHER.E Q96GM5:327 K.THK[2055.01]LQDPHER.E Q96GM5:327 K.THK[2054.99]LQDPHER.E Q96GM5:327 K.THK[2072.05]LQDPHER.E Q96GM5:327 K.THK[2055]LQDPHER.E Q96GM5:327 K.THK[2072.01]LQDPHER.E Q96GM5:327 K.THK[2088.07]LQDPHER.E Q96GM5:327 R.K[2510.38]ASANAR.K Q92922:317 R.K[2510.38]ASANAR.K Q92922:317 R.MK[1567.94]FSEIPQR.L Q96GM5:353 K.GK[2292.24]EKPTDM[147.04]QNFGLR.T Q8TAQ2:566 K.TVNTK[1542.78]K.D Q8TAQ2:364 K.SK[1974.06]GASAGR.E Q92922:615 R.ESDTGK[1424.82]K.K Q92922:854 R.VASAAAK[1785.96]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1785.96]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1785.96]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1785.92]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1785.96]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1785.96]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1785.94]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 R.VASAAAK[3410.84]AALEEFSR.V Q92922:716 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 R.VASAAAK[2865.42]AALEEFSR.V Q92922:716 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 R.VASAAAK[3021.58]AALEEFSR.V Q92922:716 R.VASAAAK[2865.49]AALEEFSR.V Q92922:716 K.TK[1785.96]VER.D Q8TAQ2:848 K.K[1167.58]VQEAAR.A Q92922:740 R.K[1066.61]TKVER.D Q8TAQ2:846 R.K[1066.61]TKVER.D Q8TAQ2:846 K.K[1773.95]VQEAAR.A Q92922:740 K.K[2728.41]GGNYK[284.17]K.R Q8TAQ2:292 R.K[2269.15]ASANAR.K Q92922:317 R.K[1207.69]ASANAR.K Q92922:317 R.K[2796.38]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.38]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.38]FLESTDSFNNELKR.L Q969G3:258 R.EK[2093.08]EALEQQR.Q Q92922:925 R.K[2796.38]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.38]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.38]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.36]FLESTDSFNNELK[284.17]R.L Q969G3:258 R.K[2796.38]FLESTDSFNNELKR.L Q969G3:258 R.K[2812.37]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.38]FLESTDSFNNELK.R Q969G3:258 R.K[2812.35]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.29]FLESTDSFNNELKR.L Q969G3:258 R.EK[2093.08]EALEQQR.Q Q92922:925 R.K[2812.36]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.36]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.38]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.38]FLESTDSFNNELKR.L Q969G3:258 R.K[2812.36]FLESTDSFNNELKR.L Q969G3:258 R.K[2812.29]FLESTDSFNNELKR.L Q969G3:258 R.K[2812.39]FLESTDSFNNELKR.L Q969G3:258 R.K[2796.36]FLESTDSFNNELK[284.17]R.L Q969G3:258 R.Q[111.03]NFHMEQLK[3066.62]YAELR.A Q92922:948 R.Q[111.03]NFHMEQLK[2495.23]YAELR.A Q92922:948 R.QNFHMEQLK[3066.63]YAELR.A Q92922:948 R.MQVLK[1066.61]R.Q Q969G3:228 R.MQVLK[1066.61]R.Q Q969G3:228 R.MQVLK[1066.61]R.Q Q969G3:228 R.MQVLK[2140.23]R.Q Q969G3:228 R.MQVLK[2140.23]R.Q Q969G3:228 R.EK[2036.04]EAAEQAER.S Q969G3:305 R.MQVLK[2874.55]R.Q Q969G3:228 R.MQVLK[2746.45]R.Q Q969G3:228 R.MQVLK[2746.45]R.Q Q969G3:228 R.MQVLK[2746.45]R.Q Q969G3:228 R.MQVLK[2874.55]R.Q Q969G3:228 R.MQVLK[2874.55]R.Q Q969G3:228 R.MQVLK[2874.55]R.Q Q969G3:228 R.MQVLK[2874.55]R.Q Q969G3:228 R.MQVLK[2746.45]R.Q Q969G3:228 R.MQVLK[2746.45]R.Q Q969G3:228 R.IYK[1795.85]WVPVTEPK.V Q4VC05:47 R.AK[1123.62]DDIKR.V Q4VC05:15 R.AK[1125.68]DDIKR.V Q4VC05:15 R.AK[1125.68]DDIKR.V Q4VC05:15 R.AK[1125.68]DDIKR.V Q4VC05:15 R.AK[1125.68]DDIKR.V Q4VC05:15 R.AK[2365.29]DDIKR.V Q4VC05:15 R.AK[2365.3]DDIKR.V Q4VC05:15 K.IQK[1110.64]LTK.A P51532:499 K.IQK[1110.64]LTK.A P51532:499 R.AK[1300.71]DDIKR.V Q4VC05:15 R.AK[1300.71]DDIKR.V Q4VC05:15 R.AK[1300.71]DDIKR.V Q4VC05:15 K.K[1300.71]GKDEK.C Q4VC05:65 R.VMAAIEK[1300.71]VR.K Q4VC05:27 Q9BQE9:27 R.LK[1281.75]GGR.R P51532:1610 R.VMAAIEK[1509.84]VR.K Q4VC05:27 Q9BQE9:27 K.KGK[1300.71]DEK.C Q4VC05:67 R.K[1300.71]WEKK.W Q4VC05:30 Q9BQE9:30 R.K[1300.71]WEK.K Q4VC05:30 Q9BQE9:30 K.IQK[1110.64]LTK.A P51532:499 R.AKDDIK[1931.96]R.V Q4VC05:19 R.SVAGK[1110.64]IQK.L P51531:472 R.SVAGK[1110.65]IQK.L P51531:472 R.AK[1698.84]DDIK[284.17]R.V Q4VC05:15 R.AK[1698.86]DDIKR.V Q4VC05:15 R.AK[1698.86]DDIKR.V Q4VC05:15 R.AK[1698.86]DDIKR.V Q4VC05:15 R.AK[1698.86]DDIKR.V Q4VC05:15 K.IQK[1110.64]LSK.A P51531:475 R.AKDDIK[1388.75]R.V Q4VC05:19 R.AK[1180.68]DDIKR.V Q4VC05:15 R.AK[3150.65]DDIKR.V Q4VC05:15 R.AK[3150.65]DDIKR.V Q4VC05:15 R.AK[3150.65]DDIKR.V Q4VC05:15 R.AK[1180.67]DDIKR.V Q4VC05:15 K.K[1990.08]WVTVGDTSLR.I Q4VC05:34 Q9BQE9:34 K.K[3518.68]WVTVGDTSLR.I Q4VC05:34 Q9BQE9:34 K.K[1990.1]WVTVGDTSLR.I Q4VC05:34 Q9BQE9:34 K.K[3518.77]WVTVGDTSLR.I Q4VC05:34 Q9BQE9:34 K.K[2104.02]WVTVGDTSLR.I Q4VC05:34 Q9BQE9:34 K.K[2104.02]WVTVGDTSLR.I Q4VC05:34 Q9BQE9:34 R.EQK[1281.75]AKR.N Q12824:124 R.EQK[1281.75]AK.R Q12824:124 R.EQK[1624.92]AKR.N Q12824:124 K.K[1990.11]WVTVGDTSLR.I Q4VC05:34 Q9BQE9:34 R.AK[1542.77]DDIKR.V Q4VC05:15 R.AKDDIK[1542.78]R.V Q4VC05:19 2 SMARCD3 RKMADK 102 1 SMARCD3 MAADEVAGGAR 1 2 SMARCA2 KLIDQKK 521 1 SMARCB1 EQKAKR 124 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCC1 HQGTFTDEKSK 199 1 SMARCC1 KASANAR 317 2 SMARCA2 KPVDFK 1445 2 SMARCA2 IEKER 500 2 SMARCA2 NHKYR 1460 2 SMARCA2 IRNHKYR 1460 1 SMARCC1 KASANAR 317 2 SMARCA2 IRNHKYR 1460 2 SMARCA2 NHKYR 1460 2 SMARCA2 LIDQKK 521 1 SMARCA2 GGAKTLMNTIMQLR 1003 1 SMARCA2 GGAKTLMNTIMQLR 1003 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 KVQEAAR 740 1 SMARCC1 TDIYSKK 608 3 SMARCD1 KMADK 127 2 SMARCA2 ASGKFELLDR 1051 1 SMARCC2 KNAK 314 1 SMARCA2 NVDKDPAK 1354 1 SMARCA2 NVDKDPAK 1354 1 SMARCA2 NVDKDPAK 1354 1 SMARCA2 NVDKDPAK 1354 1 SMARCC2 QAFHMEQLKYAEMR 940 1 SMARCC2 QAFHMEQLKYAEMR 940 1 SMARCC2 QAFHMEQLKYAEMR 940 1 SMARCD2 HIFAKVQQR 514 1 SMARCD2 HIFAKVQQR 514 1 SMARCD2 HIFAKVQQR 514 1 SMARCD2 HIFAKVQQR 514 1 SMARCD2 HIFAKVQQR 514 1 SMARCD2 HIFAKVQQR 514 1 SMARCC2 FKSDQGWR 101 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 KLEIKLR 902 2 SMARCC2 LEIKLR 902 2 SMARCC2 LEIKLR 902 2 SMARCC2 KLEIKLR 902 2 SMARCC2 KLEIKLR 902 2 SMARCC2 LEIKLR 902 1 SMARCD2 HIFAKVQQR 514 2 SMARCC2 SLVALLVETQMKK 897 2 SMARCC2 SLVALLVETQMKK 897 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 KLEAELLQIEER 240 2 SMARCC2 SLVALLVETQMKK 897 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 KLEAELLQIEER 240 2 SMARCC2 SLVALLVETQMKK 897 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCC2 KTKVER 846 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKKR 255 2 SMARCC2 KLEIKLR 902 2 SMARCC2 LEIKLR 902 2 SMARCC2 LEIKLR 902 2 SMARCC2 KLEIKLR 902 1 SMARCC2 NYKKYIQAEPPTNK 36 1 SMARCC2 KVEEAAK 718 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCC2 SLVALLVETQMKK 897 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCC2 QAFHMEQLKYAEMR 940 2 SMARCC2 LEIKLR 902 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKK 255 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 AYHNSPAYLAYINAKSR 146 1 SS18 GKGEITPAAIQK 13 1 SS18 GKGEITPAAIQK 13 1 ARID1A SSEAIKESSK 1934 1 ARID1A SSEAIKESSK 1934 1 SMARCE1 FLESTDSFNNELKRLCGLK 271 1 SMARCE1 FLESTDSFNNELKR 271 1 ARID1A SSEAIKESSK 1934 1 ARID1A SSEAIKESSK 1934 1 SMARCE1 AYHNSPAYLAYINAKSR 146 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 KFLESTDSFNNELKR 271 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A RDITFPPGSVEATQPVLKQR 1654 1 ARID1A RDITFPPGSVEATQPVLKQR 1654 1 ARID1A RDITFPPGSVEATQPVLKQR 1654 1 ARID1A RDITFPPGSVEATQPVLKQR 1654 1 ARID1A DITFPPGSVEATQPVLKQR 1654 1 ARID1A DITFPPGSVEATQPVLKQR 1654 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMRK 156 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 SMARCD1 NHNAKK 124 1 SMARCD1 NHNAKK 124 2 ARID1A KNPVCR 2159 1 SMARCD1 NHNAKK 124 2 ARID1A KNPVCR 2159 1 SMARCD1 NHNAKK 124 1 ARID1A FLSDRKNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 ARID1A SSEAIKESSK 1934 2 SMARCC2 AKHLAAVEER 874 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 SKAAASATR 592 1 SMARCC2 SKAAASATR 592 1 SMARCC2 SKAAASATR 592 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKK 584 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 EKTSEAPKK 795 1 SMARCC2 SKAAASATR 592 1 SMARCC2 SKAAASATR 592 1 SMARCC2 TDMYTKKNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 SKAAASATR 592 2 SMARCD3 RKMADK 102 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 SMARCD3 DPKGYVQDLLR 417 2 SMARCA2 QQKIEQER 437 2 SMARCA2 WKYMIVDEGHR 846 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 SMARCB1 TFGQKPVK 13 1 SMARCB1 TFGQKPVK 13 1 SMARCB1 TFGQKPVK 13 1 SMARCB1 GSLYKR 45 1 SMARCB1 TFGQKPVK 13 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KYVHADAPTNK 65 2 ARID1A KNPVCR 2159 1 SMARCC1 KASANAR 317 1 SMARCC1 KTLAK 609 1 SMARCC1 KTLAK 609 1 SMARCC1 KTLAK 609 1 SMARCC1 KTLAK 609 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 TDIYSKK 608 1 SMARCC1 TDIYSKK 608 1 SMARCC1 TDIYSKKTLAK 608 1 SMARCC1 TDIYSKKTLAK 608 1 SMARCC1 TDIYSKK 608 1 SMARCC1 TDIYSKKTLAK 608 1 SMARCC1 TDIYSKKTLAK 608 1 SMARCC1 TDIYSKK 608 1 SMARCC1 KVQEAAR 740 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 SS18 GKGEITPAAIQK 13 1 DPF2 GKGVGSAR 188 1 ARID1A LISKFDKLPVK 1808 1 ARID1A LISKFDKLPVK 1808 1 ARID1A LISKFDKLPVK 1808 1 ARID1A LISKFDKLPVK 1808 1 ARID1A LISKFDKLPVK 1808 1 ARID1A LISKFDKLPVK 1808 1 ARID1A LISKFDKLPVK 1808 1 ARID1A LISKFDKLPVK 1808 1 ARID1A LTMKDIGTPEAWR 1662 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIARK 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIARK 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 ARID1A FLSDRKNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 ARID1A FLSDRKNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 ARID1A FLSDRKNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 BCL7B KVMAAIEK 20 1 SMARCB1 EQKAKR 124 1 ACTB EITALAPSTMKIKIIAPPER 328 1 ACTB EITALAPSTMKIKIIAPPER 328 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 BCL7A IYKWVPVTEPK 47 1 BCL7A GKDEK 67 1 BCL7A AKDDIKR 15 1 BCL7C IFKWVPVVDPQEEER 47 1 ACTBL2 KDLYANTVLSGGSTMYPGIADR 292 1 ACTBL2 KDLYANTVLSGGSTMYPGIADR 292 1 ACTBL2 KDLYANTVLSGGSTMYPGIADR 292 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 62 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 62 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 62 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 62 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 62 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 62 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 62 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 51 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 51 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 51 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 51 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTBL2 HQGVMVGMGQKDCYVGDEAQSKR 51 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 WKYMIVDEGHRMK 846 1 ACTB EITALAPSTMKIK 326 2 SMARCA2 KELPEYYELIR 1434 2 SMARCA2 QQKIEQER 437 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 IRWKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 1 SMARCB1 IVASSHGKK 70 1 SMARCB1 GSLYKR 45 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCB1 KIR 364 1 SMARCB1 KIR 364 1 SMARCB1 KIR 364 1 SMARCB1 KIR 364 1 SMARCB1 KIR 364 1 SMARCB1 KIRDQDR 364 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 2 SMARCC2 DDWNKVSEHVGSR 622 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A TPPSMRLKLIANNTTVER 379 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 AEDRGMLLKTFNEPGSEYFIFLLSTR 1140 1 ACTL6A LKIPEGLFDPSNVK 303 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A LNRELSQKTPPSMR 371 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 1 ACTL6A LKLIANNTTVER 379 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 2 SMARCA2 IRNHKYR 1460 1 ARID1A DKPASENSEEKLISK 1804 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ARID1A KPLDLYR 1047 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A TPPSMRLKLIANNTTVER 379 1 ACTL6A TPPSMRLKLIANNTTVER 379 1 ACTL6A TPPSMRLKLIANNTTVER 379 1 SMARCE1 EKEAAEQAER 305 1 ACTL6A TPPSMRLKLIANNTTVER 379 1 SMARCE1 ASNPDLKLWEIGK 92 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 SMARCC2 QAFHMEQLKYAEMR 940 1 SMARCC2 QAFHMEQLKYAEMR 940 1 SMARCC2 QAFHMEQLKYAEMR 940 1 SMARCC2 QAFHMEQLKYAEMR 940 1 SMARCC2 QAFHMEQLKYAEMR 940 1 ACTL6A TPPSMRLKLIANNTTVER 379 1 ACTL6A TPPSMRLKLIANNTTVER 379 1 ACTL6A TPPSMRLKLIANNTTVER 379 1 ACTL6A TPPSMRLKLIANNTTVER 379 2 SMARCC2 IKSLVALLVETQMKK 885 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 MKFSEIPQR 353 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 ARID1B MSPSKSPFLPSMKMQK 1566 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A EKLPQVTR 242 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 SKGKGVGSAR 188 1 ACTL6A LKLIANNTTVER 379 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A GKQGGPTYYIDTNALR 62 1 SMARCB1 GSLYKR 45 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A LKLIANNTTVER 379 1 SMARCC1 HQGTFTDEKSK 199 1 SMARCC1 EKEALEQQR 925 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCA4 LKGGR 1610 1 SMARCC1 KVQEAAR 740 1 SMARCC1 TDIYSKK 608 1 SMARCC1 TDIYSKK 608 1 SMARCC1 KTLAK 609 1 SMARCC1 KTLAK 609 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 KVQEAAR 740 1 SMARCA4 KSSR 1408 1 SMARCC1 DRKASANAR 317 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 IQKLTK 499 1 SMARCC1 KASANAR 317 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KASANAR 317 1 SMARCA4 ATIELKALR 405 1 SMARCA4 TKATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 TKATIELKALR 405 1 SMARCA4 TKATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 ITEKLEK 455 1 SMARCA4 ITEKLEK 455 1 SMARCA4 GQPLPDHLQMAVQGKR 207 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCD1 KLRIFISNTFNPAK 181 1 SMARCA4 YNQMKGMGMR 94 1 SMARCA4 YNQMKGMGMR 94 3 SMARCD1 KMADK 127 3 SMARCD1 KMADK 127 1 SMARCD1 NHNAKK 124 1 SMARCD1 NHNAKK 124 1 SMARCD1 NHNAKK 124 1 SMARCD1 NHNAKK 124 1 SMARCD1 NHNAKK 124 1 SMARCA4 ITPIQKPR 357 1 SMARCA4 ITPIQKPR 357 1 SMARCA4 ITPIQKPR 357 1 SMARCA4 ITPIQKPR 357 1 SMARCA4 ATIELKALR 405 1 SMARCA4 TKATIELKALR 405 1 SMARCA4 TKATIELKALR 405 1 SMARCA4 TKATIELKALR 405 1 SMARCC2 AVRK 2 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 SKAAASATR 592 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 AVRK 2 1 SMARCC2 AVRK 2 1 SMARCA4 LKGGR 1610 1 SMARCA4 ITEKLEK 455 1 SMARCA4 ITEKLEK 455 1 SMARCA4 ITEKLEKQQK 455 1 SMARCA4 ITEKLEKQQK 455 1 SMARCA4 ITEKLEKQQK 455 1 SMARCA4 GQPLPDHLQMAVQGKR 207 1 SMARCA4 YNQMKGMGMR 94 1 SMARCB1 EQKAKR 124 1 SMARCA4 QKKSSR 1408 1 SMARCB1 KIRDQDR 364 1 SMARCA4 IQKLTK 499 1 SMARCA4 IQKLTK 499 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 2 SMARCD3 RKMADK 102 2 SMARCD3 RKMADK 102 2 SMARCD3 RKMADK 102 2 SMARCD3 RKMADK 102 2 SMARCD3 RKMADK 102 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCA4 YNQMKGMGMR 94 1 SMARCA4 YNQMKGMGMR 94 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 2 ACTBL2 DLTDYLMKILTER 192 1 BCL7A AKDDIKR 15 2 ACTBL2 IKIIAPPER 329 2 ACTBL2 IKIIAPPER 329 2 ACTBL2 IKIIAPPER 329 2 ACTBL2 IKIIAPPER 329 2 ACTBL2 IKIIAPPER 329 2 ACTBL2 IKIIAPPER 329 2 ACTBL2 IKIIAPPER 329 2 ACTBL2 KCF 374 2 ACTBL2 KCF 374 1 SMARCA4 AVATYHANTEREQKK 516 1 SMARCA4 AVATYHANTEREQKK 516 2 SMARCA2 WKYMIVDEGHR 846 2 ACTBL2 IKIIAPPER 329 2 ACTBL2 IKIIAPPER 329 1 SMARCA2 KETER 493 1 SMARCA2 KETER 493 2 SMARCA2 IEKER 500 2 SMARCA2 IEKER 500 2 SMARCA2 IEKER 500 2 ACTBL2 IKIIAPPER 329 2 SMARCA2 IEKER 500 1 BCL7C MAGRTVR 1 1 BCL7C KVMATIEK 20 1 BCL7C KVMATIEK 20 1 BCL7C KVMATIEK 20 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 2 BCL7C AKDDIKK 15 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 BCL7C AGRTVRAETR 2 3 BCL7C SRAKDDIK 15 3 BCL7C SRAKDDIK 15 2 BCL7C AKDDIKK 15 3 BCL7C AKDDIK 15 3 BCL7C SRAKDDIK 15 2 BCL7C AKDDIKK 19 1 SMARCA4 IQKLTK 499 1 BCL7C VMATIEKVR 27 3 BCL7C SRAKDDIK 15 1 SMARCA4 IQKLTK 499 1 SMARCA4 IQKLTK 499 2 BCL7C AKDDIKK 15 2 BCL7C AKDDIKK 15 2 BCL7C AKDDIKK 15 2 BCL7C AKDDIKK 15 1 SMARCD2 HIFAKVQQR 514 1 SMARCA4 ATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 TKATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 TKATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 ATIELKALR 405 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 PYACDICGKR 216 1 SMARCA2 QKIAK 1505 1 SMARCA2 IKLNK 1540 2 SMARCA2 DFKEYHR 463 1 SMARCA2 QKIAK 1505 1 SMARCA2 QKIAK 1505 1 SMARCA2 QKIAK 1505 1 DPF2 SEEQKSK 258 1 SMARCA2 QKIAK 1505 2 SMARCA2 KELPEYYELIR 1434 2 SMARCA2 KELPEYYELIR 1434 1 DPF2 KEGLISQDGSSLEALLR 108 1 SMARCC2 VEEAAKVTGK 724 1 DPF2 TDPLEKR 130 2 SMARCC2 ALPEFFNGKNKSK 455 2 SMARCC2 ALPEFFNGKNKSK 455 1 SMARCC2 KGGNYKK 297 1 DPF2 GKGVGSAR 188 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 SKGKGVGSAR 186 2 SMARCD1 MADKILPQR 131 1 SMARCE1 KVWDQVK 79 1 SMARCE1 KVWDQVK 79 1 DPF2 TDPLEKR 130 1 SMARCE1 VEVDMEKIAAEIAQAEEQAR 284 1 DPF2 GKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 SKGKGVGSAR 186 1 SMARCC1 AGGALCHILGAAYKYK 127 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 DPF2 TDPLEKR 130 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KPVSFR 292 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 SMARCB1 KIRDQDR 364 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 SMARCD3 DLKVMTDVAGNPEEER 432 1 SMARCD3 DLKVMTDVAGNPEEER 432 1 SMARCD3 DLKVMTDVAGNPEEER 432 1 SMARCD3 DLKVMTDVAGNPEEERR 432 1 SMARCD3 DLKVMTDVAGNPEEER 432 1 SMARCD3 DLKVMTDVAGNPEEERR 432 1 SMARCD3 DLKVMTDVAGNPEEERR 432 1 SMARCD3 DLKVMTDVAGNPEEERR 432 1 SMARCD3 DLKVMTDVAGNPEEER 432 1 SMARCD3 DLKVMTDVAGNPEEER 432 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 2 SMARCA2 LEKQQK 434 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B RKITSK 1612 1 ARID1B KITSK 1612 1 ARID1B KITSK 1612 2 SMARCA2 AYKR 416 2 SMARCA2 AYKR 416 1 ARID1B KPLDLFR 1083 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 SMARCA4 RDTALETALNAKAYK 437 1 SMARCA4 DTALETALNAKAYKR 437 1 SMARCA4 DTALETALNAKAYK 437 1 SMARCA4 DTALETALNAKAYKR 437 1 SMARCA4 DTALETALNAKAYKR 437 1 SMARCA4 RDTALETALNAKAYK 437 1 SMARCA4 DTALETALNAKAYK 437 1 ARID1B HMDGMYGPPAKR 1372 1 SMARCA4 VSYKGSPAAR 835 1 ARID1B RKITSK 1612 1 ARID1B KITSK 1612 1 ARID1B KITSK 1612 1 ARID1B RKITSK 1612 1 ARID1B RKITSK 1612 1 ARID1B RKITSK 1612 1 ARID1B RKITSK 1612 1 ARID1B RKITSK 1612 1 ARID1B KITSK 1612 1 ARID1B KITSKDIVTPEAWR 1616 1 ARID1B KITSKDIVTPEAWR 1616 1 ARID1B ITSKDIVTPEAWR 1616 1 ARID1B KITSKDIVTPEAWR 1616 1 ARID1B KITSKDIVTPEAWR 1616 1 ARID1B ITSKDIVTPEAWR 1616 1 ARID1B KITSKDIVTPEAWR 1616 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B KITSKDIVTPEAWR 1612 1 ARID1B KITSKDIVTPEAWR 1612 1 ARID1B KITSKDIVTPEAWR 1612 1 ARID1B KITSKDIVTPEAWR 1612 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 RLDIQEALKR 173 1 SMARCD1 NHNAKKK 125 1 SMARCD1 DLKTMTDVVGNPEEER 464 1 SMARCD1 DLKTMTDVVGNPEEERR 464 1 SMARCD1 DLKTMTDVVGNPEEERR 464 1 SMARCD1 DLKTMTDVVGNPEEERR 464 1 SMARCD1 DLKTMTDVVGNPEEERR 464 1 SMARCD1 DLKTMTDVVGNPEEER 464 1 SMARCD1 DLKTMTDVVGNPEEERR 464 1 SMARCD1 DLKTMTDVVGNPEEER 464 1 SMARCD1 DLKTMTDVVGNPEEER 464 1 SMARCD1 DLKTMTDVVGNPEEER 464 1 SMARCD1 DLKTMTDVVGNPEEERR 464 1 SMARCD1 LDIQEALKRPIK 173 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMRK 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 1 ARID1B EITFPPGSVEASQPVLKQR 1608 1 ARID1B EITFPPGSVEASQPVLKQR 1608 1 ARID1B EITFPPGSVEASQPVLKQR 1608 1 ARID1B EITFPPGSVEASQPVLKQR 1608 1 ARID1B KITSKDIVTPEAWR 1616 1 ARID1B ITSKDIVTPEAWR 1616 1 ARID1B ITSKDIVTPEAWR 1616 1 ARID1B KITSKDIVTPEAWR 1616 1 ARID1B ITSKDIVTPEAWR 1616 1 ARID1B ITSKDIVTPEAWR 1616 2 SMARCC2 DDWNKVSEHVGSR 622 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 ARID1B KKEQEGK 1843 1 ARID1B KKEQEGK 1843 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 1 ARID1B KKEQEGK 1844 1 SMARCC2 SKAAASATR 592 1 SMARCC2 SKAAASATR 592 1 SMARCC2 SKAAASATR 592 1 SS18 GKGEITPAAIQK 13 1 SMARCD2 MADKVLPQR 143 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 RDLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 RDLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 HIFAKVQQR 514 1 ARID1B YVGDRKNPVCR 2110 1 ARID1B YVGDRKNPVCR 2110 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCB1 EQKAKR 124 2 BCL7A VMAAIEKVRK 27 2 BCL7A VMAAIEKVRK 27 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 TDIYSKK 608 1 SMARCC1 TDIYSKK 608 1 ARID1B SDKLGR 1792 1 ARID1B SDKLGR 1792 1 ARID1B SDKLGR 1792 1 SMARCC1 EDEDPAKGDQSR 428 1 SMARCC1 EDEDPAKGDQSR 428 1 SMARCC1 EDEDPAKGDQSR 428 1 SMARCD2 KPLTQK 186 1 SMARCD2 KPLTQKR 186 1 SMARCD2 KPLTQKR 186 1 SMARCD2 KPLTQKR 186 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 KGQASLYGKR 346 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCC1 DRKASANAR 317 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCD1 YFYSKVQQR 498 1 SMARCD1 YFYSKVQQR 498 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 3 SMARCD1 RKLR 181 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCD1 THKLQDPHER 327 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCD1 MKFSEIPQR 353 1 SMARCC2 GKEKPTDMQNFGLR 566 1 SMARCC2 TVNTKK 364 1 SMARCC1 SKGASAGR 615 1 SMARCC1 ESDTGKK 854 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC2 TKVER 848 1 SMARCC1 KVQEAAR 740 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC1 KVQEAAR 740 1 SMARCC2 KGGNYKK 292 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCC1 EKEALEQQR 925 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELK 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCC1 EKEALEQQR 925 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCC1 QNFHMEQLKYAELR 948 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 EKEAAEQAER 305 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 BCL7A IYKWVPVTEPK 47 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 SMARCA4 IQKLTK 499 1 SMARCA4 IQKLTK 499 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A KGKDEK 65 2 BCL7A VMAAIEKVR 27 1 SMARCA4 LKGGR 1610 2 BCL7A VMAAIEKVR 27 1 BCL7A KGKDEK 67 2 BCL7A KWEKK 30 2 BCL7A KWEK 30 1 SMARCA4 IQKLTK 499 1 BCL7A AKDDIKR 19 1 SMARCA2 SVAGKIQK 472 1 SMARCA2 SVAGKIQK 472 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 SMARCA2 IQKLSK 475 1 BCL7A AKDDIKR 19 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAK 124 1 SMARCB1 EQKAKR 124 2 BCL7A KWVTVGDTSLR 34 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 19

TABLE 7B DPF2 Intra Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 SMARCD2 1 SMARCD2:289- 14.61525 SMARCD2:297 −3 0.89577108 JL021317_021517_BAF45D_70B_(—) NP 14.61525 0.29836783 3.33E−06 1//9 30//133 Fusion_MS2.21004.21004.4 −2 −3.2774824 JL021317_021517_BAF45D_70B_(—) NP 13.37825 0.34571355 1.20E−16 //9 27//133 Fusion_MS2.20335.20335.4 −1 −1.3288095 JL021317_021517_BAF45D_70B_(—) NP 13.24 0.31021192 6.59E−10 //9 23//133 Fusion_MS2.20278.20278.4 −2 6.62890154 JL021317_021517_BAF45D_70B_(—) N 11.57725 0.2364731 1//16 16//79 Fusion_MS2.20801.20801.4 −1 13.7593699 JL021317_021517_BAF45D_70B_(—) N 10.67725 0.25180412 1//16 13//79 Fusion_MS2.20846.20846.4 0 10.0808045 JL021317_021517_BAF45D_5D_(—) N 10.597 0.28517607 1//16 16//78 Fusion_MS2.20344.20344.4 −2 0.94464221 JL021317_021517_BAF45D_70B_(—) NP 9.929 0.19184064 7.76E−03 //9 23//133 Fusion_MS2.21084.21084.4 −1 19.8094486 JL021317_021517_BAF45D_70B_(—) N 9.6795 0.25606804 1//16 18//78 Fusion_MS2.20414.20414.4 −2 12.6522677 JL021317_021517_BAF45D_70B_(—) N 9.52875 0.20126414 1//16 15//78 Fusion_MS2.20989.20989.4 −2 17.1972768 JL021317_021517_BAF45D_5D_(—) N 9.4165 0.26881628 1//16 15//78 Fusion_MS2.20361.20361.4 −3 16.5337134 JL021317_021517_BAF45D_100B_(—) N 8.712 0.2122264 1//16 15//78 Fusion_MS2.20457.20457.4 −3 −0.67925187 JL021317_021517_BAF45D_100B_(—) NP 7.06225 0.18228689 1.40E−06 //9 17//133 Fusion_MS2.20461.20461.4 −2 12.8686957 JL021317_021517_BAF45D_D_(—) N 6.85925 0.14582979 //16 15//78 Fusion_MS2.20172.20172.4 −2 15.2494107 JL021317_021517_hBAF45D_(—) N 5.20175 0.1179241 //16 10//78 Fusion_MS2.21836.21836.4 −2 6.03284366 JL021317_021517_BAF45D_10D_(—) P 3.48825 0.13789457 3.22E−06 //9 9//133 Fusion_MS2.20470.20470.4 2 SMARCD2:289- 11.055 SMARCD2:401 −3 1.40455702 JL021317_021517_BAF45D_85B_(—) NP 11.055 0.2498418 1.19E−05 //15 27//212 Fusion_MS2.13860.13860.6 −1 −1.23834391 JL021317_021517_BAF45D_85B_(—) NP 7.20525 0.16883018 5.05E−02 //15 19//212 Fusion_MS2.13885.13885.6 −2 1.27193188 JL021317_021517_BAF45D_85B_(—) N 5.065 0.11701648 //13 11//119 Fusion_MS2.13861.13861.7 3 SMARCD2:139- 13.54475 SMARCD2:451 −1 2.88321971 JL021317_021517_BAF45D_85B_(—) N 13.54475 0.39702046 //11 19//56 Fusion_MS2.12896.12896.4 4 SMARCD2:451- 8.764 SMARCD2:514 −1 1.04640512 JL021317_021517_BAF45D_5D_(—) NP 8.764 0.31355432 2.78E−07 //16 22//115 Fusion_MS2.10616.10616.5 5 SMARCD2:185- 8.66325 SMARCD2:191 −2 2.08932401 JL021317_021517_BAF45D_70B_(—) P 8.66325 0.29024072 1.77E−05 //11 22//48 Fusion_MS2.10456.10456.4 0 −1.35402355 JL021317_021517_BAF45D_85B_(—) P 8.52975 0.28213376 9.09E−12 //11 17//49 Fusion_MS2.08977.08977.4 0 −1.35711806 JL021317_021517_BAF45D_100B_(—) P 8.24775 0.3356701 2.89E−06 //12 19//56 Fusion_MS2.09883.09883.4 0 −2.19034588 JL021317_021517_BAF45D_70B_(—) P 7.782 0.28568806 1.01E−03 //11 17//48 Fusion_MS2.09790.09790.4 0 −1.70191554 JL021317_021517_BAF45D_100B_(—) P 7.3415 0.28346654 5.75E−04 //12 17//56 Fusion_MS2.09869.09869.4 0 4.13612265 JL021317_021517_hBAF45D_(—) P 6.4345 0.24779051 6.05E−03 //11 18//48 Fusion_MS2.11509.11509.4 0 3.70195324 JL021317_021517_hBAF45D_(—) P 6.09475 0.22963961 9.23E−03 //11 17//48 Fusion_MS2.11503.11503.4 0 0.16006098 JL021317_021517_BAF45D_100B_(—) P 5.825 0.20798372 3.58E−05 //11 14//49 Fusion_MS2.09003.09003.4 0 −2.02764259 JL021317_021517_BAF45D_10D_(—) P 5.583 0.25412504 1.14E−06 //12 16//68 Fusion_MS2.07918.07918.5 6 SMARCD2:185- 7.12075 SMARCD2:193 −1 2.86003227 JL021317_021517_BAF45D_85B_(—) N 7.12075 0.29020459 //4 3//19 Fusion_MS2.09548.09548.5 7 SMARCD2:185- 8.20425 SMARCD2:186 0 −1.27652276 JL021317_021517_BAF45D_10D_(—) P 8.20425 0.33646038 7.25E−05 //12 21//56 Fusion_MS2.07940.07940.4 −1 −1.9863761 JL021317_021517_BAF45D_85B_(—) NP 4.7555 0.17786214 1.02E−01 //11 15//59 Fusion_MS2.08960.08960.5 0 0.14415832 JL021317_021517_BAF45D_10D_(—) N 3.65775 0.16981986 //8 6//45 Fusion_MS2.06366.06366.5 8 SMARCD2:206- 15.7325 SMARCD2:289 −4 2.39706541 JL021317_021517_BAF45D_70B_(—) P 15.7325 0.40712946 6.44E−07 //8 42//318 Fusion_MS2.13382.13382.6 −3 −0.22918877 JL021317_021517_BAF45D_70B_(—) P 13.431 0.35218691 3.06E−07 //8 39//318 Fusion_MS2.13391.13391.5 −3 10.4664367 JL021317_021517_BAF45D_70B_(—) NP 12.75825 0.33367551 2.44E−05 //8 44//318 Fusion_MS2.13413.13413.6 −1 2.72397596 JL021317_021517_BAF45D_50B_(—) NP 9.674 0.23614993 5.38E−07 //8 34//244 Fusion_MS2.11364.11364.5 −1 −3.76955259 JL021317_021517_hBAF45D_(—) P 7.22 0.21074447 7.13E−06 //8 31//244 Fusion_MS2.12835.12835.5 −1 −4.44129693 JL021317_021517_hBAF45D_(—) P 6.6725 0.18113336 5.55E−08 //8 30//244 Fusion_MS2.12824.12824.5 −3 −5.31456456 JL021317_021517_hBAF45D_(—) P 6.3985 0.18689391 2.51E−03 //8 24//244 Fusion_MS2.12815.12815.5 −2 3.96913954 JL021317_021517_BAF45D_50B_(—) P 6.33425 0.16709974 4.27E−06 //8 21//178 Fusion_MS2.11392.11392.4 9 SMARCD2:480- 6.50325 SMARCD2:514 −1 −5.67071593 JL021317_021517_BAF45D_100B_(—) NP 6.50325 0.22533784 7.13E−03 //16 11//105 Fusion_MS2.13652.13652.4 10 SMARCD2:226- 8.744 SMARCD2:289 −3 1.73754948 JL021317_021517_BAF45D_70B_(—) P 8.744 0.1888349 3.59E−04 1//11 31//324 Fusion_MS2.13765.13765.6 −2 −0.99279043 JL021317_021517_BAF45D_70B_(—) P 6.13025 0.13533905 3.48E−03 //13 19//157 Fusion_MS2.13217.13217.4 −4 4.09645981 JL021317_021517_BAF45D_70B_(—) P 3.54175 0.08685656 2.12E−02 //11 19//324 Fusion_MS2.13788.13788.5 11 SMARCD2:237- 15.25925 SMARCD2:401 −1 4.90886995 JL021317_021517_BAF45D_70B_(—) NP 15.25925 0.41668601 3.16E−10 4//15 44//216 Fusion_MS2.13774.13774.5 −3 2.57904324 JL021317_021517_BAF45D_70B_(—) NP 9.91125 0.27995904 3.40E−05 4//15 35//216 Fusion_MS2.13775.13775.6 −1 1.34384918 JL021317_021517_BAF45D_70B_(—) N 8.95425 0.26481287 3//13 13//54 Fusion_MS2.19273.19273.6 0 2.78962961 JL021317_021517_BAF45D_70B_(—) N 6.74225 0.15993382 1//13 9//54 Fusion_MS2.18766.18766.6 12 SMARCD2:168- 9.94425 SMARCD2:176 −2 7.93510504 JL021317_021517_BAF45D_85B_(—) NP 9.94425 0.31960179 2.81E−05 2//11 13//61 Fusion_MS2.08924.08924.4 13 SMARCD2:168- 8.4875 SMARCD2:514 0 2.09811622 JL021317_021517_BAF45D_100B_(—) NP 8.4875 0.31509875 1.66E−06 3//11 14//50 Fusion_MS2.08292.08292.4 2 SMARCC2 1 SMARCC2:617- 10.3495 SMARCC2:694 −2 −0.45423714 JL021317_021517_BAF45D_D_(—) NP 10.3495 0.25017828 1.77E−08 //2 27//250 Fusion_MS2.21453.21453.6 −2 −5.34278433 JL021317_021517_BAF45D_100B_(—) NP 9.543 0.21460617 1.31E−08 //2 26//250 Fusion_MS2.21949.21949.6 −2 4.84168898 JL021317_021517_BAF45D_100B_(—) NP 8.93325 0.20891116 1.18E−09 //2 31//250 Fusion_MS2.21978.21978.6 −1 4.64661662 JL021317_021517_BAF45D_100B_(—) N 8.894 0.214722 //17 12//84 Fusion_MS2.21631.21631.6 −3 12.1250619 JL021317_021517_BAF45D_5D_(—) N 8.48625 0.20935353 //17 12//84 Fusion_MS2.21765.21765.6 −2 6.47120471 JL021317_021517_BAF45D_5D_(—) NP 7.64825 0.22913016 6.52E−06 //2 21//250 Fusion_MS2.21702.21702.6 −4 −3.73590076 JL021317_021517_BAF45D_D_(—) P 7.57725 0.17673505 1.97E−05 //2 28//250 Fusion_MS2.21430.21430.6 −2 10.6623655 JL021317_021517_BAF45D_D_(—) N 5.098 0.11890795 //15 7//71 Fusion_MS2.21430.21430.6 −3 8.70293551 JL021317_021517_BAF45D_100B_(—) P 5.077 0.15050767 3.81E−04 //2 20//250 Fusion_MS2.21961.21961.5 −1 −0.82520507 JL021317_021517_BAF45D_100B_(—) P 3.9905 0.10315101 4.81E−03 //2 13//250 Fusion_MS2.21985.21985.5 2 SMARCC2:359- 9.427 SMARCC2:365 −3 6.95908987 JL021317_021517_BAF45D_50B_(—) P 9.427 0.23154766 7.52E−05 //12 28//138 Fusion_MS2.11661.11661.4 3 SMARCC2:33- 6.49675 SMARCC2:37 −1 2.12230337 JL021317_021517_BAF45D_70B_(—) N 6.49675 0.20304882 2//10 11//39 Fusion_MS2.10404.10404.4 4 SMARCC2:848- 6.166 SMARCC2:874 −1 1.53268979 JL021317_021517_BAF45D_100B_(—) NP 6.166 0.2775727 5.61E−04 //10 18//52 Fusion_MS2.05325.05325.4 −1 5.95324453 JL021317_021517_BAF45D_D_(—) N 5.676 0.27860404 //8 7//30 Fusion_MS2.04747.04747.4 −1 7.93796867 JL021317_021517_BAF45D_D_(—) N 5.57375 0.27564166 //8 10//30 Fusion_MS2.04735.04735.4 −2 6.09938328 JL021317_021517_BAF45D_D_(—) N 5.24775 0.25362476 //8 8//30 Fusion_MS2.04725.04725.4 5 SMARCC2:848- 18.4435 SMARCC2:872 −1 −4.76924951 JL021317_021517_BAF45D_70B_(—) P 18.4435 0.59174474 5.73E−05 //18 37//191 Fusion_MS2.14935.14935.5 −2 3.85535246 JL021317_021517_BAF45D_50B_(—) P 14.67825 0.39983792 1.46E−02 //18 33//148 Fusion_MS2.15693.15693.4 −1 −0.9374903 JL021317_021517_BAF45D_50B_(—) P 14.6535 0.39923986 8.40E−03 //18 35//148 Fusion_MS2.15681.15681.4 6 SMARCC2:564- 15.77975 SMARCC2:568 −3 7.68799786 JL021317_021517_BAF45D_50B_(—) N 15.77975 0.37145867 1//12 14//62 Fusion_MS2.14417.14417.4 0 0.7289582 JL021317_021517_BAF45D_50B_(—) N 14.835 0.37184179 //12 11//62 Fusion_MS2.13772.13772.4 −2 −3.67441265 JL021317_021517_BAF45D_50B_(—) NP 14.26125 0.33452769 2.45E−16 //14 37//111 Fusion_MS2.12218.12218.4 −1 7.02038271 JL021317_021517_BAF45D_50B_(—) N 13.5335 0.33320202 //12 9//62 Fusion_MS2.13928.13928.4 −2 3.49788356 JL021317_021517_BAF45D_50B_(—) N 13.48825 0.33378082 //12 11//62 Fusion_MS2.13751.13751.4 −1 3.31666917 JL021317_021517_BAF45D_50B_(—) N 10.68275 0.22710411 1//12 8//62 Fusion_MS2.13996.13996.4 0 1.37066306 JL021317_021517_BAF45D_50B_(—) NP 3.42875 0.08384482 2.79E−04 //14 18//111 Fusion_MS2.12424.12424.4 7 SMARCC2:585- 5.91225 SMARCC2:585 0 4.4719601 JL021317_021517_BAF45D_50B_(—) N 5.91225 0.19463236 2//14 9//65 Fusion_MS2.06324.06324.4 8 SMARCC2:585- 8.2065 SMARCC2:718 −1 1.25195684 JL021317_021517_BAF45D_50B_(—) N 8.2065 0.25468229 //8 8//34 Fusion_MS2.07295.07295.4 9 SMARCC2:585- 8.653 SMARCC2:704 0 1.55618406 JL021317_021517_BAF45D_85B_(—) P 8.653 0.25024582 3.87E−06 //15 24//93 Fusion_MS2.09627.09627.4 10 SMARCC2:585- 5.39325 SMARCC2:592 0 −0.76532591 JL021317_021517_BAF45D_70B_(—) NP 5.39325 0.25156257 2.66E−06 //9 11//42 Fusion_MS2.03535.03535.4 0 −4.12586719 JL021317_021517_hBAF45D_(—) NP 5.37025 0.28320369 2.79E−03 //9 11//42 Fusion_MS2.03676.03676.4 −1 −4.27197769 JL021317_021517_hBAF45D_(—) NP 4.622 0.25856619 1.08E−05 //9 10//42 Fusion_MS2.03672.03672.4 0 6.02881192 JL021317_021517_hBAF45D_(—) P 3.457 0.16643798 7.20E−06 //9 9//42 Fusion_MS2.03766.03766.4 11 SMARCC2:694- 12.05175 SMARCC2:848 0 −3.2408936 JL021317_021517_BAF45D_85B_(—) P 12.05175 0.40716059 3.17E−04 //17 24//90 Fusion_MS2.09448.09448.4 −1 −1.90065182 JL021317_021517_BAF45D_70B_(—) NP 10.87525 0.24083732 5.44E−07 1//17 24//157 Fusion_MS2.15836.15836.4 0 0.05234733 JL021317_021517_BAF45D_85B_(—) P 7.14825 0.25722845 3.24E−02 //17 19//115 Fusion_MS2.09515.09515.5 −1 6.50314599 JL021317_021517_hBAF45D_(—) P 6.25675 0.22421609 1.85E−03 //17 20//90 Fusion_MS2.09615.09615.4 12 SMARCC2:694- 18.3435 SMARCC2:704 −1 0.22263551 JL021317_021517_BAF45D_70B_(—) NP 18.3435 0.5533985 9.24E−09 4//15 33//87 Fusion_MS2.13506.13506.4 0 0.30967007 JL021317_021517_BAF45D_70B_(—) NP 16.3125 0.51831787 3.78E−06 6//15 32//111 Fusion_MS2.13511.13511.5 0 4.36807175 JL021317_021517_BAF45D_70B_(—) N 13.721 0.41361328 //17 20//84 Fusion_MS2.13160.13160.4 −3 2.04254105 JL021317_021517_hBAF45D_(—) NP 12.88425 0.37786495 8.00E−14 2//15 24//87 Fusion_MS2.14251.14251.4 −1 1.36299178 JL021317_021517_BAF45D_70B_(—) N 12.271 0.3908273 //17 19//109 Fusion_MS2.13164.13164.5 −1 9.58509998 JL021317_021517_BAF45D_D_(—) NP 11.40175 0.32970664 1.21E−04 1//11 31//176 Fusion_MS2.15393.15393.5 0 2.47931838 JL021317_021517_hBAF45D_(—) NP 10.055 0.321087 5.35E−11 1//15 19//87 Fusion_MS2.14235.14235.4 0 9.00308402 JL021317_021517_BAF45D_70B_(—) N 9.449 0.30068895 //17 17//109 Fusion_MS2.13194.13194.5 −3 4.09507358 JL021317_021517_hBAF45D_(—) NP 9.20275 0.32393214 4.84E−11 2//15 19//111 Fusion_MS2.14241.14241.5 0 7.45434587 JL021317_021517_BAF45D_50B_(—) N 6.84425 0.20533879 1//17 11//84 Fusion_MS2.14853.14853.4 0 12.2735257 JL021317_021517_BAF45D_70B_(—) N 5.59675 0.13569853 //17 11//84 Fusion_MS2.15350.15350.4 0 6.35465133 JL021317_021517_BAF45D_70B_(—) N 4.20575 0.12356951 //17 16//84 Fusion_MS2.13203.13203.4 13 SMARCC2:694- 14.50475 SMARCC2:874 0 0.28088132 JL021317_021517_BAF45D_85B_(—) NP 14.50475 0.39342917 8.33E−13 2//17 29//86 Fusion_MS2.11113.11113.4 0 3.19102236 JL021317_021517_hBAF45D_(—) NP 12.47475 0.41398965 2.11E−15 //17 25//86 Fusion_MS2.11584.11584.4 −1 −2.10014316 JL021317_021517_hBAF45D_(—) NP 11.50575 0.39071414 3.18E−12 //17 23//86 Fusion_MS2.11582.11582.4 −1 11.8332594 JL021317_021517_BAF45D_D_(—) NP 11.2985 0.3531609 4.62E−08 //17 20//86 Fusion_MS2.11117.11117.4 −3 8.48218788 JL021317_021517_BAF45D_D_(—) NP 10.38625 0.33167542 2.25E−07 //17 21//86 Fusion_MS2.11110.11110.4 0 −3.77567891 JL021317_021517_BAF45D_5D_(—) NP 10.36725 0.31260082 1.24E−10 //17 21//86 Fusion_MS2.11085.11085.4 −1 −2.10014316 JL021317_021517_BAF45D_85B_(—) NP 8.80525 0.25708759 6.88E−10 //17 22//86 Fusion_MS2.11078.11078.4 0 0.38631588 JL021317_021517_BAF45D_85B_(—) NP 7.473 0.20377945 3.98E−06 //17 13//111 Fusion_MS2.11093.11093.5 −3 2.98780559 JL021317_021517_hBAF45D_(—) NP 6.674 0.21530769 1.05E−11 //17 12//111 Fusion_MS2.11588.11588.5 14 SMARCC2:694- 11.61725 SMARCC2:702 −2 2.27820485 JL021317_021517_BAF45D_85B_(—) NP 11.61725 0.34117708 8.80E−03 1//10 36//180 Fusion_MS2.15565.15565.6 −2 3.99225546 JL021317_021517_BAF45D_5D_(—) NP 11.2785 0.33790727 2.69E−06 1//10 26//180 Fusion_MS2.15426.15426.5 −1 −2.49199359 JL021317_021517_BAF45D_100B_(—) NP 11.01775 0.2961124 6.02E−06 //10 25//180 Fusion_MS2.15590.15590.5 −3 −3.90098784 JL021317_021517_BAF45D_5D_(—) NP 10.9375 0.30952853 3.17E−04 1//10 31//180 Fusion_MS2.15440.15440.5 −2 −0.53665463 JL021317_021517_BAF45D_85B_(—) NP 10.59425 0.2616995 3.57E−05 1//10 31//180 Fusion_MS2.15561.15561.5 −1 4.09602693 JL021317_021517_BAF45D_85B_(—) NP 10.20125 0.21574651 3.74E−04 //10 22//132 Fusion_MS2.15615.15615.4 −2 −0.56853863 JL021317_021517_BAF45D_100B_(—) NP 9.6195 0.28893895 4.55E−04 //10 22//180 Fusion_MS2.15575.15575.6 −1 −1.05424435 JL021317_021517_BAF45D_D_(—) NP 9.408 0.28745589 3.27E−05 //10 22//180 Fusion_MS2.15419.15419.5 −2 2.53699971 JL021317_021517_BAF45D_5D_(—) NP 9.04175 0.3289524 2.24E−06 //10 25//180 Fusion_MS2.15429.15429.6 −1 0.24033428 JL021317_021517_BAF45D_85B_(—) N 8.1425 0.18869346 //17 16//109 Fusion_MS2.18696.18696.5 −2 9.7845461 JL021317_021517_BAF45D_85B_(—) N 8.111 0.20288659 //17 13//109 Fusion_MS2.18690.18690.5 0 0.33097391 JL021317_021517_BAF45D_5D_(—) N 6.66725 0.20271051 //17 9//109 Fusion_MS2.15830.15830.5 −2 0.70928517 JL021317_021517_BAF45D_85B_(—) N 5.7485 0.14669219 //17 11//109 Fusion_MS2.14110.14110.5 0 3.63351212 JL021317_021517_BAF45D_85B_(—) N 5.39575 0.18815273 //17 7//84 Fusion_MS2.16011.16011.6 −2 7.88542686 JL021317_021517_BAF45D_10D_(—) P 4.39 0.18470212 1.92E−04 //10 13//180 Fusion_MS2.15503.15503.6 15 SMARCC2:694- 18.786 SMARCC2:694 0 2.77500736 JL021317_021517_BAF45D_50B_(—) NP 18.786 0.56600533 3.10E−05 3//17 27//84 Fusion_MS2.14102.14102.4 −1 0.76220718 JL021317_021517_BAF45D_50B_(—) NP 16.882 0.51751146 5.73E−05 2//17 24//84 Fusion_MS2.14087.14087.4 16 SMARCC2:694- 12.328 SMARCC2:718 0 −2.72322811 JL021317_021517_BAF45D_50B_(—) NP 12.328 0.37519592 2.75E−06 //17 24//90 Fusion_MS2.08826.08826.4 −2 8.07461136 JL021317_021517_BAF45D_70B_(—) NP 6.312 0.21481809 1.57E−05 //17 20//90 Fusion_MS2.09922.09922.4 17 SMARCC2:694- 11.07 SMARCC2:846 0 0.71762248 JL021317_021517_BAF45D_85B_(—) NP 11.07 0.4109589 1.03E−07 //17 26//90 Fusion_MS2.09233.09233.4 −1 3.12273481 JL021317_021517_BAF45D_85B_(—) NP 7.489 0.26199514 5.24E−03 //17 21//115 Fusion_MS2.09240.09240.5 18 SMARCC2:568- 4.88425 SMARCC2:584 −3 7.35001914 JL021317_021517_BAF45D_70B_(—) N 4.88425 0.13340389 1//12 11//63 Fusion_MS2.12775.12775.4 19 SMARCC2:568- 11.0095 SMARCC2:718 −1 −0.11474209 JL021317_021517_BAF45D_70B_(—) NP 11.0095 0.3860815 6.29E−07 2//12 23//68 Fusion_MS2.08783.08783.4 20 SMARCC2:568- 4.96275 SMARCC2:846 0 5.75256839 JL021317_021517_BAF45D_100B_(—) P 4.96275 0.15650426 2.56E−02 //12 14//69 Fusion_MS2.08692.08692.4 21 SMARCC2:828- 9.7025 SMARCC2:828 0 9.96663711 JL021317_021517_BAF45D_10D_(—) N 9.7025 0.28277691 1//13 11//114 Fusion_MS2.08864.08864.7 0 14.150235 JL021317_021517_BAF45D_10D_(—) N 4.978 0.18217416 1//13 13//153 Fusion_MS2.08878.08878.5 22 SMARCC2:828- 6.39075 SMARCC2:836 −3 8.50221496 JL021317_021517_BAF45D_5D_(—) N 6.39075 0.19717843 //17 8//98 Fusion_MS2.08204.08204.6 23 SMARCC2:874- 15.9075 SMARCC2:883 −2 3.45750926 JL021317_021517_BAF45D_D_(—) N 15.9075 0.55385339 3//10 13//46 Fusion_MS2.16829.16829.4 0 2.47808451 JL021317_021517_BAF45D_100B_(—) N 14.08 0.47413793 2//10 11//57 Fusion_MS2.17068.17068.5 0 4.57170555 JL021317_021517_BAF45D_5D_(—) N 13.9645 0.44839212 2//10 11//57 Fusion_MS2.17003.17003.5 −1 1.40309613 JL021317_021517_BAF45D_5D_(—) N 12.00875 0.41833589 1//10 10//57 Fusion_MS2.16961.16961.5 0 1.48798384 JL021317_021517_BAF45D_10D_(—) NP 11.8995 0.45464792 9.88E−13 1//16 26//122 Fusion_MS2.14696.14696.5 −1 6.72105941 JL021317_021517_BAF45D_100B_(—) N 10.97825 0.41555947 //10 9//57 Fusion_MS2.16589.16589.5 −2 3.32477704 JL021317_021517_BAF45D_10D_(—) N 10.32225 0.42498508 //10 9//57 Fusion_MS2.17065.17065.5 0 4.40508807 JL021317_021517_BAF45D_10D_(—) N 8.6025 0.28422044 //10 9//57 Fusion_MS2.15992.15992.5 0 7.96118584 JL021317_021517_BAF45D_D_(—) N 7.95075 0.32972194 //10 8//57 Fusion_MS2.16311.16311.5 24 SMARCC2:874- 14.3425 SMARCC2:874 0 −0.88659148 JL021317_021517_BAF45D_5D_(—) NP 14.3425 0.64955504 1.75E−06 4//10 24//63 Fusion_MS2.06846.06846.5 0 2.27603649 JL021317_021517_BAF45D_5D_(—) N 13.259 0.67258478 5//10 25//52 Fusion_MS2.06853.06853.4 25 SMARCC2:874- 16.84125 SMARCC2:885 −2 2.02211539 JL021317_021517_BAF45D_100B_(—) N 16.84125 0.58066268 2//10 12//46 Fusion_MS2.17085.17085.4 −3 1.2499375 JL021317_021517_BAF45D_5D_(—) N 15.24975 0.55511166 1//10 11//46 Fusion_MS2.16968.16968.4 0 0.42048813 JL021317_021517_BAF45D_10D_(—) NP 13.656 0.54332776 3.09E−14 //17 24//89 Fusion_MS2.14697.14697.4 0 0.65514324 JL021317_021517_BAF45D_D_(—) N 13.6375 0.47372992 4//10 13//57 Fusion_MS2.16820.16820.5 −1 8.9961969 JL021317_021517_BAF45D_100B_(—) N 13.26575 0.46958407 1//10 10//46 Fusion_MS2.16022.16022.4 0 2.10643513 JL021317_021517_BAF45D_D_(—) NP 13.16975 0.53237999 1.05E−16 //17 29//113 Fusion_MS2.14398.14398.5 −1 2.84556632 JL021317_021517_BAF45D_100B_(—) N 12.3795 0.41719745 //10 9//46 Fusion_MS2.16061.16061.4 −2 4.37857637 JL021317_021517_BAF45D_D_(—) NP 12.2195 0.41988523 3.79E−11 //17 25//89 Fusion_MS2.14419.14419.4 0 0.3639206 JL021317_021517_BAF45D_D_(—) N 12.12075 0.43780138 //10 9//46 Fusion_MS2.15821.15821.4 −1 0.18509801 JL021317_021517_BAF45D_5D_(—) N 11.27025 0.3587024 //10 10//46 Fusion_MS2.16445.16445.4 −1 7.01896152 JL021317_021517_BAF45D_5D_(—) N 11.156 0.34366336 //10 8//46 Fusion_MS2.17037.17037.4 0 5.74118599 JL021317_021517_BAF45D_5D_(—) N 10.4555 0.33975109 //10 8//46 Fusion_MS2.15919.15919.4 0 0.04335357 JL021317_021517_BAF45D_10D_(—) N 9.45575 0.46333546 //10 9//57 Fusion_MS2.13663.13663.5 −1 1.03167296 JL021317_021517_BAF45D_10D_(—) N 9.083 0.39990314 //10 9//57 Fusion_MS2.13655.13655.5 0 3.44641292 JL021317_021517_BAF45D_5D_(—) NP 7.70225 0.30998712 3.41E−10 //17 14//113 Fusion_MS2.14602.14602.5 −1 4.38406632 JL021317_021517_BAF45D_5D_(—) N 4.5805 0.15584173 //10 11//46 Fusion_MS2.13587.13587.4 26 SMARCC2:365- 6.9965 SMARCC2:6 −2 9.90009335 JL021317_021517_BAF45D_85B_(—) N 6.9965 0.33235951 //9 8//46 Fusion_MS2.03643.03643.4 0 −2.01676498 JL021317_021517_BAF45D_85B_(—) P 4.06275 0.20903759 6.12E−03 //10 11//51 Fusion_MS2.03666.03666.4 27 SMARCC2:584- 2.36525 SMARCC2:590 0 −2.76257986 JL021317_021517_hBAF45D_(—) P 2.36525 0.08490989 2.13E−02 3//9 7//34 Fusion_MS2.05729.05729.4 28 SMARCC2:584- 4.26175 SMARCC2:724 −3 10.550757 JL021317_021517_BAF45D_85B_(—) N 4.26175 0.19274343 //9 10//34 Fusion_MS2.06075.06075.4 29 SMARCC2:584- 9.69125 SMARCC2:592 0 3.39502937 JL021317_021517_BAF45D_70B_(—) N 9.69125 0.28438435 //9 9//40 Fusion_MS2.08016.08016.4 0 1.68264181 JL021317_021517_hBAF45D_(—) N 7.83175 0.2474682 1//9 7//31 Fusion_MS2.09333.09333.4 −2 5.35140691 JL021317_021517_hBAF45D_(—) N 7.591 0.24416604 1//9 7//31 Fusion_MS2.09331.09331.4 0 8.49642985 JL021317_021517_BAF45D_70B_(—) N 7.1415 0.25678688 //9 10//40 Fusion_MS2.07061.07061.4 0 2.94993969 JL021317_021517_hBAF45D_(—) N 6.6165 0.22627088 //9 10//39 Fusion_MS2.07732.07732.4 −1 1.18946457 JL021317_021517_BAF45D_70B_(—) N 5.432 0.20245993 //9 9//40 Fusion_MS2.07026.07026.4 0 6.97433885 JL021317_021517_hBAF45D_(—) N 4.992 0.17432298 //9 9//40 Fusion_MS2.07814.07814.4 0 3.81271984 JL021317_021517_BAF45D_70B_(—) N 4.82825 0.16844887 //9 9//45 Fusion_MS2.04712.04712.4 −1 1.66351636 JL021317_021517_BAF45D_50B_(—) N 4.80275 0.188273 1//9 11//39 Fusion_MS2.06423.06423.4 0 4.23533082 JL021317_021517_BAF45D_50B_(—) N 4.61675 0.18548987 1//9 11//39 Fusion_MS2.06459.06459.4 0 4.05168066 JL021317_021517_BAF45D_70B_(—) N 4.27975 0.17453051 //9 10//45 Fusion_MS2.03824.03824.4 0 16.1821481 JL021317_021517_BAF45D_70B_(—) N 4.04825 0.13578125 //9 7//45 Fusion_MS2.04701.04701.4 −1 18.6549387 JL021317_021517_hBAF45D_(—) N 3.83975 0.16706914 //9 8//39 Fusion_MS2.06748.06748.4 30 SMARCC2:769- 7.04525 SMARCC2:773 0 0.92207545 JL021317_021517_BAF45D_D_(—) NP 7.04525 0.29048385 1.60E−10 1//12 17//55 Fusion_MS2.04283.04283.4 0 −2.01346657 JL021317_021517_BAF45D_70B_(—) NP 6.826 0.25117751 1.65E−10 //12 16//55 Fusion_MS2.03972.03972.4 0 −4.64322295 JL021317_021517_BAF45D_D_(—) NP 6.361 0.25163179 2.20E−05 1//12 17//55 Fusion_MS2.04656.04656.4 0 −4.5209087 JL021317_021517_BAF45D_D_(—) NP 5.8635 0.29269936 2.35E−09 //12 15//55 Fusion_MS2.04246.04246.4 −1 10.5287979 JL021317_021517_BAF45D_D_(—) N 3.59775 0.14585276 //5 3//24 Fusion_MS2.04935.04935.4 31 SMARCC2:592- 19.83675 SMARCC2:704 0 −0.31678133 JL021317_021517_BAF45D_85B_(—) NP 19.83675 0.64038061 1.38E−11 3//15 44//94 Fusion_MS2.09444.09444.4 0 1.05346927 JL021317_021517_BAF45D_85B_(—) NP 17.655 0.62241103 1.02E−07 7//15 42//118 Fusion_MS2.09429.09429.5 −1 7.36453611 JL021317_021517_BAF45D_85B_(—) N 9.889 0.32519443 //9 8//38 Fusion_MS2.09005.09005.4 32 SMARCC2:592- 5.25625 SMARCC2:848 0 0.76321045 JL021317_021517_hBAF45D_(—) P 5.25625 0.30204862 3.05E−04 //9 11//43 Fusion_MS2.02955.02955.4 33 SMARCC2:592- 4.7075 SMARCC2:846 0 0.36154681 JL021317_021517_BAF45D_70B_(—) N 4.7075 0.17794704 //9 10//45 Fusion_MS2.05549.05549.4 0 −1.59631314 JL021317_021517_BAF45D_100B_(—) NP 4.4785 0.24514875 1.04E−04 //9 11//43 Fusion_MS2.02639.02639.4 34 SMARCC2:592- 6.25275 SMARCC2:718 0 −2.27991313 JL021317_021517_BAF45D_70B_(—) NP 6.25275 0.35675976 3.76E−05 //9 9//43 Fusion_MS2.03162.03162.4 35 SMARCC2:6- 19.102 SMARCC2:66 −3 8.15186794 JL021317_021517_BAF45D_D_(—) P 19.102 0.44455305 2.67E−04 //7 41//221 Fusion_MS2.21103.21103.5 −3 7.85989949 JL021317_021517_BAF45D_10D_(—) P 12.9765 0.34706268 5.82E−03 //7 35//221 Fusion_MS2.20634.20634.5 0 −2.89696871 JL021317_021517_BAF45D_100B_(—) P 11.309 0.31087898 1.64E−03 //7 32//221 Fusion_MS2.21600.21600.5 −2 4.27696963 JL021317_021517_BAF45D_10D_(—) P 9.43925 0.32347801 3.93E−03 //7 28//221 Fusion_MS2.20628.20628.6 −1 6.35176349 JL021317_021517_BAF45D_10D_(—) P 8.14575 0.28074756 1.18E−02 //7 25//221 Fusion_MS2.20621.20621.6 36 SMARCC2:341- 5.10275 SMARCC2:365 −4 −3.0503561 JL021317_021517_hBAF45D_(—) P 5.10275 0.14047101 9.45E−05 //4 15//243 Fusion_MS2.11764.11764.6 37 SMARCC2:341- 6.09875 SMARCC2:364 −2 0.13401706 JL021317_021517_BAF45D_85B_(—) N 6.09875 0.16634618 //16 9//78 Fusion_MS2.10412.10412.7 −1 −4.70596098 JL021317_021517_BAF45D_85B_(—) NP 5.86575 0.1624884 7.68E−04 //4 13//243 Fusion_MS2.11298.11298.6 −3 0.26898712 JL021317_021517_BAF45D_85B_(—) N 5.85825 0.15274356 //16 9//78 Fusion_MS2.11330.11330.7 −4 0.90869907 JL021317_021517_BAF45D_85B_(—) P 5.42925 0.14952081 3.21E−04 //4 13//243 Fusion_MS2.11292.11292.6 −3 3.72125105 JL021317_021517_BAF45D_85B_(—) P 5.42525 0.1560729 9.02E−06 //4 17//175 Fusion_MS2.11337.11337.4 −2 2.34008581 JL021317_021517_BAF45D_85B_(—) N 4.8705 0.12096864 //16 8//78 Fusion_MS2.11530.11530.6 −1 2.49232114 JL021317_021517_hBAF45D_(—) NP 4.415 0.11737807 2.46E−04 //4 12//243 Fusion_MS2.11749.11749.6 −4 3.86260571 JL021317_021517_BAF45D_85B_(—) P 2.37675 0.06560533 4.70E−01 //4 10//243 Fusion_MS2.11296.11296.5 38 SMARCC2:789- 9.911 SMARCC2:796 0 −5.78258012 JL021317_021517_BAF45D_D_(—) NP 9.911 0.33923193 2.20E−06 //18 29//147 Fusion_MS2.07148.07148.5 −1 0.07208035 JL021317_021517_BAF45D_85B_(—) NP 8.27325 0.24881955 1.37E−06 //18 22//147 Fusion_MS2.07157.07157.5 0 1.68651254 JL021317_021517_BAF45D_D_(—) NP 4.16175 0.22193041 1.72E−06 //8 7//40 Fusion_MS2.02255.02255.4 39 SMARCC2:789- 4.34825 SMARCC2:836 −3 3.03115289 JL021317_021517_BAF45D_85B_(—) N 4.34825 0.10364822 //17 9//94 Fusion_MS2.12587.12587.4 40 SMARCC2:590- 4.66875 SMARCC2:846 0 1.99712964 JL021317_021517_BAF45D_100B_(—) N 4.66875 0.20673737 3//9 10//35 Fusion_MS2.03186.03186.4 41 SMARCC2:590- 2.2915 SMARCC2:848 0 1.52878354 JL021317_021517_BAF45D_100B_(—) P 2.2915 0.10134224 8.25E−04 1//8 7//30 Fusion_MS2.03503.03503.4 42 SMARCC2:823- 9.296 SMARCC2:828 −2 9.12723337 JL021317_021517_BAF45D_D_(—) N 9.296 0.24907561 //18 16//130 Fusion_MS2.13732.13732.5 −2 4.64149443 JL021317_021517_BAF45D_D_(—) N 7.1865 0.19396238 //18 16//130 Fusion_MS2.13726.13726.5 −3 4.22902278 JL021317_021517_BAF45D_70B_(—) N 6.086 0.14385666 //18 14//130 Fusion_MS2.13738.13738.5 43 SMARCC2:236- 14.80675 SMARCC2:263 −2 2.64295734 JL021317_021517_BAF45D_D_(—) P 14.80675 0.43549905 4.21E−07 //10 29//235 Fusion_MS2.15981.15981.5 −3 7.67956706 JL021317_021517_BAF45D_5D_(—) P 14.563 0.40014838 3.08E−07 //10 34//235 Fusion_MS2.15995.15995.5 −3 3.96761481 JL021317_021517_BAF45D_10D_(—) P 13.1105 0.4038038 1.27E−05 1//10 31//235 Fusion_MS2.16053.16053.5 −3 2.54422863 JL021317_021517_BAF45D_100B_(—) P 12.69925 0.37118743 1.25E−03 //10 27//170 Fusion_MS2.16195.16195.4 44 SMARCC2:836- 8.35675 SMARCC2:846 0 −5.57768491 JL021317_021517_BAF45D_85B_(—) P 8.35675 0.30239732 3.38E−05 //17 25//100 Fusion_MS2.10549.10549.4 0 2.16984261 JL021317_021517_BAF45D_85B_(—) N 7.89675 0.2303166 //7 5//29 Fusion_MS2.13140.13140.4 0 6.13496254 JL021317_021517_BAF45D_D_(—) N 7.70275 0.24517777 //7 6//29 Fusion_MS2.13012.13012.4 −1 2.23458716 JL021317_021517_BAF45D_70B_(—) N 7.506 0.24847723 //7 8//29 Fusion_MS2.13009.13009.4 −2 2.92549754 JL021317_021517_BAF45D_100B_(—) P 7.4985 0.29049316 1.68E−06 //17 24//100 Fusion_MS2.10638.10638.4 −1 9.0789123 JL021317_021517_BAF45D_70B_(—) N 7.34975 0.25775031 //7 8//29 Fusion_MS2.12986.12986.4 0 0.09110339 JL021317_021517_BAF45D_D_(—) P 7.02625 0.24981334 5.43E−08 //17 22//100 Fusion_MS2.10592.10592.4 0 −1.07309466 JL021317_021517_BAF45D_D_(—) P 6.974 0.31793937 1.07E−03 //17 19//132 Fusion_MS2.10593.10593.5 0 1.19279955 JL021317_021517_BAF45D_85B_(—) N 6.3155 0.20393632 //7 3//29 Fusion_MS2.12559.12559.4 −1 0.34410242 JL021317_021517_BAF45D_100B_(—) P 6.14275 0.22357191 4.99E−03 //17 19//132 Fusion_MS2.10613.10613.5 −2 −2.5332371 JL021317_021517_BAF45D_10D_(—) P 5.65075 0.25622336 6.03E−05 //17 21//132 Fusion_MS2.10792.10792.5 0 2.75371608 JL021317_021517_hBAF45D_(—) P 5.6015 0.20924542 1.45E−06 //17 20//100 Fusion_MS2.10997.10997.4 0 1.11137938 JL021317_021517_BAF45D_D_(—) N 5.12875 0.16998939 //7 5//29 Fusion_MS2.14352.14352.4 −1 8.75334755 JL021317_021517_BAF45D_D_(—) N 3.3195 0.11661895 //7 5//29 Fusion_MS2.13575.13575.4 45 SMARCC2:836- 10.36825 SMARCC2:848 −2 0.09110339 JL021317_021517_BAF45D_85B_(—) P 10.36825 0.37559999 5.21E−05 //17 31//100 Fusion_MS2.10768.10768.4 0 −0.424241 JL021317_021517_BAF45D_100B_(—) P 8.7445 0.33589414 4.36E−06 //17 30//100 Fusion_MS2.10872.10872.4 0 1.30908027 JL021317_021517_BAF45D_D_(—) N 8.51525 0.28248574 //5 3//25 Fusion_MS2.10903.10903.5 0 −0.32155076 JL021317_021517_BAF45D_85B_(—) P 7.91325 0.28904738 5.66E−03 //17 25//132 Fusion_MS2.10784.10784.5 0 −1.28782149 JL021317_021517_BAF45D_100B_(—) P 7.8005 0.30617812 3.56E−03 //17 25//132 Fusion_MS2.10883.10883.5 −1 0.9882829 JL021317_021517_BAF45D_5D_(—) P 7.62325 0.30704245 5.27E−03 //17 24//132 Fusion_MS2.10768.10768.5 0 6.67412761 JL021317_021517_BAF45D_5D_(—) N 7.6035 0.23643459 //8 5//26 Fusion_MS2.10833.10833.4 −2 1.86866291 JL021317_021517_BAF45D_5D_(—) P 7.24425 0.29627017 4.81E−04 //17 21//132 Fusion_MS2.10775.10775.5 0 −0.85369466 JL021317_021517_hBAF45D_(—) P 7.2015 0.27367041 1.71E−05 //17 24//100 Fusion_MS2.11252.11252.4 0 −1.60991174 JL021317_021517_BAF45D_100B_(—) P 6.38275 0.26291346 1.21E−02 //17 23//132 Fusion_MS2.10856.10856.5 0 −0.85836783 JL021317_021517_hBAF45D_(—) P 5.906 0.27040886 1.89E−03 //17 21//132 Fusion_MS2.11290.11290.5 0 −2.89827271 JL021317_021517_BAF45D_10D_(—) P 5.6715 0.24047574 3.43E−04 //17 19//132 Fusion_MS2.10827.10827.5 −1 2.39737424 JL021317_021517_BAF45D_D_(—) N 4.5245 0.15951558 //8 6//26 Fusion_MS2.12746.12746.4 −1 3.21912537 JL021317_021517_BAF45D_5D_(—) N 4.20875 0.15437023 //8 6//26 Fusion_MS2.12750.12750.4 0 2.12200853 JL021317_021517_BAF45D_100B_(—) N 4.20175 0.14541695 //8 5//26 Fusion_MS2.12965.12965.4 0 5.83035658 JL021317_021517_BAF45D_D_(—) N 3.05525 0.11192212 //8 5//26 Fusion_MS2.12822.12822.4 46 SMARCC2:724- 12.728 SMARCC2:846 0 0.57474271 JL021317_021517_BAF45D_5D_(—) NP 12.728 0.48113707 6.01E−13 4//13 30//64 Fusion_MS2.03606.03606.4 0 6.74893745 JL021317_021517_BAF45D_10D_(—) NP 12.1675 0.47626037 1.15E−12 4//13 30//64 Fusion_MS2.03486.03486.4 −1 5.59520587 JL021317_021517_BAF45D_85B_(—) N 10.96325 0.3570219 //7 12//32 Fusion_MS2.06539.06539.4 0 2.09387177 JL021317_021517_BAF45D_85B_(—) N 10.701 0.42953478 1//7 11//39 Fusion_MS2.06551.06551.5 0 −2.15615111 JL021317_021517_hBAF45D_(—) NP 10.35525 0.40783955 1.12E−10 1//13 27//64 Fusion_MS2.03680.03680.4 0 0.98428768 JL021317_021517_BAF45D_85B_(—) N 9.60575 0.3305773 //7 11//33 Fusion_MS2.06722.06722.4 0 8.83746423 JL021317_021517_BAF45D_85B_(—) N 8.89025 0.34800266 //7 10//32 Fusion_MS2.05720.05720.4 −1 1.46449722 JL021317_021517_BAF45D_85B_(—) N 8.84325 0.29959854 //7 12//33 Fusion_MS2.06715.06715.4 0 −7.02426619 JL021317_021517_BAF45D_10D_(—) NP 8.5545 0.34798438 8.16E−13 1//13 19//64 Fusion_MS2.03461.03461.4 0 2.30477483 JL021317_021517_BAF45D_5D_(—) NP 8.2785 0.3762185 1.67E−05 3//13 21//78 Fusion_MS2.03607.03607.5 0 2.08214762 JL021317_021517_BAF45D_10D_(—) NP 8.073 0.36368961 5.80E−08 2//13 19//78 Fusion_MS2.03476.03476.5 0 −1.70251502 JL021317_021517_hBAF45D_(—) NP 6.8755 0.35141835 3.64E−06 2//13 18//78 Fusion_MS2.03648.03648.5 0 2.45319298 JL021317_021517_BAF45D_5D_(—) NP 5.63475 0.25583428 3.20E−05 //13 17//78 Fusion_MS2.03948.03948.5 −1 5.10404868 JL021317_021517_BAF45D_85B_(—) NP 5.067 0.19103093 2.09E−05 //12 12//56 Fusion_MS2.04129.04129.4 0 1.01255377 JL021317_021517_BAF45D_10D_(—) N 4.4915 0.1937829 1//7 9//40 Fusion_MS2.03730.03730.5 47 SMARCC2:724- 3.96 SMARCC2:769 −2 −1.52860777 JL021317_021517_BAF45D_100B_(—) P 3.96 0.21719457 2.13E−03 //15 11//72 Fusion_MS2.04468.04468.4 48 SMARCC2:724- 9.82525 SMARCC2:848 0 0.54285649 JL021317_021517_BAF45D_85B_(—) N 9.82525 0.34513313 //8 11//29 Fusion_MS2.07005.07005.4 −1 4.22216667 JL021317_021517_BAF45D_85B_(—) N 8.89275 0.35495041 //8 11//29 Fusion_MS2.06111.06111.4 −1 8.75576743 JL021317_021517_BAF45D_5D_(—) N 8.88 0.4217826 //8 10//30 Fusion_MS2.03932.03932.4 −2 −1.22708963 JL021317_021517_BAF45D_85B_(—) NP 8.1985 0.24438119 4.88E−06 5//13 32//64 Fusion_MS2.04352.04352.4 0 5.93984135 JL021317_021517_BAF45D_5D_(—) N 8.06 0.34961395 //8 10//30 Fusion_MS2.03985.03985.4 0 −1.206275 JL021317_021517_hBAF45D_(—) NP 7.939 0.29585049 1.83E−06 //13 21//64 Fusion_MS2.03967.03967.4 0 −0.84722133 JL021317_021517_BAF45D_100B_(—) NP 7.12775 0.23312347 5.06E−06 1//13 21//64 Fusion_MS2.04447.04447.4 −1 6.06114584 JL021317_021517_hBAF45D_(—) N 6.82875 0.27524184 //5 6//23 Fusion_MS2.07822.07822.4 0 −2.11344899 JL021317_021517_hBAF45D_(—) NP 5.5235 0.24378241 4.62E−08 //13 18//64 Fusion_MS2.04363.04363.4 −1 −5.46895229 JL021317_021517_BAF45D_100B_(—) NP 4.71525 0.19303435 7.20E−06 1//13 16//64 Fusion_MS2.04442.04442.4 49 SMARCC2:846- 4.864 SMARCC2:846 0 3.88937897 JL021317_021517_BAF45D_D_(—) N 4.864 0.28995529 //7 5//31 Fusion_MS2.01942.01942.4 0 0.57424483 JL021317_021517_BAF45D_D_(—) N 4.2685 0.2274653 //7 6//31 Fusion_MS2.02242.02242.4 0 2.68662728 JL021317_021517_BAF45D_100B_(—) N 4.16875 0.21185364 //7 8//32 Fusion_MS2.04906.04906.4 −1 0.31661513 JL021317_021517_BAF45D_100B_(—) N 3.9185 0.16823373 //7 5//32 Fusion_MS2.05371.05371.4 0 14.0714989 JL021317_021517_BAF45D_D_(—) N 3.003 0.14081733 //7 4//33 Fusion_MS2.10863.10863.4 50 SMARCC2:846- 5.77775 SMARCC2:874 −1 3.97722397 JL021317_021517_BAF45D_10D_(—) NP 5.77775 0.35351975 1.04E−07 //10 16//53 Fusion_MS2.04154.04154.4 0 6.64452439 JL021317_021517_BAF45D_10D_(—) NP 5.52 0.26063554 4.20E−08 //10 13//63 Fusion_MS2.04149.04149.5 −1 0.02781469 JL021317_021517_BAF45D_D_(—) NP 5.04975 0.25138142 4.07E−05 //10 12//63 Fusion_MS2.04740.04740.5 51 SMARCC2:275- 7.173 SMARCC2:292 −1 3.73696631 JL021317_021517_BAF45D_85B_(—) N 7.173 0.21896941 //7 8//27 Fusion_MS2.07741.07741.4 −2 3.01257114 JL021317_021517_BAF45D_85B_(—) P 5.83875 0.1826693 3.38E−03 //16 17//113 Fusion_MS2.08023.08023.4 −1 −0.36317706 JL021317_021517_BAF45D_85B_(—) NP 5.224 0.21807101 4.90E−04 //16 15//146 Fusion_MS2.07759.07759.5 −2 −2.13736016 JL021317_021517_BAF45D_100B_(—) P 3.8235 0.14321029 4.51E−04 //16 19//110 Fusion_MS2.07413.07413.4 52 SMARCC2:275- 6.79125 SMARCC2:298 −2 0.63179774 JL021317_021517_BAF45D_85B_(—) N 6.79125 0.22033417 1//9 6//32 Fusion_MS2.09675.09675.4 −1 12.452933 JL021317_021517_BAF45D_85B_(—) N 5.91125 0.1552691 //9 6//32 Fusion_MS2.09646.09646.4 53 SMARCC2:275- 7.44975 SMARCC2:5 −1 −0.51102649 JL021317_021517_BAF45D_100B_(—) NP 7.44975 0.27309469 3.52E−07 //16 24//143 Fusion_MS2.07213.07213.5 −2 1.56366046 JL021317_021517_BAF45D_100B_(—) NP 7.39775 0.2189396 3.55E−05 1//16 22//143 Fusion_MS2.07374.07374.6 −3 6.26056074 JL021317_021517_hBAF45D_(—) NP 6.5585 0.23292196 6.55E−05 //16 19//143 Fusion_MS2.07416.07416.5 −1 6.57052829 JL021317_021517_BAF45D_70B_(—) N 5.97575 0.1699781 //10 13//46 Fusion_MS2.09140.09140.4 54 SMARCC2:275- 13.44875 SMARCC2:6 −1 −7.41690433 JL021317_021517_BAF45D_100B_(—) NP 13.44875 0.43978189 7.78E−15 //16 29//110 Fusion_MS2.07352.07352.4 0 −0.23382701 JL021317_021517_BAF45D_100B_(—) NP 8.02775 0.30576663 4.38E−08 //16 24//143 Fusion_MS2.07368.07368.5 −2 −2.74411314 JL021317_021517_BAF45D_100B_(—) P 5.64225 0.2161616 3.50E−08 //16 16//110 Fusion_MS2.07186.07186.4 −2 −0.2932269 JL021317_021517_hBAF45D_(—) P 5.40525 0.19246039 6.12E−03 //16 19//143 Fusion_MS2.07398.07398.5 0 4.14627387 JL021317_021517_hBAF45D_(—) NP 4.8075 0.21854756 5.76E−06 //16 17//110 Fusion_MS2.07411.07411.4 55 SMARCC2:171- 13.68225 SMARCC2:236 −2 6.2076532 JL021317_021517_BAF45D_10D_(—) N 13.68225 0.37618053 //6 4//22 Fusion_MS2.09931.09931.7 −2 −3.66614972 JL021317_021517_BAF45D_10D_(—) P 10.86575 0.26394641 2.62E−04 //9 44//285 Fusion_MS2.10843.10843.6 −2 0.52291892 JL021317_021517_BAF45D_10D_(—) P 10.4195 0.28163094 2.19E−06 //9 42//285 Fusion_MS2.10834.10834.5 −2 6.94791891 JL021317_021517_BAF45D_10D_(—) P 8.10425 0.29539283 6.15E−04 //9 24//285 Fusion_MS2.11098.11098.5 −4 3.93787088 JL021317_021517_BAF45D_5D_(—) P 4.275 0.10489639 3.81E−02 //9 22//285 Fusion_MS2.11404.11404.6 −3 6.45488119 JL021317_021517_BAF45D_10D_(—) P 3.25925 0.08402186 1.91E−01 //9 21//285 Fusion_MS2.11146.11146.6 56 SMARCC2:702- 9.32775 SMARCC2:704 0 7.27307921 JL021317_021517_BAF45D_70B_(—) N 9.32775 0.24570635 1//15 20//86 Fusion_MS2.17645.17645.4 57 SMARCC2:702- 10.36625 SMARCC2:848 −2 −0.08251072 JL021317_021517_BAF45D_85B_(—) NP 10.36625 0.30719821 4.11E−02 1//10 29//183 Fusion_MS2.13500.13500.5 0 4.35491272 JL021317_021517_BAF45D_100B_(—) N 9.5465 0.26805093 //5 3//25 Fusion_MS2.13557.13557.5 58 SMARCC2:702- 12.701 SMARCC2:874 0 −6.67567171 JL021317_021517_BAF45D_100B_(—) NP 12.701 0.38564423 1.23E−03 //10 29//180 Fusion_MS2.13529.13529.6 −1 2.85553343 JL021317_021517_BAF45D_100B_(—) N 8.79 0.22693241 //10 8//57 Fusion_MS2.13536.13536.5 59 SMARCC2:702- 11.2405 SMARCC2:846 −1 −2.28032783 JL021317_021517_BAF45D_5D_(—) P 11.2405 0.3510846 5.07E−02 //10 30//182 Fusion_MS2.12651.12651.6 −3 0.58597195 JL021317_021517_BAF45D_5D_(—) NP 10.55075 0.33101431 4.60E−04 //10 31//182 Fusion_MS2.12662.12662.5 60 SMARCC2:702- 12.59275 SMARCC2:718 −1 0.42330572 JL021317_021517_BAF45D_85B_(—) NP 12.59275 0.37074575 6.64E−03 //10 42//182 Fusion_MS2.13424.13424.5 −1 2.94032291 JL021317_021517_BAF45D_85B_(—) NP 12.3245 0.39817462 4.36E−07 //10 29//182 Fusion_MS2.13421.13421.6 −3 4.13005856 JL021317_021517_BAF45D_85B_(—) P 10.6625 0.30483011 2.10E−02 //10 31//134 Fusion_MS2.13448.13448.4 61 SMARCC2:151- 13.38975 SMARCC2:157 −1 3.45961517 JL021317_021517_BAF45D_85B_(—) NP 13.38975 0.38768168 1.65E−11 //12 34//216 Fusion_MS2.15234.15234.5 −2 2.19720854 JL021317_021517_BAF45D_85B_(—) NP 13.0875 0.36881261 3.03E−12 //12 34//216 Fusion_MS2.15224.15224.5 0 2.22399511 JL021317_021517_BAF45D_85B_(—) NP 12.69925 0.36596735 3.09E−10 //12 31//216 Fusion_MS2.15205.15205.6 −3 5.21738982 JL021317_021517_BAF45D_70B_(—) N 11.7135 0.32204718 //7 6//39 Fusion_MS2.17448.17448.5 −3 −2.67207416 JL021317_021517_BAF45D_85B_(—) P 9.78125 0.29335243 6.38E−11 //12 24//216 Fusion_MS2.15592.15592.5 −1 3.68234478 JL021317_021517_BAF45D_85B_(—) NP 9.4125 0.37978897 4.46E−11 //17 25//127 Fusion_MS2.15407.15407.5 −2 −4.86039657 JL021317_021517_BAF45D_70B_(—) P 6.72375 0.16836735 2.07E−05 //12 27//160 Fusion_MS2.16206.16206.4 0 6.30604419 JL021317_021517_BAF45D_85B_(—) P 6.444 0.22521232 1.56E−07 //17 21//98 Fusion_MS2.15398.15398.4 −2 1.20204689 JL021317_021517_BAF45D_85B_(—) P 5.65 0.19216707 2.52E−07 //12 21//216 Fusion_MS2.15471.15471.6 62 SMARCC2:5- 20.62075 SMARCC2:66 −1 3.52036585 JL021317_021517_BAF45D_10D_(—) NP 20.62075 0.50868332 7.83E−03 //7 42//221 Fusion_MS2.20655.20655.5 −2 4.11942605 JL021317_021517_BAF45D_D_(—) P 18.08 0.38502082 6.93E−04 //7 41//221 Fusion_MS2.19992.19992.5 −1 4.77375126 JL021317_021517_BAF45D_D_(—) P 12.422 0.31950821 2.80E−02 //7 48//221 Fusion_MS2.20044.20044.6 −1 5.85816175 JL021317_021517_BAF45D_10D_(—) P 9.5565 0.28118931 1.24E−02 //7 28//221 Fusion_MS2.20742.20742.5 −2 1.90995127 JL021317_021517_hBAF45D_(—) P 7.0715 0.18252565 5.20E−03 //7 26//221 Fusion_MS2.22091.22091.6 −2 7.15220958 JL021317_021517_BAF45D_5D_(—) N 6.77175 0.17259462 //10 5//53 Fusion_MS2.20410.20410.5 −2 −2.03507932 JL021317_021517_BAF45D_5D_(—) P 6.7475 0.22475185 1.64E−02 //7 25//221 Fusion_MS2.20582.20582.6 63 SMARCC2:795- 3.49425 SMARCC2:802 −2 −0.11757916 JL021317_021517_BAF45D_85B_(—) P 3.49425 0.20288277 1.58E−02 //14 2//71 Fusion_MS2.03134.03134.4 64 SMARCC2:795- 5.4615 SMARCC2:800 0 5.8789588 JL021317_021517_BAF45D_D_(—) N 5.4615 0.28095581 //9 10//32 Fusion_MS2.02184.02184.4 65 SMARCC2:101- 6.036 SMARCC2:36 0 3.02593595 JL021317_021517_BAF45D_85B_(—) N 6.036 0.20234324 //8 6//39 Fusion_MS2.13323.13323.4 66 SMARCC2:101- 4.25225 SMARCC2:236 0 −0.5135644 JL021317_021517_BAF45D_5D_(—) NP 4.25225 0.25162732 7.57E−11 //8 8//39 Fusion_MS2.04869.04869.4 67 SMARCC2:728- 22.10325 SMARCC2:846 0 4.47753792 JL021317_021517_BAF45D_85B_(—) NP 22.10325 0.53989375 6.89E−08 //17 50//309 Fusion_MS2.09852.09852.5 0 −0.27332472 JL021317_021517_BAF45D_85B_(—) P 17.96125 0.45317211 7.74E−07 1//17 44//309 Fusion_MS2.09863.09863.6 68 SMARCC2:728- 21.10575 SMARCC2:848 −1 −2.32916685 JL021317_021517_BAF45D_70B_(—) NP 21.10575 0.51043569 4.69E−04 //17 45//223 Fusion_MS2.10524.10524.4 −1 −5.41738739 JL021317_021517_BAF45D_85B_(—) P 19.16925 0.47754195 5.83E−05 //17 44//309 Fusion_MS2.10059.10059.5 −1 4.93273722 JL021317_021517_BAF45D_70B_(—) NP 18.50825 0.48645754 3.56E−04 //17 44//308 Fusion_MS2.10497.10497.5 −1 6.30088818 JL021317_021517_hBAF45D_(—) P 17.22425 0.45353828 2.57E−03 //17 46//308 Fusion_MS2.11201.11201.5 0 −5.34207652 JL021317_021517_hBAF45D_(—) NP 16.703 0.44293291 1.18E−03 //17 38//308 Fusion_MS2.11213.11213.5 −3 6.24638881 JL021317_021517_BAF45D_85B_(—) NP 16.30825 0.44774593 1.42E−04 //17 41//309 Fusion_MS2.10035.10035.5 −1 −2.00227672 JL021317_021517_BAF45D_85B_(—) P 13.86325 0.37461662 1.76E−04 //17 39//309 Fusion_MS2.10028.10028.6 −2 14.5398554 JL021317_021517_BAF45D_70B_(—) N 13.65825 0.32536298 //5 3//20 Fusion_MS2.10559.10559.4 −1 −3.88792985 JL021317_021517_BAF45D_85B_(—) P 13.53675 0.39156374 2.16E−03 //17 37//309 Fusion_MS2.10016.10016.5 −1 −2.64348447 JL021317_021517_BAF45D_50B_(—) NP 11.46 0.28100633 2.17E−02 //17 35//165 Fusion_MS2.09259.09259.4 −3 −2.22269232 JL021317_021517_BAF45D_70B_(—) P 8.8875 0.21638566 8.17E−04 //17 27//308 Fusion_MS2.10734.10734.5 −2 −5.24630595 JL021317_021517_BAF45D_70B_(—) P 7.6005 0.19867212 1.79E−03 //17 27//308 Fusion_MS2.10723.10723.5 69 SMARCC2:37- 10.673 SMARCC2:99 0 −5.65003089 JL021317_021517_BAF45D_85B_(—) NP 10.673 0.34338755 6.68E−04 1//18 21//93 Fusion_MS2.13476.13476.4 0 −2.00968185 JL021317_021517_BAF45D_85B_(—) NP 7.34625 0.22652636 3.03E−05 3//18 24//119 Fusion_MS2.13490.13490.5 70 SMARCC2:704- 16.52525 SMARCC2:848 0 4.36096149 JL021317_021517_BAF45D_85B_(—) NP 16.52525 0.55237912 1.95E−03 //15 40//94 Fusion_MS2.09573.09573.4 −2 0.91171662 JL021317_021517_hBAF45D_(—) P 14.30575 0.51748992 4.93E−04 //15 37//94 Fusion_MS2.09980.09980.4 0 −1.79144755 JL021317_021517_BAF45D_85B_(—) NP 13.13 0.51687826 3.61E−04 3//15 34//116 Fusion_MS2.09572.09572.5 −1 −2.5086248 JL021317_021517_BAF45D_5D_(—) P 11.695 0.45475755 3.90E−04 //15 31//117 Fusion_MS2.08924.08924.5 0 0.06723497 JL021317_021517_BAF45D_85B_(—) N 11.6595 0.45166476 //5 5//25 Fusion_MS2.09115.09115.5 −1 3.2769131 JL021317_021517_hBAF45D_(—) P 11.23225 0.35634746 2.80E−04 //15 32//94 Fusion_MS2.09946.09946.4 0 0.8647437 JL021317_021517_BAF45D_100B_(—) P 11.14525 0.44345084 6.38E−05 //15 31//117 Fusion_MS2.08960.08960.5 −1 10.1415071 JL021317_021517_BAF45D_5D_(—) P 10.06025 0.41414692 1.37E−03 //15 28//117 Fusion_MS2.09025.09025.5 −2 4.66356784 JL021317_021517_hBAF45D_(—) P 9.68875 0.40142319 1.04E−03 1//15 28//116 Fusion_MS2.09975.09975.5 0 7.4476012 JL021317_021517_hBAF45D_(—) P 9.459 0.38593986 2.13E−03 1//15 25//116 Fusion_MS2.09978.09978.5 71 SMARCC2:704- 18.69825 SMARCC2:874 −1 −3.33919104 JL021317_021517_BAF45D_100B_(—) NP 18.69825 0.5878936 3.41E−07 1//15 39//91 Fusion_MS2.10082.10082.4 0 0.11436599 JL021317_021517_BAF45D_100B_(—) N 18.60425 0.61655537 1//10 12//46 Fusion_MS2.09768.09768.4 0 −2.92798334 JL021317_021517_BAF45D_100B_(—) NP 18.33175 0.58698228 1.46E−08 1//15 37//91 Fusion_MS2.10134.10134.4 0 3.15765582 JL021317_021517_BAF45D_100B_(—) N 18.303 0.59093404 1//10 12//46 Fusion_MS2.09756.09756.4 −3 1.10185212 JL021317_021517_hBAF45D_(—) NP 17.575 0.55755595 1.80E−09 1//15 35//91 Fusion_MS2.10620.10620.4 −1 2.25323368 JL021317_021517_hBAF45D_(—) NP 16.239 0.51791609 3.09E−10 1//15 30//91 Fusion_MS2.10601.10601.4 0 −0.46521176 JL021317_021517_BAF45D_100B_(—) NP 16.17225 0.57338238 4.63E−07 1//15 35//115 Fusion_MS2.10093.10093.5 −3 6.36307715 JL021317_021517_BAF45D_100B_(—) N 15.40575 0.54858898 2//10 12//57 Fusion_MS2.09749.09749.5 0 −1.69883486 JL021317_021517_hBAF45D_(—) NP 15.05925 0.56465129 7.04E−14 1//15 32//115 Fusion_MS2.10585.10585.5 −1 2.14597591 JL021317_021517_hBAF45D_(—) N 14.063 0.52675344 //10 10//57 Fusion_MS2.10131.10131.5 0 −4.84904839 JL021317_021517_BAF45D_100B_(—) NP 13.83075 0.4623195 7.64E−07 3//15 30//115 Fusion_MS2.10070.10070.6 −2 5.43561873 JL021317_021517_BAF45D_D_(—) NP 12.76425 0.4538158 1.66E−09 1//15 30//115 Fusion_MS2.10236.10236.5 −2 5.93605345 JL021317_021517_BAF45D_100B_(—) N 12.361 0.42117278 2//10 11//46 Fusion_MS2.09750.09750.6 −1 0.04590163 JL021317_021517_hBAF45D_(—) N 9.34475 0.3698767 //10 8//46 Fusion_MS2.10165.10165.6 −1 −2.49760533 JL021317_021517_BAF45D_10D_(—) NP 8.953 0.33437909 2.03E−11 //15 23//113 Fusion_MS2.09342.09342.6 72 SMARCC2:704- 15.11225 SMARCC2:724 −1 −1.09496196 JL021317_021517_BAF45D_100B_(—) NP 15.11225 0.50687585 8.00E−08 //15 31//114 Fusion_MS2.09699.09699.5 73 SMARCC2:704- 14.2075 SMARCC2:846 0 6.58582753 JL021317_021517_BAF45D_100B_(—) P 14.2075 0.49646196 3.57E−07 //15 35//94 Fusion_MS2.08660.08660.4 −1 0.30251562 JL021317_021517_BAF45D_100B_(—) NP 13.26725 0.50341498 4.23E−06 //15 35//117 Fusion_MS2.08655.08655.5 −1 0.28420752 JL021317_021517_BAF45D_85B_(—) N 12.36375 0.34963379 //7 8//37 Fusion_MS2.11086.11086.5 −1 3.46504859 JL021317_021517_BAF45D_5D_(—) P 10.45475 0.43219306 1.11E−07 1//15 28//117 Fusion_MS2.08621.08621.5 0 −0.35851547 JL021317_021517_BAF45D_100B_(—) NP 9.7695 0.34737235 1.25E−04 1//15 24//117 Fusion_MS2.08648.08648.6 0 1.53900432 JL021317_021517_BAF45D_5D_(—) NP 9.319 0.41268295 1.05E−08 //15 20//117 Fusion_MS2.08617.08617.6 −3 2.80401751 JL021317_021517_BAF45D_5D_(—) NP 8.94675 0.30909484 4.64E−04 //15 25//117 Fusion_MS2.08951.08951.6 −2 −1.24870993 JL021317_021517_BAF45D_5D_(—) NP 8.5795 0.30005071 2.33E−06 //15 23//117 Fusion_MS2.08975.08975.6 74 SMARCC2:704- 12.97125 SMARCC2:885 −2 5.60523094 JL021317_021517_BAF45D_D_(—) N 12.97125 0.50931561 //15 17//110 Fusion_MS2.18144.18144.5 −1 2.19297357 JL021317_021517_BAF45D_D_(—) N 12.59975 0.50071532 //15 22//110 Fusion_MS2.18148.18148.5 0 3.52375443 JL021317_021517_BAF45D_100B_(—) N 11.75225 0.43663502 1//15 17//110 Fusion_MS2.18429.18429.5 0 −0.22939899 JL021317_021517_BAF45D_D_(—) NP 5.40025 0.16371091 1.16E−02 //15 14//110 Fusion_MS2.16092.16092.5 75 SMARCC2:704- 20.38425 SMARCC2:718 −3 4.49196312 JL021317_021517_BAF45D_70B_(—) N 20.38425 0.58520778 3//12 22//61 Fusion_MS2.11333.11333.4 −2 3.02671092 JL021317_021517_BAF45D_70B_(—) N 18.464 0.54122027 3//12 23//77 Fusion_MS2.11341.11341.5 0 −0.16524035 JL021317_021517_BAF45D_85B_(—) NP 16.58125 0.49183549 1.94E−06 1//15 39//93 Fusion_MS2.09455.09455.4 −1 1.32603959 JL021317_021517_BAF45D_70B_(—) NP 13.75225 0.36557632 5.44E−03 //15 33//93 Fusion_MS2.09069.09069.4 0 −1.37690531 JL021317_021517_BAF45D_70B_(—) P 13.20325 0.33834534 2.65E−03 //15 33//93 Fusion_MS2.09072.09072.4 −2 −1.35867519 JL021317_021517_BAF45D_70B_(—) NP 12.9615 0.46462818 1.07E−03 5//15 38//116 Fusion_MS2.09077.09077.5 0 0.96344574 JL021317_021517_BAF45D_85B_(—) N 12.683 0.41255591 //8 6//33 Fusion_MS2.09056.09056.4 0 0.45882224 JL021317_021517_BAF45D_70B_(—) NP 12.6135 0.47087261 4.91E−07 5//15 37//116 Fusion_MS2.09085.09085.5 −1 −2.3140264 JL021317_021517_BAF45D_70B_(—) NP 12.0445 0.44134406 1.16E−07 5//15 36//116 Fusion_MS2.09068.09068.5 0 3.23353301 JL021317_021517_BAF45D_70B_(—) N 11.9575 0.45455409 1//8 8//41 Fusion_MS2.08392.08392.5 0 2.07553547 JL021317_021517_BAF45D_85B_(—) N 11.71125 0.4337982 //8 7//41 Fusion_MS2.09027.09027.5 −1 4.0938171 JL021317_021517_hBAF45D_(—) NP 11.59075 0.41592357 2.45E−05 3//15 34//116 Fusion_MS2.09851.09851.5 −1 −1.09729032 JL021317_021517_hBAF45D_(—) NP 11.35325 0.3184553 9.73E−05 //15 28//93 Fusion_MS2.09838.09838.4 −2 −4.03831883 JL021317_021517_BAF45D_85B_(—) P 11.317 0.40880685 5.05E−06 5//15 38//116 Fusion_MS2.09452.09452.5 −1 3.30678944 JL021317_021517_hBAF45D_(—) N 9.69975 0.36777001 2//8 8//41 Fusion_MS2.09226.09226.5 −4 9.62128427 JL021317_021517_BAF45D_85B_(—) P 6.337 0.17877647 1.22E−02 //15 21//93 Fusion_MS2.09630.09630.4 76 SMARCC2:233- 20.452 SMARCC2:79 −3 10.7787796 JL021317_021517_BAF45D_85B_(—) NP 20.452 0.45117526 8.46E−14 1//15 49//326 Fusion_MS2.19654.19654.6 −4 3.84891335 JL021317_021517_BAF45D_85B_(—) P 19.05275 0.39767794 2.41E−11 //15 48//326 Fusion_MS2.19673.19673.5 −3 −1.87718828 JL021317_021517_BAF45D_85B_(—) NP 18.1555 0.39973359 3.12E−14 //15 46//326 Fusion_MS2.19644.19644.5 −4 1.67574627 JL021317_021517_BAF45D_85B_(—) P 16.42175 0.36712646 4.58E−08 //15 45//326 Fusion_MS2.19712.19712.6 −3 4.48636025 JL021317_021517_BAF45D_100B_(—) NP 12.16775 0.25797988 8.01E−06 1//15 41//326 Fusion_MS2.19503.19503.6 −3 2.31775797 JL021317_021517_BAF45D_100B_(—) P 12.155 0.26931215 1.12E−08 //15 30//326 Fusion_MS2.19513.19513.5 −4 −3.07274796 JL021317_021517_BAF45D_100B_(—) P 9.59275 0.21419321 4.96E−06 //15 27//326 Fusion_MS2.19505.19505.5 77 SMARCC2:718- 6.0365 SMARCC2:874 0 −1.09774608 JL021317_021517_BAF45D_85B_(—) NP 6.0365 0.26764654 3.58E−10 //10 16//53 Fusion_MS2.05171.05171.4 78 SMARCC2:718- 5.62 SMARCC2:848 0 2.61349097 JL021317_021517_BAF45D_70B_(—) N 5.62 0.23554065 //8 10//37 Fusion_MS2.05560.05560.4 0 0.83850592 JL021317_021517_BAF45D_100B_(—) NP 4.841 0.28992364 8.00E−05 //8 10//36 Fusion_MS2.02943.02943.4 0 −1.28006431 JL021317_021517_hBAF45D_(—) NP 3.61175 0.24476484 1.31E−06 //8 7//36 Fusion_MS2.02909.02909.4 −1 9.38584097 JL021317_021517_BAF45D_100B_(—) NP 2.79975 0.14005753 2.26E−03 //8 7//36 Fusion_MS2.03040.03040.4 −2 15.9065922 JL021317_021517_hBAF45D_(—) N 2.11675 0.10299985 1//8 6//37 Fusion_MS2.04893.04893.4 79 SMARCC2:718- 20.461 SMARCC2:728 −2 −3.75975149 JL021317_021517_hBAF45D_(—) NP 20.461 0.50353763 9.62E−09 //17 43//309 Fusion_MS2.11099.11099.5 −3 −4.27397752 JL021317_021517_BAF45D_50B_(—) NP 19.37325 0.47445081 1.77E−10 //17 44//223 Fusion_MS2.09541.09541.4 −1 −1.71782326 JL021317_021517_hBAF45D_(—) NP 19.30575 0.45217295 9.70E−08 //17 44//309 Fusion_MS2.11105.11105.5 −1 0.49936119 JL021317_021517_BAF45D_50B_(—) P 10.7545 0.32325889 1.36E−07 //17 39//223 Fusion_MS2.09494.09494.4 −2 15.2558616 JL021317_021517_BAF45D_50B_(—) N 9.0275 0.25202401 //8 7//32 Fusion_MS2.09517.09517.4 −2 −1.94034527 JL021317_021517_BAF45D_50B_(—) P 7.74275 0.22484464 1.76E−05 //17 35//223 Fusion_MS2.09487.09487.4 80 SMARCC2:718- 4.6765 SMARCC2:846 0 −3.17947209 JL021317_021517_BAF45D_100B_(—) NP 4.6765 0.27393609 1.04E−05 //8 9//36 Fusion_MS2.02576.02576.4 −1 3.0900722 JL021317_021517_hBAF45D_(—) N 4.6725 0.21381504 //8 8//37 Fusion_MS2.05919.05919.4 −1 0.61934349 JL021317_021517_BAF45D_100B_(—) NP 4.2015 0.22782236 1.98E−07 //8 8//36 Fusion_MS2.02572.02572.4 −2 8.43155909 JL021317_021517_hBAF45D_(—) N 4.173 0.18668635 //8 7//37 Fusion_MS2.05931.05931.4 0 −0.62257699 JL021317_021517_hBAF45D_(—) P 2.29425 0.13634743 8.49E−08 //8 9//36 Fusion_MS2.02584.02584.4 3 SMARCD1 1 SMARCD1:228- 10.819 SMARCD1:228 −2 7.19967134 JL021317_021517_BAF45D_85B_(—) N 10.819 0.26888522 //15 15//92 Fusion_MS2.14173.14173.4 −3 10.844302 JL021317_021517_hBAF45D_(—) N 10.1405 0.34929903 //15 12//92 Fusion_MS2.14671.14671.4 −1 6.37320348 JL021317_021517_BAF45D_100B_(—) N 8.403 0.22008041 //15 13//92 Fusion_MS2.14181.14181.4 −1 8.59316794 JL021317_021517_BAF45D_10D_(—) N 5.194 0.19569722 //15 10//92 Fusion_MS2.13889.13889.4 2 SMARCD1:228- 4.7585 SMARCD1:232 0 2.17131865 JL021317_021517_BAF45D_85B_(—) N 4.7585 0.17663654 1//8 9//38 Fusion_MS2.12001.12001.4 3 SMARCD1:327- 9.724 SMARCD1:341 −1 0.23283653 JL021317_021517_BAF45D_10D_(—) NP 9.724 0.31023481 1.10E−06 //12 26//128 Fusion_MS2.14407.14407.5 −3 1.36883705 JL021317_021517_BAF45D_D_(—) NP 9.6835 0.30253374 1.54E−06 //12 25//128 Fusion_MS2.14341.14341.5 −2 −1.10662677 JL021317_021517_BAF45D_5D_(—) NP 9.07475 0.3010866 1.61E−03 1//12 25//128 Fusion_MS2.14387.14387.5 −4 3.42042008 JL021317_021517_BAF45D_10D_(—) P 7.8485 0.28771743 1.53E−03 //12 23//128 Fusion_MS2.14480.14480.5 −2 2.66112468 JL021317_021517_BAF45D_10D_(—) P 7.133 0.22574214 2.28E−04 //12 22//95 Fusion_MS2.14426.14426.4 −1 11.096301 JL021317_021517_BAF45D_10D_(—) N 6.5045 0.21574871 //12 9//63 Fusion_MS2.14393.14393.5 −3 0.21219127 JL021317_021517_BAF45D_5D_(—) NP 6.21275 0.25503376 9.41E−10 //12 15//128 Fusion_MS2.14389.14389.6 −3 1.53469934 JL021317_021517_BAF45D_10D_(—) NP 6.06775 0.25921693 2.05E−07 //12 15//128 Fusion_MS2.14431.14431.6 −1 1.97553537 JL021317_021517_BAF45D_10D_(—) NP 5.5485 0.21276963 8.42E−09 //12 17//128 Fusion_MS2.14443.14443.6 4 SMARCD1:156- 3.19575 SMARCD1:498 0 1.56185198 JL021317_021517_BAF45D_70B_(—) N 3.19575 0.10393528 1//9 9//45 Fusion_MS2.10160.10160.4 5 SMARCD1:124- 6.1705 SMARCD1:131 0 0.58607504 JL021317_021517_BAF45D_10D_(—) N 6.1705 0.25682059 //9 9//35 Fusion_MS2.06256.06256.4 0 3.74331949 JL021317_021517_BAF45D_10D_(—) N 5.5805 0.23577751 //9 9//35 Fusion_MS2.07616.07616.4 0 5.62830727 JL021317_021517_hBAF45D_(—) N 5.114 0.17790301 //9 6//35 Fusion_MS2.07819.07819.4 0 −0.70293381 JL021317_021517_BAF45D_100B_(—) P 4.10225 0.20187741 9.54E−03 //11 13//49 Fusion_MS2.05764.05764.4 0 0.63287738 JL021317_021517_hBAF45D_(—) P 2.83825 0.16024899 3.81E−04 //11 11//49 Fusion_MS2.05830.05830.4 0 4.23444835 JL021317_021517_BAF45D_D_(—) P 2.81075 0.12777298 6.79E−06 //12 14//58 Fusion_MS2.05416.05416.4 6 SMARCD1:194- 11.7105 SMARCD1:385 −2 4.38665221 JL021317_021517_BAF45D_70B_(—) P 11.7105 0.32062918 6.41E−09 //7 25//214 Fusion_MS2.17664.17664.6 −4 1.02175784 JL021317_021517_BAF45D_70B_(—) P 9.8465 0.26352554 1.89E−08 //7 24//214 Fusion_MS2.17687.17687.6 −4 −3.28350658 JL021317_021517_BAF45D_70B_(—) P 8.8525 0.20871154 1.41E−09 //7 25//214 Fusion_MS2.17657.17657.5 7 SMARCD1:194- 15.9905 SMARCD1:273 −3 −3.29932017 JL021317_021517_BAF45D_100B_(—) NP 15.9905 0.4004232 1.78E−03 //7 35//214 Fusion_MS2.14557.14557.5 −2 5.09498429 JL021317_021517_BAF45D_100B_(—) NP 15.967 0.37871942 2.33E−06 //7 41//214 Fusion_MS2.14542.14542.5 −3 2.90614683 JL021317_021517_BAF45D_70B_(—) NP 15.63575 0.39426968 6.09E−04 //7 33//214 Fusion_MS2.14479.14479.5 −2 2.9512775 JL021317_021517_BAF45D_D_(—) NP 15.60075 0.41109237 2.40E−04 //7 40//214 Fusion_MS2.14369.14369.5 −3 0.87526672 JL021317_021517_BAF45D_70B_(—) NP 15.30375 0.35626986 3.10E−03 //7 37//214 Fusion_MS2.14310.14310.5 −2 −6.63898969 JL021317_021517_BAF45D_70B_(—) NP 14.98075 0.37907715 7.00E−07 //7 38//214 Fusion_MS2.14464.14464.5 −3 −1.04278671 JL021317_021517_hBAF45D_(—) NP 14.422 0.36230719 2.51E−07 //7 41//214 Fusion_MS2.15168.15168.5 −3 1.77788011 JL021317_021517_BAF45D_D_(—) NP 14.41575 0.36546457 7.20E−04 //7 36//214 Fusion_MS2.14385.14385.5 −2 4.95147513 JL021317_021517_BAF45D_50B_(—) N 14.31375 0.33631931 //16 9//77 Fusion_MS2.14380.14380.4 −2 3.055277 JL021317_021517_BAF45D_D_(—) NP 14.08575 0.40653862 2.04E−07 //7 32//156 Fusion_MS2.14378.14378.4 −4 1.49034996 JL021317_021517_BAF45D_50B_(—) P 14.02425 0.33743368 2.29E−03 //7 29//156 Fusion_MS2.14394.14394.4 −2 1.24508766 JL021317_021517_BAF45D_5D_(—) NP 13.99725 0.34942022 6.62E−04 //7 35//254 Fusion_MS2.14538.14538.6 −3 15.012577 JL021317_021517_BAF45D_70B_(—) N 13.9265 0.32030037 //13 17//159 Fusion_MS2.14273.14273.5 0 18.8667614 JL021317_021517_BAF45D_70B_(—) N 13.85825 0.31173308 //13 18//118 Fusion_MS2.14409.14409.4 −3 3.45663014 JL021317_021517_BAF45D_85B_(—) NP 12.946 0.32341148 5.01E−03 //7 33//254 Fusion_MS2.14747.14747.6 −4 3.8175874 JL021317_021517_BAF45D_70B_(—) P 12.70125 0.35231828 8.52E−03 //7 31//214 Fusion_MS2.14389.14389.6 −3 −1.04990925 JL021317_021517_BAF45D_D_(—) NP 12.45225 0.3327788 3.47E−04 //7 35//254 Fusion_MS2.14601.14601.6 −3 1.10092007 JL021317_021517_BAF45D_85B_(—) NP 12.35675 0.3285758 9.54E−06 //7 38//214 Fusion_MS2.14561.14561.5 −3 8.96462274 JL021317_021517_BAF45D_100B_(—) NP 11.9165 0.30575904 6.26E−03 //7 29//254 Fusion_MS2.14762.14762.6 −4 −0.07748115 JL021317_021517_BAF45D_5D_(—) P 11.7435 0.31692507 1.75E−05 //7 28//254 Fusion_MS2.14546.14546.5 −1 10.7112456 JL021317_021517_BAF45D_70B_(—) N 11.68325 0.261157 //13 15//159 Fusion_MS2.14738.14738.5 −4 10.354323 JL021317_021517_BAF45D_100B_(—) P 11.58925 0.30718309 1.22E−04 //7 29//254 Fusion_MS2.14776.14776.5 −4 12.2619335 JL021317_021517_hBAF45D_(—) P 11.48675 0.3219516 4.30E−03 //7 27//156 Fusion_MS2.15102.15102.4 −2 8.29460958 JL021317_021517_BAF45D_5D_(—) N 11.26325 0.29620644 //13 15//159 Fusion_MS2.14314.14314.5 −1 11.1787974 JL021317_021517_BAF45D_70B_(—) P 11.25925 0.33008649 3.70E−03 //7 29//156 Fusion_MS2.14252.14252.4 −2 6.29305016 JL021317_021517_BAF45D_70B_(—) N 11.147 0.25326608 //13 22//118 Fusion_MS2.14673.14673.6 −2 −2.39334168 JL021317_021517_BAF45D_85B_(—) P 11.0515 0.25043055 3.96E−04 //7 36//254 Fusion_MS2.14740.14740.5 −2 4.49164906 JL021317_021517_BAF45D_D_(—) NP 10.96425 0.26618718 1.97E−03 //7 28//254 Fusion_MS2.14617.14617.5 −3 12.7220674 JL021317_021517_hBAF45D_(—) P 10.76775 0.28671948 6.55E−02 //7 33//214 Fusion_MS2.15018.15018.5 −2 12.3623838 JL021317_021517_hBAF45D_(—) N 10.22175 0.24809772 //13 11//118 Fusion_MS2.15367.15367.6 −2 8.19266923 JL021317_021517_BAF45D_70B_(—) P 10.04375 0.21753138 3.12E−03 //7 25//254 Fusion_MS2.14664.14664.6 −3 9.95396913 JL021317_021517_BAF45D_70B_(—) N 9.9845 0.21667987 //13 15//118 Fusion_MS2.14657.14657.6 −3 5.22154912 JL021317_021517_BAF45D_70B_(—) P 9.84025 0.29960571 2.32E−06 //7 28//156 Fusion_MS2.14248.14248.4 −3 7.16219092 JL021317_021517_BAF45D_D_(—) P 9.09125 0.2249669 9.99E−06 //7 24//254 Fusion_MS2.14613.14613.5 −3 0.90310843 JL021317_021517_BAF45D_5D_(—) P 8.64175 0.25872341 4.40E−04 //7 22//254 Fusion_MS2.14539.14539.5 −2 −2.35157612 JL021317_021517_hBAF45D_(—) P 8.48825 0.23658319 9.76E−07 //7 31//214 Fusion_MS2.15014.15014.5 8 SMARCD1:273- 12.62175 SMARCD1:385 −4 3.71108364 JL021317_021517_BAF45D_85B_(—) P 12.62175 0.30496158 9.51E−07 //15 39//214 Fusion_MS2.14708.14708.5 −3 5.41951275 JL021317_021517_BAF45D_85B_(—) NP 9.27225 0.21503113 2.02E−05 //15 26//214 Fusion_MS2.14706.14706.6 −2 4.78500865 JL021317_021517_BAF45D_85B_(—) NP 7.48775 0.1924822 4.13E−05 //15 20//214 Fusion_MS2.14678.14678.6 −4 −1.22011948 JL021317_021517_BAF45D_85B_(—) P 4.0375 0.10780178 9.74E−01 //15 12//214 Fusion_MS2.15150.15150.6 9 SMARCD1:125- 7.6395 SMARCD1:131 0 0.02667739 JL021317_021517_BAF45D_10D_(—) N 7.6395 0.30034794 1//9 11//34 Fusion_MS2.07763.07763.4 0 0.9740595 JL021317_021517_BAF45D_5D_(—) N 6.80025 0.27352533 //9 9//34 Fusion_MS2.06335.06335.4 −1 5.74932044 JL021317_021517_BAF45D_100B_(—) N 4.91175 0.19737794 6//9 13//42 Fusion_MS2.08195.08195.5 −1 13.8237862 JL021317_021517_BAF45D_100B_(—) N 3.57975 0.12647729 //9 7//34 Fusion_MS2.08565.08565.4 10 SMARCD1:125- 5.7405 SMARCD1:127 0 3.05990545 JL021317_021517_BAF45D_5D_(—) N 5.7405 0.2294869 3//9 8//41 Fusion_MS2.06336.06336.5 0 2.46983996 JL021317_021517_BAF45D_100B_(—) N 4.5865 0.17385618 1//6 7//26 Fusion_MS2.04166.04166.4 11 SMARCD1:101- 21.23275 SMARCD1:353 0 3.24887816 JL021317_021517_BAF45D_85B_(—) NP 21.23275 0.63264257 8.18E−12 1//16 50//162 Fusion_MS2.09328.09328.5 12 SMARCD1:101- 13.777 SMARCD1:173 −2 5.9164959 JL021317_021517_BAF45D_85B_(—) P 13.777 0.38220077 2.29E−04 //16 29//159 Fusion_MS2.10663.10663.5 −1 8.22628045 JL021317_021517_BAF45D_85B_(—) P 12.429 0.30479297 5.91E−03 //16 28//159 Fusion_MS2.10673.10673.5 13 SMARCD1:101- 16.37975 SMARCD1:131 −1 0.98782164 JL021317_021517_BAF45D_85B_(—) NP 16.37975 0.53108586 1.15E−08 1//16 38//162 Fusion_MS2.09224.09224.5 14 SMARCD1:101- 15.44925 SMARCD1:156 −2 0.11310159 JL021317_021517_BAF45D_85B_(—) NP 15.44925 0.44246273 6.09E−04 //16 34//163 Fusion_MS2.08851.08851.5 −1 2.70893354 JL021317_021517_BAF45D_85B_(—) NP 15.1195 0.4376945 1.95E−03 //16 33//163 Fusion_MS2.08865.08865.5 0 −0.64401607 JL021317_021517_BAF45D_85B_(—) NP 12.7245 0.37221922 2.81E−04 //16 30//163 Fusion_MS2.08872.08872.5 15 SMARCD1:101- 14.24075 SMARCD1:498 −1 1.8371553 JL021317_021517_BAF45D_85B_(—) NP 14.24075 0.42871228 8.80E−08 //16 29//161 Fusion_MS2.09142.09142.5 16 SMARCD1:101- 13.59475 SMARCD1:273 −3 3.79546372 JL021317_021517_BAF45D_85B_(—) P 13.59475 0.46162139 4.88E−05 //13 13//159 Fusion_MS2.09239.09239.5 −2 2.31235213 JL021317_021517_BAF45D_85B_(—) P 9.66075 0.29334558 3.01E−01 //13 10//159 Fusion_MS2.09260.09260.6 17 SMARCD1:127- 7.6325 SMARCD1:353 0 16.9888988 JL021317_021517_BAF45D_85B_(—) N 7.6325 0.26379456 //9 9//46 Fusion_MS2.09151.09151.4 0 19.6608785 JL021317_021517_BAF45D_85B_(—) N 7.22625 0.26887372 //9 8//46 Fusion_MS2.09720.09720.4 18 SMARCD1:131- 3.921 SMARCD1:353 −1 17.5369712 JL021317_021517_BAF45D_70B_(—) N 3.921 0.11686338 //11 8//45 Fusion_MS2.08157.08157.4 0 15.0810321 JL021317_021517_BAF45D_70B_(—) N 3.7045 0.11093144 1//11 8//45 Fusion_MS2.08165.08165.4 4 SMARCC1 1 SMARCC1:639- 7.774 SMARCC1:716 −2 0.30714071 JL021317_021517_BAF45D_100B_(—) N 7.774 0.18705711 //17 12//84 Fusion_MS2.21811.21811.6 −1 3.79470232 JL021317_021517_BAF45D_100B_(—) N 6.95575 0.16820628 //17 12//109 Fusion_MS2.21862.21862.5 2 SMARCC1:639- 9.1125 SMARCC1:739 −3 0.52330409 JL021317_021517_BAF45D_D_(—) N 9.1125 0.2046603 //17 13//94 Fusion_MS2.20399.20399.7 −2 2.94084813 JL021317_021517_BAF45D_D_(—) N 8.81775 0.19858008 //17 16//94 Fusion_MS2.20436.20436.7 −2 7.6625824 JL021317_021517_BAF45D_D_(—) N 8.53125 0.18835276 //17 13//94 Fusion_MS2.20460.20460.7 3 SMARCC1:342- 6.47575 SMARCC1:346 0 0.98630581 JL021317_021517_BAF45D_5D_(—) N 6.47575 0.37172091 //5 4//22 Fusion_MS2.03148.03148.4 4 SMARCC1:342- 6.70575 SMARCC1:354 0 −2.43534934 JL021317_021517_BAF45D_D_(—) NP 6.70575 0.25607172 1.48E−07 4//12 17//53 Fusion_MS2.03060.03060.4 5 SMARCC1:615- 12.75775 SMARCC1:856 −1 2.07368116 JL021317_021517_BAF45D_100B_(—) P 12.75775 0.42079094 3.23E−03 //17 39//216 Fusion_MS2.11717.11717.5 6 SMARCC1:615- 14.3 SMARCC1:739 −2 −4.21795129 JL021317_021517_BAF45D_100B_(—) NP 14.3 0.50489893 1.05E−08 //17 39//128 Fusion_MS2.10204.10204.5 7 SMARCC1:615- 4.7275 SMARCC1:740 0 3.54835853 JL021317_021517_BAF45D_70B_(—) NP 4.7275 0.24651927 8.20E−05 1//8 8//36 Fusion_MS2.02640.02640.4 −1 0.04165397 JL021317_021517_hBAF45D_(—) NP 4.62825 0.25263373 6.06E−06 1//8 8//36 Fusion_MS2.02788.02788.4 8 SMARCC1:608- 11.3305 SMARCC1:615 −3 3.64264567 JL021317_021517_hBAF45D_(—) N 11.3305 0.4226458 //8 8//36 Fusion_MS2.10222.10222.4 0 −1.69039656 JL021317_021517_BAF45D_70B_(—) NP 2.84825 0.11621241 6.27E−03 2//9 8//34 Fusion_MS2.04722.04722.4 9 SMARCC1:608- 6.673 SMARCC1:740 0 0.08899733 JL021317_021517_BAF45D_70B_(—) NP 6.673 0.27775234 1.08E−06 4//9 14//35 Fusion_MS2.04972.04972.4 10 SMARCC1:608- 8.88675 SMARCC1:613 −2 3.55868116 JL021317_021517_hBAF45D_(—) N 8.88675 0.30898076 4//9 17//33 Fusion_MS2.09420.09420.4 −1 4.85803209 JL021317_021517_BAF45D_70B_(—) N 8.778 0.26709265 6//9 18//33 Fusion_MS2.08695.08695.4 0 2.99709589 JL021317_021517_BAF45D_70B_(—) N 8.4895 0.26021855 4//9 16//33 Fusion_MS2.08699.08699.4 −1 2.72974266 JL021317_021517_hBAF45D_(—) N 5.8915 0.22490933 6//9 17//33 Fusion_MS2.09405.09405.4 −1 1.21722797 JL021317_021517_BAF45D_70B_(—) NP 3.7005 0.1175639 4.18E−04 4//9 13//33 Fusion_MS2.05910.05910.4 0 −2.80725483 JL021317_021517_hBAF45D_(—) P 1.701 0.08589608 2.48E−03 2//9 10//33 Fusion_MS2.06422.06422.4 11 SMARCC1:608- 13.281 SMARCC1:739 0 2.13047028 JL021317_021517_BAF45D_100B_(—) NP 13.281 0.40668157 2.21E−11 //17 33//101 Fusion_MS2.12046.12046.4 −2 2.85001338 JL021317_021517_BAF45D_100B_(—) P 12.425 0.35481246 2.46E−06 //17 30//129 Fusion_MS2.12030.12030.5 12 SMARCC1:387- 13.682 SMARCC1:393 −1 2.21771462 JL021317_021517_BAF45D_50B_(—) P 13.682 0.33023183 6.99E−07 //11 41//137 Fusion_MS2.14654.14654.4 13 SMARCC1:179- 10.244 SMARCC1:189 −1 5.11204731 JL021317_021517_BAF45D_70B_(—) N 10.244 0.29719458 1//9 6//39 Fusion_MS2.19651.19651.5 14 SMARCC1:127- 10.33075 SMARCC1:157 −1 5.39435906 JL021317_021517_BAF45D_D_(—) NP 10.33075 0.27338344 1.72E−06 //6 27//261 Fusion_MS2.19197.19197.6 −3 0.37665041 JL021317_021517_BAF45D_D_(—) NP 9.68475 0.25533219 5.85E−04 //6 28//261 Fusion_MS2.19219.19219.5 −2 15.6087564 JL021317_021517_BAF45D_D_(—) N 9.17275 0.22406718 //18 11//118 Fusion_MS2.19211.19211.5 15 SMARCC1:107- 9.4165 SMARCC1:127 −2 −0.27749148 JL021317_021517_BAF45D_85B_(—) NP 9.4165 0.2582835 8.12E−08 //18 20//94 Fusion_MS2.15052.15052.4 16 SMARCC1:326- 12.664 SMARCC1:326 −2 19.5233418 JL021317_021517_BAF45D_85B_(—) N 12.664 0.45477071 //16 14//114 Fusion_MS2.05975.05975.5 −2 18.1640197 JL021317_021517_hBAF45D_(—) N 8.9935 0.47799628 //16 13//114 Fusion_MS2.05802.05802.5 −1 −6.53878168 JL021317_021517_hBAF45D_(—) NP 8.5325 0.44640054 4.96E−02 //16 13//114 Fusion_MS2.05823.05823.5 17 SMARCC1:292- 15.2665 SMARCC1:317 −3 −0.37624521 JL021317_021517_BAF45D_D_(—) P 15.2665 0.49498257 6.23E−05 //10 38//244 Fusion_MS2.17999.17999.5 −4 13.6763235 JL021317_021517_BAF45D_D_(—) P 13.14225 0.41597297 5.24E−04 //10 32//244 Fusion_MS2.18042.18042.5 −2 11.3655761 JL021317_021517_BAF45D_10D_(—) P 9.157 0.36161516 9.63E−03 //10 26//244 Fusion_MS2.18202.18202.5 −1 0.83364438 JL021317_021517_BAF45D_100B_(—) P 2.26425 0.12805033 1.84E−06 2//11 9//47 Fusion_MS2.05208.05208.4 18 SMARCC1:292- 4.843 SMARCC1:303 −2 10.8653903 JL021317_021517_BAF45D_85B_(—) N 4.843 0.16541995 //7 7//28 Fusion_MS2.07165.07165.4 19 SMARCC1:199- 5.39125 SMARCC1:615 0 −1.68790035 JL021317_021517_BAF45D_100B_(—) NP 5.39125 0.23466745 1.95E−04 1//13 17//64 Fusion_MS2.04158.04158.4 20 SMARCC1:199- 6.26225 SMARCC1:354 −1 1.19450708 JL021317_021517_BAF45D_100B_(—) NP 6.26225 0.21848996 5.90E−05 //13 9//61 Fusion_MS2.06755.06755.4 21 SMARCC1:199- 7.043 SMARCC1:392 −3 1.18920289 JL021317_021517_BAF45D_100B_(—) NP 7.043 0.24525115 6.17E−06 3//13 16//65 Fusion_MS2.06180.06180.4 22 SMARCC1:199- 10.83175 SMARCC1:292 0 10.6612064 JL021317_021517_BAF45D_100B_(—) N 10.83175 0.41529599 //7 9//32 Fusion_MS2.07301.07301.4 23 SMARCC1:199- 10.2905 SMARCC1:393 0 −3.50390513 JL021317_021517_BAF45D_85B_(—) NP 10.2905 0.35366797 2.31E−12 2//13 20//60 Fusion_MS2.04963.04963.4 24 SMARCC1:199- 13.46925 SMARCC1:261 −2 4.78996323 JL021317_021517_BAF45D_100B_(—) P 13.46925 0.3173342 7.43E−05 //13 50//317 Fusion_MS2.15983.15983.6 −2 14.1020635 JL021317_021517_BAF45D_100B_(—) N 6.87525 0.16394234 2//13 9//56 Fusion_MS2.15966.15966.6 −3 8.94706549 JL021317_021517_BAF45D_5D_(—) P 6.084 0.17102138 2.04E−02 //13 28//335 Fusion_MS2.15236.15236.6 25 SMARCC1:199- 8.026 SMARCC1:317 0 −0.63393657 JL021317_021517_BAF45D_10D_(—) NP 8.026 0.36326605 3.91E−13 //13 16//76 Fusion_MS2.03665.03665.5 −1 1.41213309 JL021317_021517_BAF45D_100B_(—) NP 7.5895 0.27257708 4.80E−08 4//13 24//65 Fusion_MS2.03897.03897.4 0 −5.31033767 JL021317_021517_BAF45D_100B_(—) NP 6.10575 0.26839051 1.90E−06 2//13 14//80 Fusion_MS2.03914.03914.5 0 6.16272739 JL021317_021517_BAF45D_10D_(—) NP 5.71175 0.3376537 6.24E−09 //13 14//76 Fusion_MS2.03580.03580.5 0 −0.76455799 JL021317_021517_BAF45D_100B_(—) NP 4.422 0.19912192 9.87E−05 2//13 13//65 Fusion_MS2.04052.04052.4 0 0.76594154 JL021317_021517_BAF45D_D_(—) NP 3.78775 0.17436187 2.42E−07 //14 12//72 Fusion_MS2.03372.03372.4 −2 7.48395556 JL021317_021517_BAF45D_100B_(—) NP 3.308 0.13564604 1.43E−05 1//13 11//65 Fusion_MS2.04069.04069.4 −1 1.7417198 JL021317_021517_hBAF45D_(—) P 3.27525 0.24745014 5.24E−03 //13 10//76 Fusion_MS2.03830.03830.5 −1 2.31893147 JL021317_021517_hBAF45D_(—) P 2.40425 0.15635365 1.18E−04 //13 12//61 Fusion_MS2.03811.03811.4 26 SMARCC1:199- 9.5515 SMARCC1:199 0 1.84260052 JL021317_021517_BAF45D_5D_(—) NP 9.5515 0.33532272 1.11E−03 1//13 14//73 Fusion_MS2.05595.05595.5 0 7.59603621 JL021317_021517_BAF45D_5D_(—) N 7.8165 0.38231842 //13 17//58 Fusion_MS2.05555.05555.4 27 SMARCC1:199- 6.6465 SMARCC1:740 −1 −3.55495792 JL021317_021517_BAF45D_100B_(—) NP 6.6465 0.29591292 5.15E−09 4//13 22//64 Fusion_MS2.04421.04421.4 0 −4.87754231 JL021317_021517_BAF45D_100B_(—) NP 6.042 0.28585622 1.65E−07 1//13 17//64 Fusion_MS2.04427.04427.4 28 SMARCC1:199- 5.867 SMARCC1:303 −1 −0.23802318 JL021317_021517_BAF45D_100B_(—) NP 5.867 0.22985759 1.79E−07 //16 12//104 Fusion_MS2.05771.05771.5 −2 1.18022792 JL021317_021517_BAF45D_100B_(—) P 3.706 0.15597971 8.19E−02 //16 10//104 Fusion_MS2.05821.05821.5 29 SMARCC1:199- 10.9085 SMARCC1:201 0 11.8528955 JL021317_021517_BAF45D_85B_(—) N 10.9085 0.26643789 //13 12//71 Fusion_MS2.14328.14328.5 30 SMARCC1:341- 6.68875 SMARCC1:346 0 −0.92809377 JL021317_021517_BAF45D_100B_(—) NP 6.68875 0.39369905 1.05E−07 2//10 14//46 Fusion_MS2.03238.03238.4 −1 4.52235523 JL021317_021517_BAF45D_5D_(—) NP 6.1485 0.34073151 1.06E−10 //10 12//46 Fusion_MS2.03008.03008.4 0 −0.62943903 JL021317_021517_BAF45D_100B_(—) NP 5.312 0.30080979 9.84E−07 //10 11//46 Fusion_MS2.03099.03099.4 0 9.1515037 JL021317_021517_BAF45D_5D_(—) NP 4.05025 0.22918376 4.18E−13 //10 9//46 Fusion_MS2.03011.03011.4 31 SMARCC1:739- 6.34125 SMARCC1:882 0 2.59090597 JL021317_021517_BAF45D_10D_(—) N 6.34125 0.25606211 1//10 10//46 Fusion_MS2.11210.11210.7 32 SMARCC1:739- 17.09025 SMARCC1:856 −2 −1.84395197 JL021317_021517_BAF45D_100B_(—) P 17.09025 0.50309092 5.64E−02 1//19 40//208 Fusion_MS2.15057.15057.5 −3 0.01665755 JL021317_021517_BAF45D_100B_(—) NP 17.04175 0.52106679 3.25E−04 1//19 34//208 Fusion_MS2.15043.15043.6 −3 0.94891933 JL021317_021517_BAF45D_100B_(—) N 13.11775 0.37951511 //17 13//94 Fusion_MS2.15065.15065.7 −2 1.66364386 JL021317_021517_BAF45D_100B_(—) N 12.1585 0.37686168 //17 12//94 Fusion_MS2.15092.15092.7 33 SMARCC1:303- 8.3335 SMARCC1:317 −1 2.66960623 JL021317_021517_hBAF45D_(—) NP 8.3335 0.35869238 9.49E−12 //16 17//85 Fusion_MS2.04200.04200.4 0 −2.2223852 JL021317_021517_BAF45D_85B_(—) NP 7.9715 0.26551311 5.40E−13 //16 17//85 Fusion_MS2.04218.04218.4 0 −0.60112135 JL021317_021517_BAF45D_85B_(—) NP 7.52925 0.29968953 1.85E−09 //16 19//108 Fusion_MS2.04219.04219.5 0 −4.86406058 JL021317_021517_hBAF45D_(—) NP 7.0165 0.32670593 1.17E−12 //16 14//85 Fusion_MS2.04221.04221.4 −1 −3.40931665 JL021317_021517_BAF45D_70B_(—) NP 5.794 0.25008093 1.93E−05 //12 12//57 Fusion_MS2.04042.04042.4 0 −0.45728446 JL021317_021517_BAF45D_85B_(—) P 5.70875 0.25017529 1.92E−11 //12 14//54 Fusion_MS2.04221.04221.4 0 −2.98596718 JL021317_021517_hBAF45D_(—) NP 5.55125 0.22454242 2.78E−07 //16 17//108 Fusion_MS2.04199.04199.5 0 10.625753 JL021317_021517_hBAF45D_(—) N 5.54075 0.2805159 1//8 10//37 Fusion_MS2.04252.04252.4 −1 −6.03813852 JL021317_021517_BAF45D_85B_(—) P 5.342 0.17775264 1.79E−05 //16 13//85 Fusion_MS2.04466.04466.4 0 3.21865544 JL021317_021517_BAF45D_100B_(—) NP 4.8515 0.20375465 3.54E−07 //16 14//106 Fusion_MS2.04282.04282.5 −1 1.66492013 JL021317_021517_BAF45D_5D_(—) N 4.78175 0.24779759 //11 10//40 Fusion_MS2.04184.04184.4 −2 11.0704313 JL021317_021517_BAF45D_85B_(—) N 4.39875 0.18560518 //8 8//41 Fusion_MS2.04423.04423.5 0 −1.37970658 JL021317_021517_BAF45D_85B_(—) NP 4.2755 0.20415423 8.25E−07 //12 11//67 Fusion_MS2.04230.04230.5 −1 5.00000179 JL021317_021517_BAF45D_5D_(—) N 4.25625 0.19909021 //11 8//49 Fusion_MS2.04284.04284.5 −1 −6.38590122 JL021317_021517_hBAF45D_(—) NP 4.251 0.20852034 8.04E−02 //16 11//108 Fusion_MS2.04425.04425.5 0 2.08865466 JL021317_021517_BAF45D_5D_(—) NP 4.095 0.17506359 1.43E−07 //16 14//106 Fusion_MS2.04162.04162.6 −2 −3.49430297 JL021317_021517_hBAF45D_(—) P 3.897 0.16841332 1.22E−03 //16 11//85 Fusion_MS2.04441.04441.4 0 −1.22075474 JL021317_021517_BAF45D_100B_(—) NP 3.86825 0.16716002 2.25E−07 //16 10//106 Fusion_MS2.04307.04307.6 −1 −6.33930793 JL021317_021517_BAF45D_100B_(—) NP 3.72225 0.14110121 1.33E−01 //16 12//106 Fusion_MS2.04485.04485.6 0 3.47496727 JL021317_021517_BAF45D_100B_(—) P 3.71225 0.16529376 3.14E−05 //12 12//54 Fusion_MS2.04326.04326.4 0 4.92228718 JL021317_021517_BAF45D_100B_(—) P 3.583 0.22877027 2.21E−03 //16 9//83 Fusion_MS2.04285.04285.4 −1 13.7284081 JL021317_021517_hBAF45D_(—) N 2.6385 0.12343571 //8 8//37 Fusion_MS2.04503.04503.4 34 SMARCC1:303- 6.81825 SMARCC1:34 −1 −0.39024882 JL021317_021517_BAF45D_85B_(—) NP 6.81825 0.20979554 4.37E−05 //16 14//85 Fusion_MS2.04689.04689.4 −1 10.8865075 JL021317_021517_BAF45D_70B_(—) NP 4.489 0.22688906 3.51E−06 //12 10//57 Fusion_MS2.04540.04540.4 0 −2.64061188 JL021317_021517_BAF45D_5D_(—) NP 4.44525 0.17920782 3.29E−07 //16 11//107 Fusion_MS2.04204.04204.5 35 SMARCC1:588- 15.63025 SMARCC1:592 −1 2.07199859 JL021317_021517_BAF45D_50B_(—) N 15.63025 0.4390273 //12 9//62 Fusion_MS2.16450.16450.4 −1 2.7213727 JL021317_021517_BAF45D_50B_(—) N 14.99125 0.37057064 //12 10//62 Fusion_MS2.15442.15442.4 −3 11.9065535 JL021317_021517_BAF45D_50B_(—) NP 13.464 0.32007607 8.36E−03 //16 36//106 Fusion_MS2.15210.15210.4 0 0.06626047 JL021317_021517_hBAF45D_(—) N 13.149 0.44348882 //12 10//62 Fusion_MS2.17627.17627.4 −1 5.36204609 JL021317_021517_BAF45D_50B_(—) N 11.97975 0.27713902 //12 9//62 Fusion_MS2.16868.16868.4 −1 0.03942879 JL021317_021517_BAF45D_50B_(—) N 11.23075 0.34846722 //12 8//78 Fusion_MS2.16529.16529.5 0 4.65997337 JL021317_021517_BAF45D_50B_(—) N 10.922 0.34909626 //12 9//62 Fusion_MS2.16601.16601.4 0 4.26946556 JL021317_021517_BAF45D_50B_(—) N 10.79175 0.30712914 //12 12//78 Fusion_MS2.16872.16872.5 0 6.41077522 JL021317_021517_hBAF45D_(—) N 10.63275 0.28080311 //12 10//62 Fusion_MS2.16087.16087.4 0 0.96082799 JL021317_021517_BAF45D_50B_(—) N 9.03525 0.28005424 //12 8//62 Fusion_MS2.14897.14897.4 −1 2.62897162 JL021317_021517_BAF45D_50B_(—) NP 8.23225 0.19715839 1.59E−03 //16 21//106 Fusion_MS2.15182.15182.4 −2 −0.98655659 JL021317_021517_BAF45D_50B_(—) NP 8.173 0.20829298 2.70E−05 1//16 24//106 Fusion_MS2.15136.15136.4 0 −3.37416956 JL021317_021517_BAF45D_50B_(—) NP 7.824 0.19957147 6.65E−04 //16 19//106 Fusion_MS2.15475.15475.4 −1 1.33283887 JL021317_021517_BAF45D_70B_(—) P 7.7905 0.19069358 2.97E−03 //16 18//106 Fusion_MS2.15550.15550.4 −3 3.78866935 JL021317_021517_hBAF45D_(—) P 6.86275 0.20482458 1.62E−04 //16 21//106 Fusion_MS2.16193.16193.4 −1 3.5157993 JL021317_021517_BAF45D_50B_(—) NP 6.066 0.15707904 5.10E−04 //16 15//106 Fusion_MS2.15439.15439.4 0 5.97855237 JL021317_021517_BAF45D_50B_(—) N 4.843 0.14633631 //12 7//62 Fusion_MS2.23655.23655.4 0 −5.76178253 JL021317_021517_hBAF45D_(—) NP 4.39925 0.12228461 4.02E−04 //16 12//106 Fusion_MS2.16583.16583.4 36 SMARCC1:592- 10.10375 SMARCC1:740 0 6.93114637 JL021317_021517_BAF45D_70B_(—) NP 10.10375 0.40030705 5.48E−07 3//12 25//68 Fusion_MS2.10721.10721.4 37 SMARCC1:592- 8.07425 SMARCC1:716 −2 11.5962785 JL021317_021517_BAF45D_70B_(—) N 8.07425 0.25977672 1//12 14//63 Fusion_MS2.16000.16000.4 38 SMARCC1:592- 12.42 SMARCC1:739 0 −4.64088673 JL021317_021517_BAF45D_100B_(—) NP 12.42 0.4125492 4.10E−12 //17 22//124 Fusion_MS2.14884.14884.5 39 SMARCC1:592- 3.8045 SMARCC1:61 −1 15.1884966 JL021317_021517_BAF45D_70B_(—) N 3.8045 0.11197445 //10 8//38 Fusion_MS2.13685.13685.4 40 SMARCC1:609- 11.86 SMARCC1:615 −2 1.43133126 JL021317_021517_BAF45D_70B_(—) N 11.86 0.34499811 1//8 9//36 Fusion_MS2.09424.09424.4 0 1.18727659 JL021317_021517_BAF45D_70B_(—) N 11.59975 0.34040821 1//8 10//36 Fusion_MS2.09426.09426.4 0 5.44566452 JL021317_021517_BAF45D_70B_(—) N 10.464 0.29607413 //8 9//36 Fusion_MS2.08535.08535.4 0 7.32960809 JL021317_021517_BAF45D_70B_(—) N 7.56 0.21363778 //8 9//36 Fusion_MS2.09582.09582.4 41 SMARCC1:854- 19.1285 SMARCC1:856 −1 −2.8996339 JL021317_021517_BAF45D_70B_(—) P 19.1285 0.53549733 8.12E−03 1//19 43//162 Fusion_MS2.13735.13735.4 −1 −7.50157782 JL021317_021517_BAF45D_85B_(—) P 17.9025 0.56346783 2.08E−02 //19 49//214 Fusion_MS2.12305.12305.5 −1 4.21038393 JL021317_021517_BAF45D_85B_(—) P 16.1555 0.47252121 8.03E−02 //19 47//214 Fusion_MS2.12275.12275.5 −2 4.21407801 JL021317_021517_BAF45D_85B_(—) P 15.563 0.40160508 2.72E−05 //19 36//161 Fusion_MS2.12326.12326.4 −2 3.19859882 JL021317_021517_BAF45D_70B_(—) P 14.784 0.43484271 5.77E−04 //19 36//213 Fusion_MS2.12622.12622.5 −1 1.42297721 JL021317_021517_BAF45D_85B_(—) P 14.354 0.46438797 4.66E−02 //19 42//214 Fusion_MS2.12310.12310.6 −3 1.89824522 JL021317_021517_BAF45D_85B_(—) P 10.89975 0.3104988 3.13E−03 //19 39//214 Fusion_MS2.12327.12327.6 42 SMARCC1:716- 16.91875 SMARCC1:739 −1 −2.8892992 JL021317_021517_BAF45D_100B_(—) NP 16.91875 0.49922544 2.31E−08 1//17 26//95 Fusion_MS2.14804.14804.4 −2 4.02308638 JL021317_021517_BAF45D_100B_(—) NP 15.4225 0.44508095 5.75E−11 //17 23//95 Fusion_MS2.14823.14823.4 −1 1.18148646 JL021317_021517_BAF45D_100B_(—) NP 13.23175 0.38747676 1.73E−09 3//17 33//123 Fusion_MS2.14800.14800.6 −3 3.26610789 JL021317_021517_BAF45D_D_(—) N 6.8585 0.20786798 //19 9//98 Fusion_MS2.16600.16600.6 −3 5.89491908 JL021317_021517_BAF45D_100B_(—) N 6.298 0.16209817 //19 16//127 Fusion_MS2.16798.16798.5 −1 5.42598958 JL021317_021517_BAF45D_D_(—) N 6.0395 0.18026744 //19 14//127 Fusion_MS2.16606.16606.5 −3 3.22620279 JL021317_021517_BAF45D_5D_(—) N 6.001 0.1666713 1//19 15//127 Fusion_MS2.16689.16689.5 −1 1.1228889 JL021317_021517_BAF45D_D_(—) N 5.98175 0.20026952 //19 8//98 Fusion_MS2.16361.16361.6 0 5.2164138 JL021317_021517_BAF45D_100B_(—) N 5.842 0.18169943 //19 7//98 Fusion_MS2.16558.16558.6 −1 4.02034767 JL021317_021517_BAF45D_100B_(—) N 5.75325 0.17177983 //19 7//98 Fusion_MS2.16796.16796.6 −2 2.00467158 JL021317_021517_BAF45D_10D_(—) N 5.7285 0.20368 //19 7//98 Fusion_MS2.16767.16767.6 −2 5.52001772 JL021317_021517_BAF45D_D_(—) N 5.28325 0.13490412 //19 14//127 Fusion_MS2.16365.16365.5 0 4.27774459 JL021317_021517_BAF45D_100B_(—) N 4.35025 0.12518525 //19 20//127 Fusion_MS2.16608.16608.5 −1 6.85627058 JL021317_021517_BAF45D_85B_(—) N 3.6125 0.1107789 //19 6//98 Fusion_MS2.16568.16568.6 −1 −0.78854343 JL021317_021517_BAF45D_D_(—) P 1.9475 0.06544239 3.23E−01 //17 7//123 Fusion_MS2.14643.14643.6 43 SMARCC1:716- 8.02675 SMARCC1:854 0 1.63274654 JL021317_021517_BAF45D_70B_(—) N 8.02675 0.28365079 2//9 9//31 Fusion_MS2.11073.11073.4 −1 −0.0579301 JL021317_021517_BAF45D_85B_(—) P 6.85775 0.20788935 1.94E−04 //17 23//87 Fusion_MS2.10589.10589.4 0 −4.07714815 JL021317_021517_BAF45D_85B_(—) P 6.62425 0.26146635 1.30E−03 //17 17//112 Fusion_MS2.10594.10594.5 44 SMARCC1:716- 23.7555 SMARCC1:716 −1 6.59369897 JL021317_021517_BAF45D_70B_(—) NP 23.7555 0.68577243 5.10E−04 10//17 37//84 Fusion_MS2.16004.16004.4 −1 −2.39542836 JL021317_021517_hBAF45D_(—) NP 19.201 0.52752174 2.61E−03 5//17 28//84 Fusion_MS2.16799.16799.4 −2 5.13392615 JL021317_021517_hBAF45D_(—) NP 18.88 0.56753791 7.20E−03 6//17 29//84 Fusion_MS2.16781.16781.4 −1 −0.62833496 JL021317_021517_BAF45D_85B_(—) NP 17.7485 0.54450768 4.87E−07 4//17 27//84 Fusion_MS2.15993.15993.4 0 3.1375583 JL021317_021517_BAF45D_D_(—) N 16.815 0.54846128 4//17 25//84 Fusion_MS2.15820.15820.4 −2 −4.70033281 JL021317_021517_BAF45D_10D_(—) NP 16.2575 0.56679915 5.33E−06 4//17 25//84 Fusion_MS2.15877.15877.4 −1 0.37045697 JL021317_021517_BAF45D_100B_(—) NP 15.912 0.50657413 6.23E−04 3//17 27//84 Fusion_MS2.16012.16012.4 −1 2.40848044 JL021317_021517_BAF45D_5D_(—) N 15.5615 0.51017966 2//17 23//84 Fusion_MS2.15834.15834.4 −3 7.13151001 JL021317_021517_BAF45D_10D_(—) NP 12.4935 0.50195866 1.07E−06 2//17 22//84 Fusion_MS2.15846.15846.4 −2 2.64484312 JL021317_021517_BAF45D_70B_(—) N 6.937 0.18273055 1//17 12//84 Fusion_MS2.17014.17014.4 45 SMARCC1:716- 26.459 SMARCC1:856 −2 2.07283162 JL021317_021517_BAF45D_70B_(—) NP 26.459 0.62804719 1.82E−07 //19 42//157 Fusion_MS2.15948.15948.4 0 5.56619225 JL021317_021517_BAF45D_70B_(—) NP 19.1845 0.48872104 3.16E−07 2//19 45//210 Fusion_MS2.15941.15941.5 −3 0.13366501 JL021317_021517_hBAF45D_(—) NP 18.96025 0.50764401 5.54E−08 3//19 44//210 Fusion_MS2.16738.16738.5 −2 0.49383257 JL021317_021517_hBAF45D_(—) NP 16.65475 0.43622232 2.65E−09 2//19 40//210 Fusion_MS2.16730.16730.5 −2 3.15333428 JL021317_021517_hBAF45D_(—) NP 16.042 0.37383047 7.66E−07 //19 29//157 Fusion_MS2.16807.16807.4 −3 7.2352332 JL021317_021517_hBAF45D_(—) NP 15.93725 0.34688425 2.35E−08 //19 37//157 Fusion_MS2.16765.16765.4 −2 4.47068262 JL021317_021517_BAF45D_5D_(—) NP 15.79325 0.44364308 8.99E−08 2//19 33//210 Fusion_MS2.15814.15814.5 −4 0.15193802 JL021317_021517_BAF45D_10D_(—) P 14.855 0.43295784 2.39E−08 //19 22//157 Fusion_MS2.15858.15858.4 −2 −0.42485932 JL021317_021517_BAF45D_70B_(—) NP 14.735 0.39118604 3.48E−03 2//19 38//210 Fusion_MS2.15973.15973.6 −2 −1.15693538 JL021317_021517_BAF45D_10D_(—) NP 14.60875 0.44045376 2.38E−07 2//19 35//210 Fusion_MS2.15854.15854.5 0 11.219159 JL021317_021517_BAF45D_D_(—) N 14.289 0.42965391 1//17 16//109 Fusion_MS2.15745.15745.5 −3 3.75361353 JL021317_021517_BAF45D_D_(—) NP 14.1635 0.37531633 1.89E−07 2//19 26//157 Fusion_MS2.15765.15765.4 0 5.64122716 JL021317_021517_hBAF45D_(—) NP 13.8395 0.367583 2.00E−06 2//19 32//210 Fusion_MS2.16822.16822.5 −2 3.1200543 JL021317_021517_BAF45D_100B_(—) NP 13.67325 0.4143158 6.07E−09 2//19 34//210 Fusion_MS2.15982.15982.5 −1 −4.24837353 JL021317_021517_BAF45D_85B_(—) NP 13.3005 0.39088652 2.12E−08 2//19 32//210 Fusion_MS2.15953.15953.5 −1 4.11378108 JL021317_021517_BAF45D_100B_(—) NP 13.06475 0.32156614 6.47E−06 //19 28//157 Fusion_MS2.15980.15980.4 −1 −0.00466384 JL021317_021517_BAF45D_70B_(—) NP 12.915 0.37867237 6.54E−07 2//19 37//210 Fusion_MS2.15981.15981.6 −3 0.93230104 JL021317_021517_BAF45D_10D_(—) NP 10.05475 0.30191725 3.30E−08 //19 19//157 Fusion_MS2.15868.15868.4 −1 6.07034985 JL021317_021517_BAF45D_D_(—) N 8.5635 0.22889409 //17 12//84 Fusion_MS2.15796.15796.4 −2 3.21336221 JL021317_021517_BAF45D_10D_(—) NP 8.1345 0.25620069 3.98E−10 //19 15//157 Fusion_MS2.15883.15883.4 −1 4.11667997 JL021317_021517_BAF45D_70B_(—) N 5.22725 0.13639803 1//17 15//109 Fusion_MS2.16275.16275.5 46 SMARCC1:716- 10.71775 SMARCC1:882 0 4.16826639 JL021317_021517_BAF45D_5D_(—) N 10.71775 0.34985882 1//10 10//48 Fusion_MS2.11871.11871.4 −1 12.1711685 JL021317_021517_BAF45D_100B_(—) N 6.537 0.20978819 1//10 10//48 Fusion_MS2.12081.12081.4 47 SMARCC1:716- 10.6125 SMARCC1:740 0 −1.95167058 JL021317_021517_BAF45D_70B_(—) NP 10.6125 0.33346426 5.10E−06 1//17 28//90 Fusion_MS2.10851.10851.4 0 −0.75992585 JL021317_021517_BAF45D_70B_(—) NP 9.619 0.35535114 6.48E−08 3//17 30//90 Fusion_MS2.10729.10729.4 0 −0.3626776 JL021317_021517_BAF45D_70B_(—) NP 9.148 0.29632509 8.35E−08 //17 22//90 Fusion_MS2.10571.10571.4 −1 −0.75992585 JL021317_021517_hBAF45D_(—) NP 7.92 0.30129534 1.57E−07 //17 24//90 Fusion_MS2.11700.11700.4 48 SMARCC1:716- 23.30875 SMARCC1:855 −2 11.0873285 JL021317_021517_BAF45D_85B_(—) N 23.30875 0.50080572 1//17 17//84 Fusion_MS2.15154.15154.4 −3 12.5012442 JL021317_021517_BAF45D_85B_(—) N 18.1475 0.48598744 //17 17//109 Fusion_MS2.15149.15149.5 −3 12.1311408 JL021317_021517_BAF45D_70B_(—) N 16.685 0.36803794 //17 14//84 Fusion_MS2.16732.16732.4 −3 0.78294371 JL021317_021517_BAF45D_85B_(—) NP 15.19375 0.46418642 9.12E−10 //18 42//218 Fusion_MS2.15206.15206.6 −1 0.81204123 JL021317_021517_BAF45D_85B_(—) NP 13.20125 0.41365075 1.06E−10 //18 29//218 Fusion_MS2.15133.15133.6 −1 0.28356301 JL021317_021517_BAF45D_70B_(—) N 11.978 0.3006262 //17 13//109 Fusion_MS2.16660.16660.5 −2 5.23803181 JL021317_021517_hBAF45D_(—) NP 11.15275 0.3105664 1.42E−11 //18 25//218 Fusion_MS2.15894.15894.5 −1 4.35044364 JL021317_021517_BAF45D_70B_(—) N 10.045 0.21419281 //17 13//109 Fusion_MS2.16286.16286.5 −1 1.53239674 JL021317_021517_BAF45D_85B_(—) P 8.79025 0.2677383 6.62E−06 //17 25//88 Fusion_MS2.10252.10252.4 0 −2.87285974 JL021317_021517_BAF45D_85B_(—) P 8.51225 0.24465761 6.87E−03 //17 24//88 Fusion_MS2.10290.10290.4 49 SMARCC1:129- 4.2015 SMARCC1:317 0 −0.85726235 JL021317_021517_BAF45D_85B_(—) NP 4.2015 0.19478442 4.57E−04 1//8 11//41 Fusion_MS2.04790.04790.4 50 SMARCC1:129- 10.29975 SMARCC1:739 −1 10.9511665 JL021317_021517_BAF45D_70B_(—) N 10.29975 0.27819869 //9 7//44 Fusion_MS2.17778.17778.4 51 SMARCC1:227- 9.79325 SMARCC1:317 −3 6.09007335 JL021317_021517_BAF45D_100B_(—) N 9.79325 0.25536839 //8 6//31 Fusion_MS2.15386.15386.7 −1 4.06426441 JL021317_021517_BAF45D_100B_(—) N 9.44175 0.23527323 //8 6//31 Fusion_MS2.15403.15403.7 −3 7.71922257 JL021317_021517_BAF45D_100B_(—) P 9.1745 0.23502062 2.65E−06 //14 37//340 Fusion_MS2.15417.15417.6 52 SMARCC1:34- 15.422 SMARCC1:856 −2 7.99294132 JL021317_021517_BAF45D_50B_(—) N 15.422 0.50506804 //9 4//36 Fusion_MS2.16725.16725.4 −2 −4.48662576 JL021317_021517_BAF45D_50B_(—) P 6.827 0.24122823 1.99E−03 //19 24//161 Fusion_MS2.19697.19697.4 53 SMARCC1:740- 20.44375 SMARCC1:856 −3 −0.65214721 JL021317_021517_BAF45D_70B_(—) NP 20.44375 0.59736 1.09E−07 1//19 44//162 Fusion_MS2.12323.12323.4 −2 1.31289715 JL021317_021517_BAF45D_70B_(—) NP 20.409 0.65971684 1.31E−07 2//19 56//213 Fusion_MS2.12345.12345.5 0 3.3588035 JL021317_021517_BAF45D_70B_(—) NP 19.99825 0.55774567 5.46E−08 1//19 40//162 Fusion_MS2.12293.12293.4 0 −2.91683268 JL021317_021517_BAF45D_70B_(—) NP 18.46275 0.61900491 4.20E−09 1//19 49//213 Fusion_MS2.12295.12295.5 −1 1.75442322 JL021317_021517_hBAF45D_(—) P 13.8575 0.40086494 5.88E−04 //19 30//162 Fusion_MS2.13322.13322.4 −2 1.22173918 JL021317_021517_hBAF45D_(—) NP 13.745 0.38473381 2.72E−04 //19 47//213 Fusion_MS2.13318.13318.5 −3 1.42228672 JL021317_021517_BAF45D_D_(—) NP 6.97275 0.21507557 3.12E−03 //19 26//213 Fusion_MS2.12626.12626.5 54 SMARCC1:740- 21.8375 SMARCC1:750 −2 0.78708987 JL021317_021517_BAF45D_D_(—) NP 21.8375 0.52577407 5.24E−11 //15 48//290 Fusion_MS2.10190.10190.5 −2 −0.62426545 JL021317_021517_BAF45D_D_(—) NP 15.38325 0.51230539 4.16E−12 //15 35//210 Fusion_MS2.10193.10193.4 55 SMARCC1:740- 8.2595 SMARCC1:740 0 3.28162817 JL021317_021517_BAF45D_70B_(—) NP 8.2595 0.55483156 1.00E−03 3//8 13//36 Fusion_MS2.02925.02925.4 0 1.5267045 JL021317_021517_BAF45D_70B_(—) NP 6.7275 0.4504218 3.22E−04 2//8 11//36 Fusion_MS2.02917.02917.4 56 SMARCC1:183- 3.2885 SMARCC1:317 −1 −1.51232855 JL021317_021517_BAF45D_100B_(—) NP 3.2885 0.15472746 2.35E−03 1//11 8//47 Fusion_MS2.04491.04491.4 57 SMARCC1:393- 2.48625 SMARCC1:740 −2 14.1901529 JL021317_021517_BAF45D_70B_(—) N 2.48625 0.1297964 //8 6//38 Fusion_MS2.03561.03561.4 58 SMARCC1:317- 4.938 SMARCC1:346 0 14.6009754 JL021317_021517_BAF45D_70B_(—) N 4.938 0.16098849 1//8 8//37 Fusion_MS2.06801.06801.4 −1 11.4175742 JL021317_021517_BAF45D_100B_(—) P 3.73025 0.17762672 1.36E−07 //11 3//47 Fusion_MS2.04277.04277.4 0 0.95158695 JL021317_021517_BAF45D_100B_(—) P 3.48525 0.14916542 1.21E−07 //11 3//47 Fusion_MS2.04296.04296.4 0 0.50510197 JL021317_021517_BAF45D_70B_(—) N 3.2275 0.11283781 //8 6//37 Fusion_MS2.06814.06814.4 59 SMARCC1:317- 9.23225 SMARCC1:354 0 −3.60696608 JL021317_021517_BAF45D_85B_(—) NP 9.23225 0.39569047 3.15E−06 5//11 20//46 Fusion_MS2.04905.04905.4 0 −2.74121242 JL021317_021517_hBAF45D_(—) NP 6.529 0.31373585 1.12E−06 3//11 17//46 Fusion_MS2.04951.04951.4 0 3.70249828 JL021317_021517_BAF45D_100B_(—) P 5.16425 0.22799717 2.91E−07 //11 9//47 Fusion_MS2.04848.04848.4 60 SMARCC1:317- 16.3435 SMARCC1:41 −2 10.5931634 JL021317_021517_BAF45D_70B_(—) N 16.3435 0.47904973 //8 7//31 Fusion_MS2.14141.14141.4 −1 1.66333929 JL021317_021517_BAF45D_5D_(—) N 15.501 0.41947312 //8 8//39 Fusion_MS2.10687.10687.5 −2 2.38207928 JL021317_021517_BAF45D_5D_(—) N 15.28525 0.42021306 //8 7//39 Fusion_MS2.10682.10682.5 −2 −3.6373335 JL021317_021517_BAF45D_70B_(—) NP 14.84225 0.40772612 7.02E−04 //11 35//131 Fusion_MS2.13142.13142.4 −1 2.91651949 JL021317_021517_BAF45D_5D_(—) N 12.20875 0.41582936 //8 5//31 Fusion_MS2.10693.10693.6 −2 18.5115449 JL021317_021517_BAF45D_70B_(—) N 8.089 0.20035916 //8 6//31 Fusion_MS2.13800.13800.4 −3 12.297579 JL021317_021517_BAF45D_70B_(—) N 6.9805 0.18351386 //8 6//31 Fusion_MS2.14185.14185.4 61 SMARCC1:317- 22.7165 SMARCC1:94 −1 0.21514403 JL021317_021517_BAF45D_100B_(—) NP 22.7165 0.5767805 8.72E−05 //7 48//222 Fusion_MS2.20918.20918.5 −2 −1.55709769 JL021317_021517_BAF45D_5D_(—) NP 20.87275 0.56584887 3.54E−09 //7 41//222 Fusion_MS2.20831.20831.5 −3 3.4331619 JL021317_021517_BAF45D_D_(—) NP 19.913 0.51387061 2.09E−06 //7 41//222 Fusion_MS2.20358.20358.5 −1 5.73396694 JL021317_021517_BAF45D_D_(—) NP 19.47925 0.486082 2.08E−07 //7 42//222 Fusion_MS2.20372.20372.5 −4 −0.43778713 JL021317_021517_BAF45D_5D_(—) P 16.31525 0.44278968 6.32E−04 //7 37//222 Fusion_MS2.20883.20883.5 −3 5.687329 JL021317_021517_BAF45D_100B_(—) P 16.2925 0.39948754 1.67E−09 //7 35//222 Fusion_MS2.20889.20889.5 −1 −2.11333778 JL021317_021517_BAF45D_100B_(—) P 9.938 0.29390628 5.22E−08 //4 29//255 Fusion_MS2.20122.20122.6 0 17.2418366 JL021317_021517_BAF45D_D_(—) N 7.7955 0.21957918 1//8 6//31 Fusion_MS2.19504.19504.6 0 2.08202697 JL021317_021517_BAF45D_100B_(—) NP 6.65075 0.19152352 4.11E−04 //4 28//255 Fusion_MS2.20113.20113.6 62 SMARCC1:317- 10.098 SMARCC1:326 0 −0.44768873 JL021317_021517_BAF45D_85B_(—) NP 10.098 0.46244734 9.20E−10 //16 25//97 Fusion_MS2.03850.03850.4 −1 −3.71176325 JL021317_021517_BAF45D_85B_(—) NP 9.79675 0.40475748 1.07E−07 1//16 28//97 Fusion_MS2.03997.03997.4 0 −3.74628601 JL021317_021517_BAF45D_100B_(—) P 9.71675 0.57592686 2.24E−03 //16 24//96 Fusion_MS2.04039.04039.4 0 −3.8179763 JL021317_021517_BAF45D_100B_(—) NP 6.97075 0.28616146 1.93E−12 1//16 21//121 Fusion_MS2.04026.04026.5 63 SMARCC1:317- 14.07425 SMARCC1:34 −1 2.27589811 JL021317_021517_hBAF45D_(—) N 14.07425 0.40763026 //8 5//31 Fusion_MS2.15048.15048.4 0 −0.27241113 JL021317_021517_BAF45D_D_(—) NP 6.53175 0.2808932 2.72E−12 //11 12//56 Fusion_MS2.02187.02187.5 0 −5.37653061 JL021317_021517_BAF45D_70B_(—) NP 5.257 0.34024789 4.36E−16 //9 7//40 Fusion_MS2.02336.02336.4 0 1.64614667 JL021317_021517_BAF45D_100B_(—) P 4.038 0.17370357 1.86E−05 2//9 7//45 Fusion_MS2.01993.01993.4 −1 0.75610701 JL021317_021517_BAF45D_100B_(—) NP 4.01275 0.18997515 2.71E−02 1//9 8//45 Fusion_MS2.01976.01976.4 64 SMARCC1:317- 5.3145 SMARCC1:740 0 −0.37539523 JL021317_021517_BAF45D_85B_(—) NP 5.3145 0.25073127 1.00E−09 //8 7//36 Fusion_MS2.02490.02490.4 65 SMARCC1:317- 3.3565 SMARCC1:317 0 −7.15372325 JL021317_021517_BAF45D_100B_(—) NP 3.3565 0.32076644 8.49E−03 //11 8//47 Fusion_MS2.02114.02114.4 66 SMARCC1:201- 14.97975 SMARCC1:317 −1 −0.30798398 JL021317_021517_BAF45D_10D_(—) NP 14.97975 0.53533522 3.02E−11 //15 29//211 Fusion_MS2.09472.09472.6 −1 −3.24003982 JL021317_021517_BAF45D_10D_(—) P 9.92075 0.42097726 1.72E−07 //15 22//211 Fusion_MS2.09503.09503.6 5 ACTL6A 1 ACTL6A:135- 14.6295 ACTL6A:62 −3 −0.07707569 JL021317_021517_BAF45D_85B_(—) NP 14.6295 0.42737577 2.40E−11 //14 26//161 Fusion_MS2.18858.18858.5 −4 −1.73106492 JL021317_021517_BAF45D_85B_(—) P 12.464 0.28028199 5.20E−09 //7 26//232 Fusion_MS2.19459.19459.6 −2 0.37476919 JL021317_021517_BAF45D_85B_(—) NP 11.31475 0.2566314 6.62E−10 //7 24//232 Fusion_MS2.19521.19521.6 −2 −1.54075142 JL021317_021517_BAF45D_100B_(—) NP 10.58825 0.25931572 2.96E−08 //14 24//161 Fusion_MS2.18728.18728.5 −4 14.9471412 JL021317_021517_BAF45D_85B_(—) P 10.32325 0.22540832 2.69E−08 //7 24//232 Fusion_MS2.19444.19444.6 −4 0.41688587 JL021317_021517_BAF45D_100B_(—) P 8.9105 0.21061029 1.45E−08 //7 20//232 Fusion_MS2.19315.19315.6 −2 −2.15223174 JL021317_021517_BAF45D_5D_(—) P 6.3325 0.16885316 9.55E−06 //7 11//232 Fusion_MS2.19135.19135.6 2 ACTL6A:135- 16.1905 ACTL6A:421 −2 0.31731312 JL021317_021517_BAF45D_D_(—) N 16.1905 0.402864 //14 19//66 Fusion_MS2.18653.18653.4 −2 1.69178837 JL021317_021517_BAF45D_85B_(—) N 15.679 0.40143378 //14 18//66 Fusion_MS2.18981.18981.4 −1 0.99515206 JL021317_021517_BAF45D_100B_(—) NP 15.60175 0.39816126 1.74E−07 1//14 27//161 Fusion_MS2.17742.17742.5 −3 5.57363688 JL021317_021517_BAF45D_85B_(—) N 14.932 0.37131347 //14 16//66 Fusion_MS2.19044.19044.4 −3 4.81754882 JL021317_021517_BAF45D_70B_(—) N 14.6505 0.38606269 //14 16//66 Fusion_MS2.17461.17461.4 −1 0.44315878 JL021317_021517_BAF45D_100B_(—) N 14.63425 0.37239646 //14 17//66 Fusion_MS2.18861.18861.4 −2 2.67181058 JL021317_021517_BAF45D_100B_(—) NP 13.99475 0.37838989 4.42E−06 //14 28//161 Fusion_MS2.16924.16924.5 −2 12.2101263 JL021317_021517_BAF45D_D_(—) N 13.9335 0.33029904 //15 15//93 Fusion_MS2.17562.17562.5 −2 2.60810731 JL021317_021517_BAF45D_5D_(—) N 13.595 0.32694435 //14 17//66 Fusion_MS2.18681.18681.4 −4 0.11058689 JL021317_021517_BAF45D_5D_(—) P 13.478 0.36581758 7.45E−07 //14 25//161 Fusion_MS2.17654.17654.5 −3 5.11558272 JL021317_021517_BAF45D_5D_(—) N 13.401 0.34204985 //14 20//66 Fusion_MS2.18751.18751.4 −1 −5.42197399 JL021317_021517_BAF45D_85B_(—) NP 12.59325 0.28985649 1.27E−06 //14 25//119 Fusion_MS2.17782.17782.4 −1 4.25404755 JL021317_021517_BAF45D_70B_(—) N 12.58475 0.30352858 //14 15//66 Fusion_MS2.19227.19227.4 −3 1.45170183 JL021317_021517_BAF45D_D_(—) NP 11.689 0.28595193 5.10E−04 1//14 25//161 Fusion_MS2.17558.17558.5 0 2.06413883 JL021317_021517_BAF45D_70B_(—) N 11.5 0.28138343 //15 13//93 Fusion_MS2.16264.16264.5 −3 −2.79681284 JL021317_021517_BAF45D_85B_(—) NP 11.339 0.25687845 1.08E−08 //14 23//119 Fusion_MS2.17796.17796.4 −1 6.79073223 JL021317_021517_BAF45D_70B_(—) NP 10.3175 0.28139148 5.85E−08 //14 20//119 Fusion_MS2.17450.17450.4 −2 4.06268641 JL021317_021517_BAF45D_100B_(—) NP 9.9255 0.26451424 1.02E−07 //12 17//169 Fusion_MS2.16583.16583.5 −2 1.17169747 JL021317_021517_hBAF45D_(—) N 9.75675 0.27280544 //14 17//66 Fusion_MS2.19969.19969.4 −2 2.95524484 JL021317_021517_BAF45D_85B_(—) N 9.43625 0.24761211 //14 11//86 Fusion_MS2.17499.17499.5 −1 6.56132097 JL021317_021517_BAF45D_100B_(—) NP 9.3665 0.23563522 3.81E−03 //14 21//161 Fusion_MS2.16915.16915.6 −2 10.7928898 JL021317_021517_BAF45D_70B_(—) N 9.0805 0.22687637 //14 14//66 Fusion_MS2.19214.19214.4 −2 −5.19680413 JL021317_021517_BAF45D_85B_(—) NP 9.01825 0.20640034 2.81E−02 //14 23//161 Fusion_MS2.17754.17754.5 −3 2.63113577 JL021317_021517_BAF45D_100B_(—) NP 8.952 0.23387413 1.51E−06 //12 14//169 Fusion_MS2.16572.16572.5 −1 2.6501284 JL021317_021517_BAF45D_10D_(—) N 8.86325 0.30057652 //14 16//66 Fusion_MS2.18746.18746.4 −1 0.58793907 JL021317_021517_hBAF45D_(—) N 8.03175 0.23259872 //14 13//66 Fusion_MS2.19956.19956.4 −1 2.50536086 JL021317_021517_BAF45D_70B_(—) N 7.7205 0.19047678 //14 10//66 Fusion_MS2.19885.19885.4 0 6.25103748 JL021317_021517_BAF45D_85B_(—) N 7.11 0.17211537 //15 13//93 Fusion_MS2.16231.16231.5 −3 2.09372494 JL021317_021517_BAF45D_85B_(—) NP 5.94625 0.16852539 6.30E−05 //14 17//161 Fusion_MS2.18425.18425.5 0 6.4603755 JL021317_021517_BAF45D_5D_(—) N 5.728 0.16342135 //14 11//86 Fusion_MS2.17367.17367.5 −1 5.48411221 JL021317_021517_BAF45D_70B_(—) N 5.3465 0.12431408 //14 8//66 Fusion_MS2.19639.19639.4 −2 3.24419548 JL021317_021517_BAF45D_85B_(—) N 5.27275 0.1302412 //15 12//93 Fusion_MS2.16220.16220.5 −2 3.29216807 JL021317_021517_BAF45D_85B_(—) P 5.00025 0.13854562 5.16E−03 //14 17//161 Fusion_MS2.18196.18196.5 −3 10.4580092 JL021317_021517_BAF45D_70B_(—) N 4.9425 0.11277295 //14 10//66 Fusion_MS2.19600.19600.4 −2 5.0262301 JL021317_021517_BAF45D_5D_(—) P 4.77 0.12030568 8.14E−05 //12 9//169 Fusion_MS2.16495.16495.5 0 6.74852228 JL021317_021517_BAF45D_D_(—) N 4.431 0.10545104 2//15 12//93 Fusion_MS2.16084.16084.5 3 ACTL6A:135- 13.97075 ACTL6A:60 −3 13.3145178 JL021317_021517_BAF45D_85B_(—) N 13.97075 0.32118513 1//17 19//108 Fusion_MS2.19882.19882.5 −4 5.61879584 JL021317_021517_BAF45D_D_(—) P 13.04675 0.30948738 3.28E−01 2//15 26//230 Fusion_MS2.20895.20895.6 −1 −7.61457973 JL021317_021517_BAF45D_85B_(—) NP 12.578 0.30850359 6.12E−11 //6 30//232 Fusion_MS2.19512.19512.5 −2 −4.48570382 JL021317_021517_BAF45D_85B_(—) NP 12.28 0.25516883 1.01E−01 //14 21//162 Fusion_MS2.19868.19868.5 −1 10.3117076 JL021317_021517_BAF45D_85B_(—) N 12.16625 0.27921534 //14 19//161 Fusion_MS2.19458.19458.5 −4 8.33350121 JL021317_021517_BAF45D_70B_(—) P 11.75675 0.27885699 4.59E−06 //14 20//162 Fusion_MS2.20268.20268.5 −1 −0.46128009 JL021317_021517_BAF45D_D_(—) NP 10.4575 0.26551987 8.26E−03 1//15 25//230 Fusion_MS2.20887.20887.6 −2 0.18497066 JL021317_021517_BAF45D_100B_(—) NP 10.38525 0.27026623 1.59E−03 //14 20//162 Fusion_MS2.19679.19679.5 −2 −2.05382542 JL021317_021517_BAF45D_85B_(—) NP 10.0215 0.21498445 9.75E−04 //14 17//120 Fusion_MS2.19890.19890.4 −4 5.41925375 JL021317_021517_BAF45D_85B_(—) P 9.97175 0.20608751 1.99E−04 //14 15//120 Fusion_MS2.19912.19912.4 −2 10.2632339 JL021317_021517_BAF45D_85B_(—) N 9.724 0.20988107 //14 18//119 Fusion_MS2.19526.19526.6 0 10.8148756 JL021317_021517_BAF45D_70B_(—) N 9.25725 0.20264768 //17 12//108 Fusion_MS2.20230.20230.5 −2 11.0513481 JL021317_021517_BAF45D_100B_(—) NP 9.056 0.20944055 5.49E−07 //6 19//232 Fusion_MS2.19325.19325.6 −1 −0.32926868 JL021317_021517_BAF45D_100B_(—) P 5.92725 0.15285281 1.26E−03 //14 7//120 Fusion_MS2.19689.19689.4 4 ACTL6A:135- 20.23 ACTL6A:135 −2 1.75784957 JL021317_021517_BAF45D_D_(—) N 20.23 0.46866674 //14 24//118 Fusion_MS2.23219.23219.6 0 3.05784515 JL021317_021517_BAF45D_D_(—) N 16.60575 0.37202178 //14 22//118 Fusion_MS2.23229.23229.6 0 2.15938155 JL021317_021517_BAF45D_100B_(—) N 16.0555 0.39554822 //14 24//118 Fusion_MS2.23371.23371.6 −2 5.39482802 JL021317_021517_BAF45D_10D_(—) N 9.4 0.36688654 //14 13//118 Fusion_MS2.23067.23067.6 −2 7.64327404 JL021317_021517_BAF45D_10D_(—) N 9.1505 0.36558861 //14 9//118 Fusion_MS2.23057.23057.6 0 9.43594894 JL021317_021517_BAF45D_85B_(—) N 5.706 0.14856473 //14 9//118 Fusion_MS2.23161.23161.6 −2 8.37383092 JL021317_021517_BAF45D_85B_(—) N 5.22725 0.13003433 //14 11//119 Fusion_MS2.18554.18554.6 −1 3.09160676 JL021317_021517_BAF45D_D_(—) N 4.5545 0.10873042 //14 14//118 Fusion_MS2.19404.19404.6 0 0.37454696 JL021317_021517_BAF45D_100B_(—) N 4.4375 0.10007668 //14 14//118 Fusion_MS2.22793.22793.6 0 7.87747233 JL021317_021517_BAF45D_D_(—) N 3.85475 0.11714963 //14 12//118 Fusion_MS2.23228.23228.7 5 ACTL6A:371- 8.1085 ACTL6A:379 −1 3.05479355 JL021317_021517_BAF45D_70B_(—) NP 8.1085 0.30841353 1.86E−08 1//12 17//65 Fusion_MS2.10093.10093.4 −2 −1.48779237 JL021317_021517_BAF45D_85B_(—) NP 2.9045 0.10406851 1.14E−03 //13 7//91 Fusion_MS2.09567.09567.5 6 ACTL6A:194- 24.4935 ACTL6A:89 −1 15.0585204 JL021317_021517_BAF45D_D_(—) N 24.4935 0.5427742 1//8 30//169 Fusion_MS2.19727.19727.6 −4 −2.22325407 JL021317_021517_BAF45D_85B_(—) P 24.2565 0.53318606 1.20E−25 //3 37//356 Fusion_MS2.20179.20179.6 −4 −1.40803872 JL021317_021517_BAF45D_100B_(—) P 23.442 0.51119228 1.21E−25 //3 36//356 Fusion_MS2.20010.20010.6 −3 8.0372318 JL021317_021517_BAF45D_D_(—) N 18.804 0.37552797 //8 24//169 Fusion_MS2.18711.18711.7 −3 9.58227197 JL021317_021517_BAF45D_100B_(—) NP 18.1265 0.44429874 3.35E−26 //3 32//356 Fusion_MS2.21030.21030.6 −4 2.84919702 JL021317_021517_BAF45D_85B_(—) P 17.77275 0.40076104 5.59E−22 //3 31//356 Fusion_MS2.21396.21396.6 −4 5.2042636 JL021317_021517_BAF45D_D_(—) P 17.497 0.36229798 3.21E−20 //3 33//356 Fusion_MS2.20473.20473.6 −4 2.84919702 JL021317_021517_BAF45D_5D_(—) P 16.55175 0.42405047 4.39E−22 //3 32//356 Fusion_MS2.20998.20998.6 −3 7.96781657 JL021317_021517_BAF45D_D_(—) N 16.0495 0.36265959 //8 15//169 Fusion_MS2.18723.18723.6 −3 1.33426051 JL021317_021517_BAF45D_100B_(—) N 15.73225 0.32840861 //8 24//169 Fusion_MS2.20989.20989.7 −2 0.40457424 JL021317_021517_BAF45D_D_(—) N 15.48825 0.33799797 //8 25//169 Fusion_MS2.20526.20526.7 −3 6.29921808 JL021317_021517_BAF45D_D_(—) N 15.2355 0.31261606 //8 24//169 Fusion_MS2.20774.20774.7 −3 9.58227197 JL021317_021517_BAF45D_85B_(—) NP 14.9385 0.33292104 4.38E−13 //3 29//356 Fusion_MS2.21163.21163.6 −3 6.08794228 JL021317_021517_BAF45D_5D_(—) N 13.80875 0.31757394 //8 20//169 Fusion_MS2.19862.19862.7 −3 6.79971235 JL021317_021517_BAF45D_85B_(—) N 13.0475 0.25504071 1//8 27//169 Fusion_MS2.21204.21204.7 −3 14.6793541 JL021317_021517_BAF45D_100B_(—) N 12.40875 0.26362333 //8 21//169 Fusion_MS2.20620.20620.7 −3 12.024693 JL021317_021517_BAF45D_85B_(—) N 11.61025 0.22891774 //8 16//169 Fusion_MS2.21155.21155.6 −3 10.4853824 JL021317_021517_BAF45D_85B_(—) N 11.064 0.26181715 //8 16//169 Fusion_MS2.21168.21168.6 −3 4.62419701 JL021317_021517_BAF45D_100B_(—) N 10.73575 0.25605204 //8 14//169 Fusion_MS2.19621.19621.6 −3 11.9780831 JL021317_021517_BAF45D_100B_(—) N 10.71925 0.22404352 1//7 18//168 Fusion_MS2.18773.18773.7 −4 6.74411482 JL021317_021517_BAF45D_5D_(—) P 9.8635 0.28989405 2.32E−13 //3 24//356 Fusion_MS2.20800.20800.6 −3 12.027918 JL021317_021517_BAF45D_85B_(—) P 6.4015 0.19332578 3.30E−04 //3 21//356 Fusion_MS2.21592.21592.6 7 ACTL6A:108- 7.62625 ACTL6A:112 −3 2.18874408 JL021317_021517_BAF45D_100B_(—) P 7.62625 0.17722482 9.68E−07 //11 12//276 Fusion_MS2.20089.20089.6 −4 8.3847819 JL021317_021517_BAF45D_100B_(—) P 6.20925 0.16484151 1.11E−07 //11 10//276 Fusion_MS2.20109.20109.5 −3 2.97350484 JL021317_021517_BAF45D_5D_(—) P 5.57775 0.14448445 1.96E−04 //11 12//276 Fusion_MS2.20013.20013.6 −4 −4.46303765 JL021317_021517_BAF45D_D_(—) P 4.58325 0.11017031 1.07E−03 //11 12//276 Fusion_MS2.19723.19723.6 8 ACTL6A:238- 13.945 ACTL6A:240 0 0.73617498 JL021317_021517_BAF45D_70B_(—) N 13.945 0.36560267 8//11 28//45 Fusion_MS2.10866.10866.4 0 −1.34343663 JL021317_021517_BAF45D_100B_(—) NP 10.89225 0.29391249 1.95E−09 //10 13//52 Fusion_MS2.08143.08143.4 0 7.4842722 JL021317_021517_BAF45D_70B_(—) N 10.515 0.28999297 5//11 24//45 Fusion_MS2.09830.09830.4 0 −0.37184027 JL021317_021517_BAF45D_100B_(—) NP 10.50025 0.30144114 1.14E−07 1//10 13//63 Fusion_MS2.08132.08132.5 −1 5.7972543 JL021317_021517_hBAF45D_(—) N 8.4025 0.27735142 3//11 23//45 Fusion_MS2.10605.10605.4 0 −0.37184027 JL021317_021517_hBAF45D_(—) NP 8.3605 0.26540427 1.54E−01 //10 10//63 Fusion_MS2.08317.08317.5 −1 2.01898579 JL021317_021517_BAF45D_70B_(—) N 8.29975 0.22872201 //11 15//45 Fusion_MS2.10165.10165.4 −2 12.7362963 JL021317_021517_BAF45D_85B_(—) N 8.2665 0.26525799 2//11 17//46 Fusion_MS2.08346.08346.4 0 −0.3048934 JL021317_021517_BAF45D_100B_(—) NP 8.058 0.22409166 2.37E−09 //10 9//63 Fusion_MS2.08456.08456.5 0 −0.91497666 JL021317_021517_hBAF45D_(—) NP 7.776 0.20594311 4.74E−07 //10 10//52 Fusion_MS2.08270.08270.4 0 −1.97856515 JL021317_021517_BAF45D_100B_(—) NP 7.773 0.25024951 3.33E−06 //10 11//63 Fusion_MS2.08734.08734.5 0 1.23209384 JL021317_021517_BAF45D_5D_(—) NP 7.747 0.27739683 1.62E−08 3//15 25//92 Fusion_MS2.07836.07836.5 0 −0.93785307 JL021317_021517_BAF45D_5D_(—) NP 7.747 0.26938123 1.71E−02 4//15 19//92 Fusion_MS2.07837.07837.6 0 0.23068156 JL021317_021517_BAF45D_100B_(—) NP 7.6475 0.21594567 4.22E−09 //10 9//63 Fusion_MS2.08289.08289.5 0 −0.57268088 JL021317_021517_BAF45D_D_(—) NP 7.63375 0.2413605 1.45E−03 1//10 11//63 Fusion_MS2.08300.08300.5 −1 4.2144308 JL021317_021517_BAF45D_70B_(—) N 7.47525 0.23207855 1//10 14//42 Fusion_MS2.08755.08755.4 −2 7.09294427 JL021317_021517_BAF45D_70B_(—) N 7.396 0.23186407 2//10 15//42 Fusion_MS2.08762.08762.4 0 3.14663646 JL021317_021517_BAF45D_100B_(—) N 7.36825 0.27161051 //10 12//42 Fusion_MS2.08166.08166.4 0 −2.91582133 JL021317_021517_hBAF45D_(—) NP 7.34075 0.21618736 1.78E−08 //10 9//63 Fusion_MS2.08473.08473.5 0 3.47431485 JL021317_021517_BAF45D_70B_(—) N 6.89775 0.20437475 1//11 16//45 Fusion_MS2.10192.10192.4 −2 0.1558518 JL021317_021517_BAF45D_5D_(—) NP 6.8605 0.19265115 6.58E−04 4//15 21//92 Fusion_MS2.08011.08011.6 −1 14.7797049 JL021317_021517_BAF45D_70B_(—) N 6.83475 0.18464313 1//10 15//42 Fusion_MS2.08824.08824.4 0 −2.30747155 JL021317_021517_BAF45D_100B_(—) NP 6.33375 0.2053146 6.54E−05 //10 7//52 Fusion_MS2.08784.08784.4 −1 12.4876304 JL021317_021517_BAF45D_85B_(—) N 6.131 0.19635851 2//11 10//56 Fusion_MS2.08330.08330.5 0 13.1984059 JL021317_021517_BAF45D_85B_(—) N 6.10825 0.18010467 1//11 17//45 Fusion_MS2.10268.10268.4 0 2.33198728 JL021317_021517_BAF45D_70B_(—) N 5.64875 0.18888982 4//10 11//41 Fusion_MS2.10745.10745.4 0 −0.10713661 JL021317_021517_BAF45D_5D_(—) NP 5.6385 0.18671766 3.51E−07 1//15 18//92 Fusion_MS2.08109.08109.5 −1 1.91877681 JL021317_021517_hBAF45D_(—) N 5.5965 0.21592268 1//11 15//45 Fusion_MS2.10924.10924.4 −1 7.73093082 JL021317_021517_BAF45D_70B_(—) N 5.4865 0.14745881 2//11 8//45 Fusion_MS2.11110.11110.4 −1 0.59219466 JL021317_021517_BAF45D_10D_(—) NP 5.40975 0.20350412 9.80E−04 //10 7//63 Fusion_MS2.08255.08255.5 −1 4.82484537 JL021317_021517_BAF45D_70B_(—) N 4.452 0.14962443 2//11 13//45 Fusion_MS2.10409.10409.4 0 2.64076888 JL021317_021517_BAF45D_5D_(—) NP 4.4325 0.15304273 5.90E−04 //10 7//63 Fusion_MS2.08289.08289.5 0 3.59788253 JL021317_021517_BAF45D_100B_(—) N 4.429 0.19595611 2//10 16//51 Fusion_MS2.08152.08152.5 9 ACTL6A:238- 9.8555 ACTL6A:242 0 2.4055881 JL021317_021517_BAF45D_100B_(—) NP 9.8555 0.26457363 1.71E−08 //11 9//46 Fusion_MS2.08309.08309.4 0 2.03942902 JL021317_021517_hBAF45D_(—) N 9.022 0.30595497 4//11 22//45 Fusion_MS2.11579.11579.4 0 5.52195655 JL021317_021517_BAF45D_100B_(—) N 8.608 0.26162543 2//10 20//42 Fusion_MS2.09519.09519.4 0 0.26328826 JL021317_021517_BAF45D_100B_(—) NP 8.58825 0.26928745 1.88E−06 //11 9//46 Fusion_MS2.08470.08470.4 −2 2.29906226 JL021317_021517_hBAF45D_(—) N 8.4475 0.27168058 3//11 19//45 Fusion_MS2.11560.11560.4 0 13.2958103 JL021317_021517_BAF45D_100B_(—) N 8.25875 0.26654026 //10 15//42 Fusion_MS2.08320.08320.4 0 1.0285403 JL021317_021517_BAF45D_5D_(—) N 8.12825 0.27382597 2//11 17//46 Fusion_MS2.08330.08330.4 0 −0.66514929 JL021317_021517_BAF45D_5D_(—) NP 7.85175 0.25025897 2.88E−06 2//15 29//92 Fusion_MS2.07994.07994.5 −2 6.63601528 JL021317_021517_BAF45D_5D_(—) N 7.6785 0.26216775 1//11 16//46 Fusion_MS2.08293.08293.4 0 0.77132766 JL021317_021517_BAF45D_100B_(—) N 7.5525 0.27821266 //10 12//42 Fusion_MS2.08425.08425.4 0 1.8433904 JL021317_021517_BAF45D_100B_(—) N 7.52875 0.23231864 4//10 18//51 Fusion_MS2.08319.08319.5 0 −1.11155944 JL021317_021517_hBAF45D_(—) NP 7.381 0.24360138 1.24E−05 2//15 23//92 Fusion_MS2.08217.08217.5 0 2.31827517 JL021317_021517_BAF45D_70B_(—) NP 7.15325 0.20251256 1.76E−06 6//11 20//49 Fusion_MS2.08720.08720.4 0 −0.30316349 JL021317_021517_BAF45D_5D_(—) NP 6.85825 0.30759312 2.64E−12 //15 14//74 Fusion_MS2.08008.08008.4 −1 2.30138854 JL021317_021517_BAF45D_85B_(—) N 6.406 0.2060801 //11 7//55 Fusion_MS2.10525.10525.5 −1 −1.98205924 JL021317_021517_BAF45D_5D_(—) NP 6.1445 0.20601844 1.13E−07 3//15 22//92 Fusion_MS2.08261.08261.5 −1 13.1568205 JL021317_021517_BAF45D_10D_(—) N 6.05975 0.25265276 2//11 15//56 Fusion_MS2.08276.08276.5 −1 5.87223338 JL021317_021517_BAF45D_5D_(—) N 5.97675 0.26245472 //11 8//42 Fusion_MS2.08013.08013.6 0 1.56411388 JL021317_021517_BAF45D_D_(—) N 5.92275 0.21809294 1//11 11//46 Fusion_MS2.06869.06869.4 0 0.89866642 JL021317_021517_BAF45D_100B_(—) N 5.69525 0.20055816 1//10 11//51 Fusion_MS2.08488.08488.5 −1 −3.69996645 JL021317_021517_hBAF45D_(—) NP 5.2975 0.17387665 2.71E−04 //11 7//46 Fusion_MS2.08967.08967.4 0 7.28088602 JL021317_021517_BAF45D_70B_(—) N 4.885 0.17587126 4//10 11//41 Fusion_MS2.10361.10361.4 0 11.2130128 JL021317_021517_BAF45D_100B_(—) N 4.86025 0.16733805 //10 9//42 Fusion_MS2.08376.08376.4 −1 −5.62803631 JL021317_021517_hBAF45D_(—) NP 4.72225 0.13934874 1.19E−03 //11 9//46 Fusion_MS2.08654.08654.4 −1 0.65914153 JL021317_021517_BAF45D_100B_(—) NP 4.70875 0.12563032 7.70E−05 //11 9//56 Fusion_MS2.08883.08883.5 −2 11.0297522 JL021317_021517_BAF45D_100B_(—) N 4.48875 0.123111 4//11 13//56 Fusion_MS2.08632.08632.5 −1 −6.57112044 JL021317_021517_BAF45D_85B_(—) P 4.22675 0.13959114 4.79E−03 //11 10//56 Fusion_MS2.08886.08886.5 0 3.92819218 JL021317_021517_BAF45D_D_(—) N 4.1805 0.17288009 //11 8//56 Fusion_MS2.06749.06749.5 −1 1.91454506 JL021317_021517_hBAF45D_(—) N 3.834 0.14203419 //11 8//56 Fusion_MS2.08979.08979.5 −2 8.34836737 JL021317_021517_hBAF45D_(—) N 3.78475 0.15551743 //11 6//46 Fusion_MS2.06911.06911.4 0 −2.17808612 JL021317_021517_hBAF45D_(—) P 3.78425 0.13872138 1.08E−04 //15 8//74 Fusion_MS2.08236.08236.4 0 0.04260858 JL021317_021517_BAF45D_5D_(—) N 3.65 0.12938674 //11 7//46 Fusion_MS2.08139.08139.4 −1 1.26166336 JL021317_021517_hBAF45D_(—) P 3.57525 0.13245101 2.27E−02 //12 7//70 Fusion_MS2.08979.08979.5 −1 5.99653252 JL021317_021517_hBAF45D_(—) N 3.53325 0.14010826 //11 8//56 Fusion_MS2.08977.08977.5 −1 −2.82209572 JL021317_021517_hBAF45D_(—) P 3.18725 0.1263904 8.51E−02 //12 7//70 Fusion_MS2.08977.08977.5 −2 7.47637119 JL021317_021517_hBAF45D_(—) N 2.94775 0.1180824 1//10 10//51 Fusion_MS2.08322.08322.5 10 ACTL6A:112- 20.868 ACTL6A:34 −1 1.84459091 JL021317_021517_BAF45D_85B_(—) NP 20.868 0.56934725 9.13E−10 1//14 25//181 Fusion_MS2.16127.16127.5 −3 11.133238 JL021317_021517_BAF45D_85B_(—) NP 19.56725 0.49551768 5.81E−10 1//14 26//181 Fusion_MS2.16115.16115.5 −4 0.87988256 JL021317_021517_BAF45D_85B_(—) P 17.2205 0.48911454 2.19E−08 1//14 28//181 Fusion_MS2.16121.16121.6 −4 1.70205413 JL021317_021517_BAF45D_85B_(—) P 12.9695 0.33455432 5.58E−08 1//14 18//181 Fusion_MS2.16203.16203.5 −2 1.35480139 JL021317_021517_BAF45D_85B_(—) N 12.787 0.33421765 //11 25//178 Fusion_MS2.15888.15888.5 −2 8.0579192 JL021317_021517_BAF45D_85B_(—) N 12.75175 0.34089664 //11 21//131 Fusion_MS2.15510.15510.6 −3 0.57702303 JL021317_021517_BAF45D_85B_(—) N 12.42575 0.33920942 //11 27//178 Fusion_MS2.15341.15341.5 −4 2.57173796 JL021317_021517_BAF45D_85B_(—) P 8.67325 0.26031725 3.48E−09 //14 16//134 Fusion_MS2.16161.16161.4 −2 4.43588033 JL021317_021517_BAF45D_85B_(—) N 8.30575 0.22726527 //11 19//131 Fusion_MS2.15868.15868.6 −3 5.78810859 JL021317_021517_BAF45D_100B_(—) NP 7.4255 0.19949492 3.98E−03 //14 13//181 Fusion_MS2.16145.16145.5 −3 6.61254348 JL021317_021517_BAF45D_85B_(—) N 7.048 0.15359135 //11 18//178 Fusion_MS2.15541.15541.5 −4 6.29628034 JL021317_021517_hBAF45D_(—) P 5.38725 0.14698981 8.45E−04 1//14 14//181 Fusion_MS2.16974.16974.6 11 ACTL6A:112- 5.9065 ACTL6A:89 −2 0.43237475 JL021317_021517_BAF45D_100B_(—) P 5.9065 0.12982745 1.34E−07 //8 10//272 Fusion_MS2.20129.20129.6 −2 9.73739524 JL021317_021517_BAF45D_100B_(—) P 5.67775 0.12481315 2.46E−02 //8 11//272 Fusion_MS2.21005.21005.6 −3 0.73133123 JL021317_021517_BAF45D_100B_(—) P 3.92425 0.0766096 8.80E−02 //8 10//272 Fusion_MS2.21048.21048.6 12 ACTL6A:240- 5.5315 ACTL6A:242 −1 1.76442775 JL021317_021517_BAF45D_100B_(—) N 5.5315 0.20151184 //11 8//55 Fusion_MS2.08397.08397.5 13 ACTL6A:34- 10.79625 ACTL6A:62 −3 3.17455014 JL021317_021517_BAF45D_70B_(—) P 10.79625 0.24273782 1.13E−05 //8 17//295 Fusion_MS2.17475.17475.5 −4 0.37160225 JL021317_021517_BAF45D_70B_(—) P 9.33425 0.19774906 1.51E−05 //8 12//295 Fusion_MS2.17869.17869.5 −4 1.32715267 JL021317_021517_BAF45D_D_(—) P 9.096 0.20138597 8.05E−04 //8 13//295 Fusion_MS2.17435.17435.5 −1 −4.91577673 JL021317_021517_BAF45D_D_(—) P 9.037 0.19606014 1.49E−03 //8 9//295 Fusion_MS2.17413.17413.5 −3 3.24764071 JL021317_021517_BAF45D_70B_(—) N 8.6545 0.20734308 //11 10//178 Fusion_MS2.17297.17297.5 −4 7.59131652 JL021317_021517_BAF45D_5D_(—) P 6.36225 0.1550766 3.06E−03 //8 10//295 Fusion_MS2.17388.17388.5 −1 9.73599634 JL021317_021517_BAF45D_85B_(—) P 5.694 0.14967077 7.65E−02 //8 8//295 Fusion_MS2.17658.17658.5 14 ACTL6A:226- 15.61 ACTL6A:240 −1 −0.83851901 JL021317_021517_BAF45D_D_(—) P 15.61 0.46056708 3.13E−09 //12 37//190 Fusion_MS2.16587.16587.5 −3 5.86220911 JL021317_021517_BAF45D_85B_(—) NP 15.2675 0.43591537 6.23E−11 //12 33//190 Fusion_MS2.16812.16812.6 −1 −1.74864079 JL021317_021517_BAF45D_85B_(—) P 15.15425 0.44077397 8.05E−05 //12 36//140 Fusion_MS2.16770.16770.4 −3 −3.91624745 JL021317_021517_BAF45D_85B_(—) P 14.951 0.42389532 3.44E−04 //12 34//140 Fusion_MS2.16763.16763.4 −1 1.56133121 JL021317_021517_BAF45D_85B_(—) P 14.04525 0.43598479 1.15E−07 //12 34//190 Fusion_MS2.16746.16746.5 0 7.97125374 JL021317_021517_BAF45D_100B_(—) P 13.23825 0.39476509 6.40E−07 //12 35//190 Fusion_MS2.16722.16722.5 0 −4.18282642 JL021317_021517_BAF45D_5D_(—) NP 12.73825 0.36868497 1.52E−06 //12 33//190 Fusion_MS2.16563.16563.5 −2 1.07314333 JL021317_021517_BAF45D_70B_(—) N 11.598 0.33052623 //10 7//60 Fusion_MS2.18906.18906.5 −1 4.58049762 JL021317_021517_BAF45D_70B_(—) P 11.45625 0.27274188 9.06E−07 //12 29//190 Fusion_MS2.16906.16906.5 −3 2.67610034 JL021317_021517_hBAF45D_(—) P 9.766 0.32844003 4.19E−09 //12 27//190 Fusion_MS2.17665.17665.5 −1 4.03859595 JL021317_021517_hBAF45D_(—) P 6.61 0.24029373 1.19E−06 //12 25//190 Fusion_MS2.17647.17647.5 6 BCL7B 1 BCL7B:57- 9.48125 BCL7B:61 0 1.52826841 JL021317_021517_BAF45D_85B_(—) NP 9.48125 0.34588585 3.29E−09 //14 21//68 Fusion_MS2.05281.05281.4 0 −5.62442583 JL021317_021517_BAF45D_85B_(—) NP 4.968 0.17847392 7.28E−02 2//14 12//85 Fusion_MS2.05274.05274.5 0 −1.51745338 JL021317_021517_BAF45D_85B_(—) NP 4.20075 0.14469129 1.29E−02 //14 15//85 Fusion_MS2.05617.05617.5 2 BCL7B:55- 7.72975 BCL7B:61 −1 −1.31596326 JL021317_021517_BAF45D_85B_(—) NP 7.72975 0.25554582 3.74E−06 //14 14//68 Fusion_MS2.05621.05621.4 7 SMARCB1 1 SMARCB1:13- 15.22325 SMARCB1:16 −1 1.53317389 JL021317_021517_BAF45D_85B_(—) N 15.22325 0.50708671 //9 19//170 Fusion_MS2.21917.21917.6 2 SMARCB1:108- 11.48625 SMARCB1:45 −2 2.17436037 JL021317_021517_hBAF45D_(—) P 11.48625 0.36990967 1.22E−03 //15 30//93 Fusion_MS2.11921.11921.4 3 SMARCB1:108- 12.82525 SMARCB1:124 −1 4.14502759 JL021317_021517_BAF45D_70B_(—) N 12.82525 0.41691182 1//8 8//26 Fusion_MS2.11159.11159.4 0 4.77925287 JL021317_021517_BAF45D_70B_(—) N 6.112 0.18165607 1//8 6//26 Fusion_MS2.11211.11211.4 4 SMARCB1:124- 3.067 SMARCB1:45 0 1.22205988 JL021317_021517_BAF45D_85B_(—) N 3.067 0.10138675 5//8 14//29 Fusion_MS2.07263.07263.4 −2 10.1740287 JL021317_021517_BAF45D_5D_(—) N 2.78775 0.10335527 3//8 9//28 Fusion_MS2.03509.03509.4 5 SMARCB1:124- 10.38275 SMARCB1:324 −1 3.96038955 JL021317_021517_BAF45D_85B_(—) N 10.38275 0.25477266 //8 5//32 Fusion_MS2.15091.15091.5 −2 3.60542681 JL021317_021517_BAF45D_5D_(—) N 3.5755 0.1192032 //8 5//32 Fusion_MS2.14909.14909.5 6 SMARCB1:199- 8.01 SMARCB1:364 0 −0.69375768 JL021317_021517_BAF45D_100B_(—) NP 8.01 0.34138857 3.71E−11 //13 17//61 Fusion_MS2.08958.08958.4 −1 3.70932709 JL021317_021517_hBAF45D_(—) P 7.842 0.31480701 2.09E−05 //13 18//61 Fusion_MS2.09118.09118.4 −2 6.02827288 JL021317_021517_BAF45D_85B_(—) N 7.50625 0.25299124 //8 5//38 Fusion_MS2.06705.06705.4 0 1.55898337 JL021317_021517_hBAF45D_(—) P 7.3615 0.29226219 1.70E−04 //13 14//61 Fusion_MS2.09104.09104.4 0 0.04305162 JL021317_021517_BAF45D_100B_(—) P 6.94475 0.25764237 4.13E−07 1//13 18//76 Fusion_MS2.08962.08962.5 −1 6.67884938 JL021317_021517_hBAF45D_(—) P 6.8805 0.27155402 1.49E−05 //13 13//61 Fusion_MS2.09116.09116.4 0 −4.11683952 JL021317_021517_BAF45D_85B_(—) P 6.6705 0.25344326 9.18E−07 //13 13//76 Fusion_MS2.08953.08953.5 −1 −3.15129337 JL021317_021517_BAF45D_85B_(—) P 6.44875 0.25244666 1.03E−03 //13 13//61 Fusion_MS2.08932.08932.4 −2 0.54223856 JL021317_021517_BAF45D_85B_(—) P 6.36725 0.23554491 4.98E−06 1//13 16//76 Fusion_MS2.08974.08974.5 0 3.0321966 JL021317_021517_BAF45D_70B_(—) N 6.00275 0.23890116 //4 3//16 Fusion_MS2.07042.07042.4 −3 0.69583454 JL021317_021517_hBAF45D_(—) P 5.9565 0.22914022 9.10E−07 //13 12//76 Fusion_MS2.09124.09124.5 0 −1.81289981 JL021317_021517_BAF45D_85B_(—) P 5.85925 0.23871947 7.31E−07 //13 12//76 Fusion_MS2.09194.09194.5 −1 −0.59136036 JL021317_021517_BAF45D_85B_(—) P 5.305 0.19114018 1.61E−04 //13 14//61 Fusion_MS2.09157.09157.4 −1 −1.01932058 JL021317_021517_hBAF45D_(—) P 5.1575 0.20660578 7.14E−06 //13 12//76 Fusion_MS2.09130.09130.5 8 SMARCA4 1 SMARCA4:496- 9.013 SMARCA4:502 0 −0.76262935 JL021317_021517_BAF45D_85B_(—) NP 9.013 0.35511515 7.28E−02 //16 18//107 Fusion_MS2.07368.07368.5 0 −7.5934716 JL021317_021517_BAF45D_85B_(—) NP 8.363 0.27416526 1.91E−05 //16 21//85 Fusion_MS2.07356.07356.4 −1 6.35621308 JL021317_021517_BAF45D_100B_(—) N 5.397 0.15345901 //10 8//36 Fusion_MS2.06518.06518.4 −1 2.58907691 JL021317_021517_BAF45D_100B_(—) P 4.83125 0.19341634 9.97E−02 //16 13//139 Fusion_MS2.06522.06522.5 2 SMARCA4:546- 11.943 SMARCA4:689 0 2.65258153 JL021317_021517_BAF45D_85B_(—) P 11.943 0.51884354 3.94E−01 //17 26//132 Fusion_MS2.07533.07533.5 3 SMARCA4:546- 4.46575 SMARCA4:572 −1 2.87437697 JL021317_021517_BAF45D_100B_(—) N 4.46575 0.23256086 1//5 5//21 Fusion_MS2.02496.02496.4 4 SMARCA4:626- 8.3865 SMARCA4:711 −1 4.58138378 JL021317_021517_BAF45D_85B_(—) NP 8.3865 0.22691975 4.17E−04 //10 24//172 Fusion_MS2.12723.12723.5 5 SMARCA4:626- 10.85175 SMARCA4:876 −2 0.59305805 JL021317_021517_BAF45D_100B_(—) NP 10.85175 0.37014582 1.88E−13 //19 20//129 Fusion_MS2.12372.12372.5 −2 −1.87782427 JL021317_021517_BAF45D_5D_(—) NP 10.0965 0.36576221 8.11E−17 //19 17//129 Fusion_MS2.12177.12177.5 −1 4.32683578 JL021317_021517_BAF45D_5D_(—) NP 8.8915 0.31467096 6.57E−13 //19 16//129 Fusion_MS2.12179.12179.5 6 SMARCA4:626- 13.17425 SMARCA4:689 −1 −4.56822107 JL021317_021517_BAF45D_85B_(—) NP 13.17425 0.40737963 1.23E−17 2//16 30//132 Fusion_MS2.10410.10410.5 −2 5.92409021 JL021317_021517_BAF45D_85B_(—) NP 12.08 0.35966297 2.00E−14 1//16 26//132 Fusion_MS2.10408.10408.5 7 SMARCA4:1503- 2.99625 SMARCA4:1604 0 −0.95207093 JL021317_021517_BAF45D_100B_(—) NP 2.99625 0.12850342 4.63E−05 3//9 8//36 Fusion_MS2.04688.04688.4 8 SMARCA4:1473- 4.538 SMARCA4:1598 0 −2.72718123 JL021317_021517_BAF45D_85B_(—) NP 4.538 0.2706184 1.01E−03 2//8 12//39 Fusion_MS2.05069.05069.4 0 −1.74873937 JL021317_021517_BAF45D_85B_(—) NP 4.3755 0.26195109 1.75E−03 1//8 12//39 Fusion_MS2.05066.05066.4 9 SMARCA4:1473- 3.63075 SMARCA4:1518 0 −1.33393143 JL021317_021517_BAF45D_10D_(—) P 3.63075 0.20534755 3.26E−06 //8 8//40 Fusion_MS2.02751.02751.4 10 SMARCA4:1473- 3.49 SMARCA4:1511 −1 6.66996159 JL021317_021517_BAF45D_85B_(—) N 3.49 0.15456156 2//7 6//24 Fusion_MS2.06063.06063.4 11 SMARCA4:1473- 5.6925 SMARCA4:835 0 −5.43629608 JL021317_021517_BAF45D_70B_(—) NP 5.6925 0.22734534 2.43E−07 //12 16//55 Fusion_MS2.04632.04632.4 12 SMARCA4:1518- 2.56425 SMARCA4:1598 0 0.61370478 JL021317_021517_BAF45D_D_(—) N 2.56425 0.12899291 //5 5//22 Fusion_MS2.04206.04206.4 13 SMARCA4:1518- 6.06925 SMARCA4:1602 0 1.75423312 JL021317_021517_BAF45D_5D_(—) N 6.06925 0.25219189 3//7 10//24 Fusion_MS2.04618.04618.4 0 3.30184044 JL021317_021517_BAF45D_D_(—) NP 2.42825 0.13604023 3.75E−07 //9 8//44 Fusion_MS2.01909.01909.5 0 −2.6577529 JL021317_021517_BAF45D_D_(—) P 1.26275 0.06875289 5.89E−05 //9 4//44 Fusion_MS2.01876.01876.5 14 SMARCA4:1518- 2.3975 SMARCA4:835 0 −0.79941275 JL021317_021517_BAF45D_D_(—) P 2.3975 0.13549408 9.53E−04 //12 8//66 Fusion_MS2.04244.04244.5 15 SMARCA4:1408- 7.08125 SMARCA4:1492 0 −0.40930523 JL021317_021517_BAF45D_85B_(—) P 7.08125 0.31414977 2.52E−03 1//12 20//68 Fusion_MS2.11619.11619.4 0 0.1815182 JL021317_021517_hBAF45D_(—) P 3.97825 0.20884298 4.96E−04 //12 15//68 Fusion_MS2.12081.12081.4 16 SMARCA4:1408- 10.427 SMARCA4:1414 0 −2.01703158 JL021317_021517_BAF45D_100B_(—) NP 10.427 0.43229685 5.09E−04 2//17 24//127 Fusion_MS2.02254.02254.5 −1 10.0554593 JL021317_021517_BAF45D_100B_(—) P 7.45 0.35517628 1.79E−05 //17 16//127 Fusion_MS2.02235.02235.5 −1 5.94985534 JL021317_021517_BAF45D_85B_(—) N 6.87975 0.30945259 //8 7//27 Fusion_MS2.04336.04336.4 17 SMARCA4:1408- 5.96575 SMARCA4:1450 −2 1.71309024 JL021317_021517_BAF45D_85B_(—) P 5.96575 0.30006539 8.84E−03 //18 22//106 Fusion_MS2.06931.06931.4 18 SMARCA4:1033- 9.46 SMARCA4:1044 −4 11.8460795 JL021317_021517_BAF45D_D_(—) P 9.46 0.26399877 3.56E−05 1//14 19//293 Fusion_MS2.18695.18695.6 19 SMARCA4:1033- 7.6605 SMARCA4:1365 −3 7.39220477 JL021317_021517_BAF45D_70B_(—) NP 7.6605 0.21100109 1.84E−05 1//15 10//73 Fusion_MS2.16595.16595.4 20 SMARCA4:516- 8.6265 SMARCA4:545 −1 −0.03208031 JL021317_021517_BAF45D_100B_(—) NP 8.6265 0.2529617 2.79E−03 //17 23//119 Fusion_MS2.04577.04577.5 0 −0.91010565 JL021317_021517_BAF45D_100B_(—) NP 8.25525 0.25574281 7.35E−05 //17 16//94 Fusion_MS2.04582.04582.4 0 0.03962338 JL021317_021517_BAF45D_10D_(—) NP 5.51875 0.28530993 2.36E−08 //10 7//43 Fusion_MS2.03113.03113.4 0 −0.02460974 JL021317_021517_BAF45D_100B_(—) NP 4.331 0.15502738 1.44E−03 1//10 10//43 Fusion_MS2.03639.03639.4 0 −6.12481397 JL021317_021517_BAF45D_100B_(—) NP 4.23775 0.15135362 3.60E−05 1//10 9//43 Fusion_MS2.03495.03495.4 21 SMARCA4:516- 3.949 SMARCA4:548 0 −4.62131048 JL021317_021517_BAF45D_D_(—) P 3.949 0.13770858 3.72E−01 //17 12//118 Fusion_MS2.02705.02705.6 22 SMARCA4:516- 8.42025 SMARCA4:524 0 0.39425007 JL021317_021517_BAF45D_D_(—) N 8.42025 0.3603248 1//11 8//44 Fusion_MS2.03956.03956.4 0 −0.84347519 JL021317_021517_BAF45D_D_(—) P 8.094 0.30591303 8.55E−03 //17 17//119 Fusion_MS2.04018.04018.5 −2 −1.30485777 JL021317_021517_BAF45D_D_(—) P 7.89625 0.3118459 8.68E−03 //17 20//116 Fusion_MS2.03934.03934.5 0 −2.99108645 JL021317_021517_BAF45D_D_(—) P 7.52925 0.34371505 6.70E−02 //17 18//116 Fusion_MS2.04340.04340.6 0 −5.26055188 JL021317_021517_hBAF45D_(—) P 7.19775 0.2978215 2.21E−02 //17 19//119 Fusion_MS2.03961.03961.5 0 5.84183007 JL021317_021517_hBAF45D_(—) P 7.09425 0.28859531 5.07E−02 //17 18//119 Fusion_MS2.03968.03968.5 −1 −1.02783528 JL021317_021517_hBAF45D_(—) P 6.9635 0.28210582 1.03E−02 //17 14//116 Fusion_MS2.03939.03939.5 −2 3.38259278 JL021317_021517_hBAF45D_(—) P 6.8015 0.26087373 5.12E−02 //17 16//119 Fusion_MS2.03954.03954.5 −1 6.49134677 JL021317_021517_hBAF45D_(—) P 6.7125 0.30043639 3.23E−03 //17 15//116 Fusion_MS2.03740.03740.5 −2 −4.37189256 JL021317_021517_hBAF45D_(—) P 6.6715 0.28088161 1.12E−01 //17 16//116 Fusion_MS2.03937.03937.5 −2 −4.66870237 JL021317_021517_hBAF45D_(—) P 6.421 0.30413262 1.27E−02 //17 14//116 Fusion_MS2.03798.03798.5 −1 0.01658637 JL021317_021517_BAF45D_D_(—) P 5.749 0.17906868 1.29E−01 //17 15//116 Fusion_MS2.03787.03787.6 0 −2.27874289 JL021317_021517_BAF45D_D_(—) P 5.152 0.17026902 1.68E−01 //17 17//116 Fusion_MS2.03939.03939.6 −2 1.31521493 JL021317_021517_hBAF45D_(—) N 3.9645 0.39824209 //11 5//44 Fusion_MS2.03893.03893.4 −2 −4.37189256 JL021317_021517_BAF45D_10D_(—) P 2.652 0.10566579 8.78E−03 //17 14//116 Fusion_MS2.04058.04058.5 −1 −5.38104594 JL021317_021517_BAF45D_10D_(—) P 1.731 0.07430939 6.72E−03 //17 10//116 Fusion_MS2.04331.04331.5 −1 −6.56828521 JL021317_021517_BAF45D_10D_(—) P 1.65325 0.07549776 4.60E−02 //17 10//116 Fusion_MS2.03910.03910.5 23 SMARCA4:207- 8.30525 SMARCA4:94 −1 0.03643031 JL021317_021517_BAF45D_85B_(—) NP 8.30525 0.17678267 4.33E−07 //18 18//97 Fusion_MS2.10884.10884.4 −2 3.00372302 JL021317_021517_BAF45D_85B_(—) NP 7.59575 0.1633969 1.81E−06 //18 15//97 Fusion_MS2.10881.10881.4 −1 3.20134184 JL021317_021517_BAF45D_85B_(—) N 6.78875 0.16950263 //12 10//50 Fusion_MS2.10198.10198.4 −3 7.36016081 JL021317_021517_BAF45D_85B_(—) N 6.7085 0.17892196 1//12 11//50 Fusion_MS2.10194.10194.4 0 0.2007719 JL021317_021517_BAF45D_85B_(—) N 6.179 0.15537618 1//12 10//50 Fusion_MS2.09992.09992.4 −1 −3.32554421 JL021317_021517_BAF45D_85B_(—) NP 4.3725 0.14464348 5.35E−02 3//18 17//124 Fusion_MS2.10894.10894.5 0 8.00219532 JL021317_021517_BAF45D_85B_(—) N 4.342 0.10037798 1//12 12//50 Fusion_MS2.09360.09360.4 24 SMARCA4:524- 14.3935 SMARCA4:689 0 1.76983495 JL021317_021517_BAF45D_85B_(—) N 14.3935 0.50513257 1//7 6//20 Fusion_MS2.07998.07998.4 25 SMARCA4:524- 4.954 SMARCA4:545 0 2.96140906 JL021317_021517_BAF45D_100B_(—) NP 4.954 0.21291044 1.23E−07 1//11 9//51 Fusion_MS2.05465.05465.4 0 4.56768259 JL021317_021517_hBAF45D_(—) P 4.49075 0.16378839 3.56E−04 //11 7//62 Fusion_MS2.04660.04660.5 0 −0.81479548 JL021317_021517_BAF45D_10D_(—) P 4.3685 0.17073123 1.03E−04 //11 6//62 Fusion_MS2.04607.04607.5 0 4.15364582 JL021317_021517_hBAF45D_(—) P 4.22725 0.17205975 4.58E−05 //11 5//62 Fusion_MS2.04684.04684.5 0 2.98054163 JL021317_021517_BAF45D_10D_(—) P 4.13175 0.16573738 1.74E−03 //11 6//62 Fusion_MS2.04453.04453.5 0 −1.18142136 JL021317_021517_BAF45D_10D_(—) P 3.31275 0.13582411 7.19E−05 //11 3//50 Fusion_MS2.04512.04512.4 0 −0.29814291 JL021317_021517_hBAF45D_(—) P 2.5375 0.09246775 1.65E−03 //11 3//50 Fusion_MS2.04645.04645.4 0 −0.70743908 JL021317_021517_BAF45D_100B_(—) P 2.44475 0.06870074 8.30E−04 1//11 12//63 Fusion_MS2.05479.05479.5 26 SMARCA4:1213- 6.626 SMARCA4:572 −1 3.37133742 JL021317_021517_BAF45D_70B_(—) N 6.626 0.17324235 1//13 9//54 Fusion_MS2.14254.14254.4 27 SMARCA4:1213- 10.77025 SMARCA4:835 0 −2.17140396 JL021317_021517_BAF45D_70B_(—) NP 10.77025 0.33511987 5.30E−10 2//18 25//92 Fusion_MS2.14256.14256.4 −4 10.9663209 JL021317_021517_BAF45D_70B_(—) P 10.28525 0.30224955 3.35E−09 3//18 27//92 Fusion_MS2.14253.14253.4 −1 6.06377258 JL021317_021517_BAF45D_5D_(—) N 10.09675 0.30467878 //12 5//47 Fusion_MS2.14505.14505.4 28 SMARCA4:1140- 16.7425 SMARCA4:1492 −2 1.33648584 JL021317_021517_BAF45D_D_(—) NP 16.7425 0.5000672 1.09E−15 1//12 23//131 Fusion_MS2.20559.20559.4 0 3.21803967 JL021317_021517_BAF45D_D_(—) NP 13.30975 0.3636494 4.29E−09 2//12 26//131 Fusion_MS2.20553.20553.4 −2 17.1266586 JL021317_021517_BAF45D_D_(—) N 11.19925 0.29334303 //12 11//63 Fusion_MS2.20575.20575.4 29 SMARCA4:1140- 16.4135 SMARCA4:835 −1 −5.69121472 JL021317_021517_BAF45D_D_(—) NP 16.4135 0.41437768 2.45E−05 //12 35//134 Fusion_MS2.18750.18750.4 −3 9.64611594 JL021317_021517_BAF45D_5D_(—) N 12.88375 0.35051624 //12 6//47 Fusion_MS2.18034.18034.4 −3 9.19085832 JL021317_021517_BAF45D_D_(—) N 10.6015 0.26741077 //12 6//47 Fusion_MS2.17968.17968.4 −2 7.05926417 JL021317_021517_BAF45D_10D_(—) N 9.152 0.32907251 //12 6//47 Fusion_MS2.18142.18142.4 −1 8.31024528 JL021317_021517_BAF45D_D_(—) N 6.8575 0.16191488 //12 7//47 Fusion_MS2.17978.17978.4 −1 2.15281831 JL021317_021517_BAF45D_D_(—) N 6.1275 0.19609569 //12 5//58 Fusion_MS2.17830.17830.5 30 SMARCA4:1596- 5.59175 SMARCA4:1604 0 2.04786708 JL021317_021517_BAF45D_100B_(—) N 5.59175 0.22621263 1//9 9//36 Fusion_MS2.07660.07660.4 31 SMARCA4:1596- 5.50225 SMARCA4:1610 0 1.42102454 JL021317_021517_BAF45D_85B_(—) N 5.50225 0.22880757 1//5 6//22 Fusion_MS2.09456.09456.4 −1 6.98358073 JL021317_021517_BAF45D_85B_(—) N 4.3035 0.18976123 1//5 6//22 Fusion_MS2.09441.09441.4 32 SMARCA4:1596- 8.3005 SMARCA4:1602 0 1.82222048 JL021317_021517_BAF45D_70B_(—) N 8.3005 0.26991302 //7 10//36 Fusion_MS2.10144.10144.4 0 1.2172866 JL021317_021517_BAF45D_70B_(—) N 4.3435 0.17200958 2//4 5//17 Fusion_MS2.05779.05779.4 33 SMARCA4:188- 7.776 SMARCA4:207 −2 4.73914795 JL021317_021517_BAF45D_85B_(—) NP 7.776 0.20565988 1.25E−08 //18 14//96 Fusion_MS2.13356.13356.4 −1 0.93240662 JL021317_021517_BAF45D_85B_(—) P 5.4245 0.14599061 2.94E−03 //18 9//96 Fusion_MS2.13367.13367.4 34 SMARCA4:188- 9.77 SMARCA4:94 −2 14.0211837 JL021317_021517_BAF45D_70B_(—) NP 9.77 0.26561183 2.45E−08 2//13 20//59 Fusion_MS2.12585.12585.4 0 3.1057537 JL021317_021517_BAF45D_70B_(—) N 8.8765 0.27122865 2//12 12//50 Fusion_MS2.11147.11147.4 35 SMARCA4:1349- 14.282 SMARCA4:1365 −3 −0.64753693 JL021317_021517_BAF45D_70B_(—) NP 14.282 0.34030285 2.14E−08 //11 31//114 Fusion_MS2.16755.16755.4 −1 7.00554296 JL021317_021517_BAF45D_70B_(—) NP 14.114 0.31780415 4.44E−03 //11 30//114 Fusion_MS2.19105.19105.4 0 2.13540121 JL021317_021517_BAF45D_85B_(—) P 13.49325 0.30528751 2.14E−02 //11 28//114 Fusion_MS2.18579.18579.4 −3 3.65138792 JL021317_021517_BAF45D_70B_(—) N 13.07775 0.33556784 //15 8//73 Fusion_MS2.18637.18637.4 −1 2.36731273 JL021317_021517_BAF45D_70B_(—) P 12.88275 0.27416231 1.55E−02 //11 27//114 Fusion_MS2.18708.18708.4 −2 0.97584366 JL021317_021517_BAF45D_85B_(—) P 12.68875 0.31574658 2.82E−05 //11 27//114 Fusion_MS2.18920.18920.4 −1 10.8655869 JL021317_021517_BAF45D_D_(—) N 12.5175 0.26575587 1//15 10//73 Fusion_MS2.18482.18482.4 −3 −2.2709175 JL021317_021517_BAF45D_85B_(—) P 12.4255 0.32864303 1.05E−04 //11 27//114 Fusion_MS2.18924.18924.4 −3 7.69163955 JL021317_021517_BAF45D_70B_(—) N 12.11325 0.28753783 //15 8//73 Fusion_MS2.19027.19027.4 0 0.85988791 JL021317_021517_BAF45D_100B_(—) P 12.0635 0.31154527 3.97E−04 //11 26//114 Fusion_MS2.19393.19393.4 −2 2.39346031 JL021317_021517_BAF45D_70B_(—) N 11.975 0.30589437 //15 7//73 Fusion_MS2.18592.18592.4 0 4.39829278 JL021317_021517_BAF45D_70B_(—) N 11.456 0.2460349 //15 10//73 Fusion_MS2.18256.18256.4 −1 10.2523041 JL021317_021517_BAF45D_85B_(—) P 11.4075 0.26330064 1.18E−02 //11 25//114 Fusion_MS2.18555.18555.4 −2 7.23745447 JL021317_021517_BAF45D_100B_(—) NP 11.25475 0.30096536 4.80E−05 //11 23//114 Fusion_MS2.19409.19409.4 −3 5.96009915 JL021317_021517_BAF45D_D_(—) N 11.2235 0.28871854 1//15 10//73 Fusion_MS2.18150.18150.4 −3 3.11651283 JL021317_021517_BAF45D_100B_(—) N 10.9115 0.25235612 2//15 9//73 Fusion_MS2.18748.18748.4 −1 11.1799502 JL021317_021517_BAF45D_100B_(—) P 10.44825 0.24164508 1.44E−04 //11 25//114 Fusion_MS2.18748.18748.4 −3 2.55147778 JL021317_021517_BAF45D_70B_(—) N 10.1565 0.23833437 //15 10//73 Fusion_MS2.17843.17843.4 −2 1.76317239 JL021317_021517_BAF45D_70B_(—) N 10.105 0.28129611 //15 7//73 Fusion_MS2.19327.19327.4 0 −0.64753693 JL021317_021517_hBAF45D_(—) P 9.96975 0.30481541 8.54E−05 //11 24//114 Fusion_MS2.20540.20540.4 −3 9.32465808 JL021317_021517_BAF45D_85B_(—) P 9.67925 0.20960058 2.80E−04 //11 24//114 Fusion_MS2.19540.19540.4 0 13.987574 JL021317_021517_BAF45D_85B_(—) N 9.5 0.20201805 1//15 10//73 Fusion_MS2.18872.18872.4 −2 8.1666186 JL021317_021517_hBAF45D_(—) N 9.498 0.24662763 //15 6//73 Fusion_MS2.19420.19420.4 −2 2.16253536 JL021317_021517_BAF45D_5D_(—) N 9.35925 0.24727213 //15 7//73 Fusion_MS2.18156.18156.4 0 −6.32936896 JL021317_021517_BAF45D_70B_(—) NP 9.32475 0.25246037 2.01E−04 //11 24//114 Fusion_MS2.19838.19838.4 −2 3.61311022 JL021317_021517_BAF45D_10D_(—) N 9.314 0.33851857 //15 5//73 Fusion_MS2.19283.19283.4 −2 8.36507987 JL021317_021517_BAF45D_5D_(—) N 9.15275 0.26780437 //15 6//73 Fusion_MS2.19210.19210.4 −2 5.9728106 JL021317_021517_BAF45D_85B_(—) N 9.13625 0.22733493 1//15 8//73 Fusion_MS2.19087.19087.4 −1 3.06304726 JL021317_021517_hBAF45D_(—) P 8.81425 0.26599421 3.44E−05 //11 21//114 Fusion_MS2.20518.20518.4 −2 2.27799782 JL021317_021517_BAF45D_5D_(—) N 8.59975 0.3379807 //15 8//73 Fusion_MS2.18787.18787.4 0 −0.76349268 JL021317_021517_BAF45D_70B_(—) NP 8.51775 0.24960805 1.76E−02 1//11 24//114 Fusion_MS2.19065.19065.4 −3 10.3216194 JL021317_021517_hBAF45D_(—) N 8.02225 0.20117991 2//15 12//73 Fusion_MS2.19821.19821.4 −2 6.26615215 JL021317_021517_BAF45D_10D_(—) N 7.98275 0.26913287 //15 7//73 Fusion_MS2.18217.18217.4 −3 12.7708594 JL021317_021517_BAF45D_5D_(—) N 7.75 0.21925792 //15 6//73 Fusion_MS2.18223.18223.4 −2 14.5079368 JL021317_021517_BAF45D_10D_(—) N 7.703 0.24828364 //15 7//73 Fusion_MS2.19272.19272.4 0 1.90348971 JL021317_021517_BAF45D_100B_(—) NP 7.52325 0.19697723 8.42E−04 //11 19//114 Fusion_MS2.18723.18723.4 0 8.65518107 JL021317_021517_BAF45D_D_(—) N 7.4945 0.22281518 //15 8//73 Fusion_MS2.18698.18698.4 −2 2.22229837 JL021317_021517_BAF45D_10D_(—) N 7.4165 0.19904457 //15 9//73 Fusion_MS2.18634.18634.4 −3 14.9333491 JL021317_021517_BAF45D_85B_(—) N 6.973 0.1737343 //15 8//73 Fusion_MS2.18414.18414.4 −2 8.1666186 JL021317_021517_BAF45D_100B_(—) N 6.6665 0.1908067 //15 7//73 Fusion_MS2.18983.18983.4 −1 −4.23082536 JL021317_021517_BAF45D_70B_(—) P 6.24875 0.15799621 1.95E−04 1//11 21//155 Fusion_MS2.19210.19210.5 −1 12.9522417 JL021317_021517_BAF45D_85B_(—) N 5.96275 0.12468373 3//15 9//73 Fusion_MS2.16623.16623.4 −2 11.3463883 JL021317_021517_BAF45D_D_(—) N 5.74975 0.13091565 //15 9//73 Fusion_MS2.18098.18098.4 −3 12.3395077 JL021317_021517_BAF45D_100B_(—) P 5.0905 0.13205271 2.99E−04 1//11 19//114 Fusion_MS2.18877.18877.4 −3 9.85435916 JL021317_021517_BAF45D_70B_(—) N 3.86475 0.10881409 //15 6//73 Fusion_MS2.19310.19310.4 −3 −4.27430877 JL021317_021517_BAF45D_70B_(—) P 3.46975 0.07736775 1.44E−05 //11 12//155 Fusion_MS2.19881.19881.5 36 SMARCA4:1237- 6.00025 SMARCA4:1375 −2 7.15005756 JL021317_021517_BAF45D_10D_(—) P 6.00025 0.21594119 2.38E−04 //17 18//120 Fusion_MS2.08834.08834.5 37 SMARCA4:1237- 10.79075 SMARCA4:1414 −2 2.23756231 JL021317_021517_BAF45D_100B_(—) NP 10.79075 0.317361 3.01E−13 //17 22//120 Fusion_MS2.06465.06465.5 −1 0.62473817 JL021317_021517_BAF45D_100B_(—) N 5.66225 0.25936147 1//17 15//123 Fusion_MS2.05571.05571.5 38 SMARCA4:1237- 3.74075 SMARCA4:1610 −2 4.70748696 JL021317_021517_BAF45D_85B_(—) P 3.74075 0.10035143 2.11E−03 //17 17//98 Fusion_MS2.07834.07834.4 39 SMARCA4:1237- 14.2095 SMARCA4:835 −1 −0.40555459 JL021317_021517_BAF45D_85B_(—) NP 14.2095 0.3850187 9.73E−11 //17 32//91 Fusion_MS2.08678.08678.4 0 1.22668119 JL021317_021517_hBAF45D_(—) NP 8.54575 0.28543396 2.74E−09 //17 24//91 Fusion_MS2.08882.08882.4 −2 −0.02233895 JL021317_021517_BAF45D_85B_(—) NP 7.11575 0.2147373 1.64E−06 3//17 27//120 Fusion_MS2.08679.08679.5 −1 3.63620988 JL021317_021517_BAF45D_100B_(—) NP 6.75425 0.17479717 6.28E−07 //16 16//97 Fusion_MS2.08026.08026.4 0 0.34897718 JL021317_021517_BAF45D_85B_(—) N 4.9265 0.16508059 1//12 10//58 Fusion_MS2.07682.07682.5 40 SMARCA4:1594- 2.80825 SMARCA4:1610 0 2.03314608 JL021317_021517_BAF45D_85B_(—) N 2.80825 0.15314664 2//5 7//22 Fusion_MS2.08613.08613.4 41 SMARCA4:1594- 4.786 SMARCA4:1602 0 1.17983062 JL021317_021517_BAF45D_70B_(—) N 4.786 0.17502286 3//7 8//22 Fusion_MS2.05485.05485.4 42 SMARCA4:1122- 10.26425 SMARCA4:1414 −2 3.34966538 JL021317_021517_BAF45D_100B_(—) NP 10.26425 0.40740043 7.30E−08 //17 20//105 Fusion_MS2.06537.06537.4 43 SMARCA4:1122- 8.5025 SMARCA4:1365 0 −3.04074397 JL021317_021517_BAF45D_85B_(—) P 8.5025 0.24654218 1.81E−04 //15 18//77 Fusion_MS2.12729.12729.4 44 SMARCA4:1122- 10.60125 SMARCA4:1375 0 1.60332914 JL021317_021517_BAF45D_D_(—) NP 10.60125 0.41732276 1.02E−05 1//16 30//108 Fusion_MS2.09127.09127.5 0 −4.55517353 JL021317_021517_BAF45D_D_(—) NP 5.04375 0.19967735 1.79E−05 //16 19//108 Fusion_MS2.09147.09147.5 45 SMARCA4:1122- 3.18 SMARCA4:1604 −1 5.9305021 JL021317_021517_BAF45D_5D_(—) N 3.18 0.17913979 1//8 9//30 Fusion_MS2.06173.06173.4 46 SMARCA4:1122- 10.54025 SMARCA4:1492 0 −2.05269043 JL021317_021517_BAF45D_85B_(—) NP 10.54025 0.43046905 1.45E−06 2//12 23//69 Fusion_MS2.14614.14614.4 47 SMARCA4:1122- 10.16525 SMARCA4:1131 0 0.45865103 JL021317_021517_BAF45D_85B_(—) NP 10.16525 0.30870674 2.06E−08 5//12 28//57 Fusion_MS2.09085.09085.4 0 −5.50907444 JL021317_021517_BAF45D_70B_(—) NP 8.23525 0.27732316 3.37E−06 5//12 24//57 Fusion_MS2.08482.08482.4 0 −1.89227112 JL021317_021517_hBAF45D_(—) NP 6.53625 0.22545401 8.36E−05 4//12 23//57 Fusion_MS2.09243.09243.4 48 SMARCA4:1122- 6.40325 SMARCA4:1450 −1 0.31811738 JL021317_021517_BAF45D_85B_(—) P 6.40325 0.21698944 3.30E−04 //18 23//101 Fusion_MS2.10555.10555.4 49 SMARCA4:1122- 3.313 SMARCA4:1518 0 0.84075477 JL021317_021517_BAF45D_D_(—) N 3.313 0.17217098 4//7 9//24 Fusion_MS2.06819.06819.4 50 SMARCA4:689- 9.67325 SMARCA4:876 −1 −4.83424449 JL021317_021517_BAF45D_100B_(—) NP 9.67325 0.33631465 1.26E−11 1//16 20//134 Fusion_MS2.10933.10933.5 −2 1.8230031 JL021317_021517_BAF45D_85B_(—) NP 9.62825 0.26289455 6.99E−08 1//17 21//101 Fusion_MS2.11781.11781.4 −3 −1.55197107 JL021317_021517_BAF45D_85B_(—) P 6.41225 0.17276708 1.49E−04 //17 19//101 Fusion_MS2.11853.11853.4 51 SMARCA4:689- 19.37775 SMARCA4:711 −1 0.31353767 JL021317_021517_BAF45D_85B_(—) NP 19.37775 0.53907945 3.51E−17 //10 29//172 Fusion_MS2.11872.11872.5 −2 5.39969406 JL021317_021517_BAF45D_70B_(—) NP 11.25775 0.27354846 2.99E−08 //10 20//126 Fusion_MS2.12440.12440.4 −2 2.80235592 JL021317_021517_BAF45D_85B_(—) NP 10.6335 0.36477934 2.24E−10 //10 22//126 Fusion_MS2.11865.11865.4 52 SMARCA4:744- 2.0955 SMARCA4:800 −2 0.18681746 JL021317_021517_BAF45D_85B_(—) P 2.0955 0.07085975 4.45E−01 //16 16//123 Fusion_MS2.19091.19091.5 53 SMARCA4:1414- 8.82875 SMARCA4:1509 0 5.15464589 JL021317_021517_BAF45D_10D_(—) P 8.82875 0.43793403 2.00E−12 //17 19//130 Fusion_MS2.02523.02523.5 0 4.10711264 JL021317_021517_BAF45D_10D_(—) P 8.179 0.40589564 4.44E−12 //17 15//130 Fusion_MS2.02526.02526.5 0 −0.33645847 JL021317_021517_BAF45D_10D_(—) P 8.15125 0.45318711 2.82E−05 //17 18//105 Fusion_MS2.02529.02529.4 54 SMARCA4:1414- 10.38825 SMARCA4:1594 0 −1.04441038 JL021317_021517_BAF45D_85B_(—) P 10.38825 0.39266882 4.22E−03 3//17 26//104 Fusion_MS2.03367.03367.4 55 SMARCA4:1414- 7.65225 SMARCA4:1602 0 1.22715987 JL021317_021517_BAF45D_85B_(—) N 7.65225 0.33475142 //8 8//37 Fusion_MS2.04638.04638.4 56 SMARCA4:1414- 9.0935 SMARCA4:835 −1 −0.06217722 JL021317_021517_BAF45D_85B_(—) NP 9.0935 0.35579858 1.66E−11 3//17 31//104 Fusion_MS2.04396.04396.4 57 SMARCA4:1414- 7.8605 SMARCA4:1450 0 −6.67694403 JL021317_021517_BAF45D_100B_(—) NP 7.8605 0.25753977 2.73E−10 //18 15//127 Fusion_MS2.06711.06711.5 58 SMARCA4:1414- 8.11275 SMARCA4:1473 0 −4.50734492 JL021317_021517_BAF45D_85B_(—) NP 8.11275 0.38228919 2.06E−06 //17 18//104 Fusion_MS2.03114.03114.4 59 SMARCA4:1414- 10.68425 SMARCA4:1518 0 2.21021377 JL021317_021517_BAF45D_D_(—) P 10.68425 0.48558151 1.00E−04 //17 26//105 Fusion_MS2.02797.02797.4 −1 1.85378104 JL021317_021517_BAF45D_D_(—) P 9.40125 0.4188852 7.53E−04 //17 25//130 Fusion_MS2.02772.02772.5 0 2.69437984 JL021317_021517_BAF45D_D_(—) P 8.454 0.32312191 3.49E−05 //17 22//131 Fusion_MS2.02806.02806.5 60 SMARCA4:1414- 9.45675 SMARCA4:626 −3 −2.50220815 JL021317_021517_BAF45D_85B_(—) NP 9.45675 0.28221523 7.87E−11 //19 19//129 Fusion_MS2.07636.07636.5 61 SMARCA4:1414- 11.43175 SMARCA4:1503 0 −0.23109001 JL021317_021517_BAF45D_85B_(—) NP 11.43175 0.42395557 6.36E−08 3//17 24//105 Fusion_MS2.05267.05267.4 −1 5.83325548 JL021317_021517_BAF45D_85B_(—) NP 9.70125 0.37739978 4.38E−08 1//17 19//105 Fusion_MS2.05263.05263.4 62 SMARCA4:1414- 9.78425 SMARCA4:1610 0 −2.17789705 JL021317_021517_BAF45D_100B_(—) P 9.78425 0.36136246 3.20E−04 1//17 23//104 Fusion_MS2.03316.03316.4 0 −0.48322326 JL021317_021517_BAF45D_100B_(—) P 8.7965 0.3257963 1.48E−04 1//17 23//127 Fusion_MS2.03307.03307.5 0 −1.0064131 JL021317_021517_hBAF45D_(—) P 8.2585 0.36020849 3.10E−02 //17 20//127 Fusion_MS2.03196.03196.5 0 −1.20327955 JL021317_021517_BAF45D_D_(—) P 6.589 0.26704764 5.95E−04 //17 20//130 Fusion_MS2.02720.02720.5 63 SMARCA4:1414- 10.28625 SMARCA4:1598 −1 0.79454307 JL021317_021517_BAF45D_100B_(—) NP 10.28625 0.42776496 5.73E−07 //17 23//105 Fusion_MS2.04562.04562.4 64 SMARCA4:1414- 16.03875 SMARCA4:1492 −1 1.58027059 JL021317_021517_BAF45D_85B_(—) NP 16.03875 0.54307893 7.46E−11 4//17 32//99 Fusion_MS2.10680.10680.4 −1 −0.27982142 JL021317_021517_BAF45D_85B_(—) NP 13.1195 0.40365208 9.45E−09 5//17 31//126 Fusion_MS2.10691.10691.5 −2 0.08046299 JL021317_021517_hBAF45D_(—) NP 8.516 0.28353116 2.59E−07 1//17 12//99 Fusion_MS2.11159.11159.4 65 SMARCA4:1365- 11.134 SMARCA4:835 −2 0.92272448 JL021317_021517_BAF45D_70B_(—) NP 11.134 0.31421355 8.21E−09 5//15 27//75 Fusion_MS2.09735.09735.4 −1 −0.8893479 JL021317_021517_BAF45D_70B_(—) NP 10.677 0.30833875 2.00E−08 5//15 30//75 Fusion_MS2.09737.09737.4 66 SMARCA4:1365- 10.2815 SMARCA4:1518 0 0.80033868 JL021317_021517_BAF45D_100B_(—) P 10.2815 0.31004327 4.35E−04 //15 20//77 Fusion_MS2.08630.08630.4 0 −4.70214101 JL021317_021517_BAF45D_D_(—) P 7.89225 0.30480246 2.74E−04 //15 18//97 Fusion_MS2.08029.08029.5 0 −1.56259789 JL021317_021517_BAF45D_100B_(—) P 2.10525 0.08730587 4.73E−02 //15 8//99 Fusion_MS2.08653.08653.5 67 SMARCA4:1365- 9.21175 SMARCA4:1375 −1 −1.29492497 JL021317_021517_BAF45D_100B_(—) NP 9.21175 0.23919168 3.38E−10 //16 9//102 Fusion_MS2.10022.10022.5 68 SMARCA4:1365- 12.07575 SMARCA4:1414 −2 2.25190423 JL021317_021517_BAF45D_85B_(—) NP 12.07575 0.31808843 8.99E−09 1//17 16//97 Fusion_MS2.08288.08288.4 −2 7.34014201 JL021317_021517_BAF45D_85B_(—) N 10.31875 0.38915183 //17 9//97 Fusion_MS2.06238.06238.4 −1 0.51484763 JL021317_021517_BAF45D_85B_(—) N 8.325 0.21425263 //17 14//124 Fusion_MS2.06234.06234.5 0 3.05938164 JL021317_021517_BAF45D_85B_(—) NP 7.91225 0.18732096 1.63E−07 //17 17//124 Fusion_MS2.08292.08292.5 69 SMARCA4:1365- 10.25225 SMARCA4:1610 0 −1.72248942 JL021317_021517_BAF45D_70B_(—) NP 10.25225 0.33544646 2.49E−04 1//15 26//81 Fusion_MS2.09180.09180.4 70 SMARCA4:548- 15.83975 SMARCA4:689 −1 1.48678267 JL021317_021517_BAF45D_5D_(—) N 15.83975 0.64723369 1//6 6//15 Fusion_MS2.06254.06254.4 0 −5.78361762 JL021317_021517_BAF45D_85B_(—) P 10.99575 0.46138595 2.41E−03 //17 28//106 Fusion_MS2.06533.06533.4 71 SMARCA4:1492- 9.811 SMARCA4:1610 −1 1.35435959 JL021317_021517_BAF45D_85B_(—) NP 9.811 0.50684507 8.76E−03 1//12 26//68 Fusion_MS2.12432.12432.4 0 1.81518319 JL021317_021517_BAF45D_85B_(—) NP 9.0565 0.47544426 1.25E−02 1//12 23//68 Fusion_MS2.12555.12555.4 72 SMARCA4:1492- 8.41325 SMARCA4:1598 0 −0.41018656 JL021317_021517_BAF45D_85B_(—) P 8.41325 0.47209753 3.92E−04 2//12 24//68 Fusion_MS2.13377.13377.4 73 SMARCA4:1492- 11.9395 SMARCA4:626 0 0.254979 JL021317_021517_BAF45D_85B_(—) NP 11.9395 0.41187022 4.36E−10 1//19 19//129 Fusion_MS2.13932.13932.5 74 SMARCA4:1492- 11.96975 SMARCA4:835 −1 −2.33995003 JL021317_021517_BAF45D_70B_(—) NP 11.96975 0.46103108 8.46E−08 2//12 27//69 Fusion_MS2.12459.12459.4 −1 5.75346402 JL021317_021517_hBAF45D_(—) NP 8.90225 0.36187273 2.88E−07 1//12 18//69 Fusion_MS2.13260.13260.4 −2 9.00943519 JL021317_021517_hBAF45D_(—) NP 8.7945 0.34034443 9.34E−07 2//12 21//69 Fusion_MS2.13255.13255.4 75 SMARCA4:1604- 2.168 SMARCA4:1610 −1 3.61746717 JL021317_021517_BAF45D_70B_(—) N 2.168 0.10182706 //5 7//22 Fusion_MS2.04274.04274.4 0 2.17751281 JL021317_021517_BAF45D_D_(—) P 1.94225 0.13987613 4.23E−05 //9 9//36 Fusion_MS2.01730.01730.4 76 SMARCA4:455- 5.84275 SMARCA4:461 0 −1.37204349 JL021317_021517_BAF45D_70B_(—) NP 5.84275 0.17948698 3.79E−03 1//10 12//43 Fusion_MS2.05824.05824.4 0 −0.65926617 JL021317_021517_hBAF45D_(—) NP 5.656 0.18025655 7.78E−03 2//10 11//43 Fusion_MS2.06253.06253.4 0 −0.05793454 JL021317_021517_BAF45D_85B_(—) NP 4.075 0.15743012 2.59E−03 //11 12//51 Fusion_MS2.05243.05243.4 −1 0.32654467 JL021317_021517_hBAF45D_(—) N 3.03575 0.10441639 3//9 10//37 Fusion_MS2.06230.06230.4 77 SMARCA4:572- 7.0295 SMARCA4:876 0 −1.3697874 JL021317_021517_BAF45D_10D_(—) NP 7.0295 0.3080142 3.48E−04 //11 15//78 Fusion_MS2.08190.08190.5 78 SMARCA4:688- 19.336 SMARCA4:711 −2 −2.05006876 JL021317_021517_BAF45D_85B_(—) NP 19.336 0.54931818 1.00E−08 //10 34//172 Fusion_MS2.12098.12098.5 −3 6.45348082 JL021317_021517_BAF45D_85B_(—) NP 16.35975 0.43446422 3.69E−10 //10 28//172 Fusion_MS2.11841.11841.5 −1 10.2051858 JL021317_021517_BAF45D_85B_(—) N 12.05925 0.35530037 //17 27//105 Fusion_MS2.12091.12091.4 −2 1.43881076 JL021317_021517_BAF45D_70B_(—) N 8.64975 0.21854945 //15 16//139 Fusion_MS2.13640.13640.5 −1 6.28972669 JL021317_021517_BAF45D_70B_(—) N 4.73875 0.12090653 //15 15//105 Fusion_MS2.13655.13655.4 79 SMARCA4:1433- 5.26075 SMARCA4:1518 0 4.04572315 JL021317_021517_BAF45D_D_(—) NP 5.26075 0.27767808 9.27E−09 1//11 14//61 Fusion_MS2.02204.02204.5 −1 −6.1817089 JL021317_021517_BAF45D_D_(—) P 3.40175 0.2276027 3.77E−05 //11 14//61 Fusion_MS2.02246.02246.5 0 0.32844034 JL021317_021517_BAF45D_D_(—) P 1.87975 0.12642074 1.20E−04 //9 3//37 Fusion_MS2.02746.02746.4 80 SMARCA4:545- 14.22725 SMARCA4:689 −1 4.12917134 JL021317_021517_BAF45D_70B_(—) NP 14.22725 0.52603897 1.55E−03 1//16 34//109 Fusion_MS2.07598.07598.4 −1 −0.45989053 JL021317_021517_BAF45D_85B_(—) NP 9.762 0.37160259 1.57E−09 //17 24//106 Fusion_MS2.08376.08376.4 0 −0.39259585 JL021317_021517_BAF45D_50B_(—) P 6.1365 0.22443494 2.17E−04 //17 20//106 Fusion_MS2.07449.07449.4 81 SMARCA4:545- 12.3825 SMARCA4:688 −2 −3.55767426 JL021317_021517_BAF45D_100B_(—) NP 12.3825 0.45789882 6.10E−09 //17 32//112 Fusion_MS2.07773.07773.4 −1 −0.85861187 JL021317_021517_BAF45D_100B_(—) NP 11.97625 0.42019718 1.08E−08 //17 32//112 Fusion_MS2.07783.07783.4 −1 1.03557809 JL021317_021517_BAF45D_70B_(—) P 9.744 0.37040979 2.44E−04 1//17 28//144 Fusion_MS2.08116.08116.5 0 3.69605593 JL021317_021517_BAF45D_100B_(—) NP 9.416 0.34630379 9.32E−07 //17 28//112 Fusion_MS2.08233.08233.4 0 −6.8187778 JL021317_021517_BAF45D_70B_(—) P 8.68875 0.32627676 1.51E−04 //17 25//144 Fusion_MS2.08125.08125.5 82 SMARCA4:1334- 5.48075 SMARCA4:1365 −2 4.00559957 JL021317_021517_BAF45D_5D_(—) P 5.48075 0.24506472 3.82E−03 //15 15//103 Fusion_MS2.08328.08328.5 −3 3.51215344 JL021317_021517_BAF45D_5D_(—) P 4.79925 0.21591011 1.49E−02 //15 13//103 Fusion_MS2.08396.08396.5 83 SMARCA4:1334- 5.02325 SMARCA4:1414 −1 1.89036928 JL021317_021517_BAF45D_D_(—) P 5.02325 0.27960536 6.36E−05 //17 12//128 Fusion_MS2.02392.02392.5 0 0.5062761 JL021317_021517_BAF45D_D_(—) P 4.7745 0.25336977 2.22E−04 //17 11//128 Fusion_MS2.02514.02514.5 84 SMARCA4:1334- 11.2005 SMARCA4:1375 −2 4.84208267 JL021317_021517_BAF45D_D_(—) P 11.2005 0.53017609 1.53E−03 //16 25//108 Fusion_MS2.04882.04882.5 −2 1.26069128 JL021317_021517_BAF45D_D_(—) P 2.6435 0.14883734 1.23E−06 //16 14//86 Fusion_MS2.04899.04899.4 −1 3.7028549 JL021317_021517_BAF45D_D_(—) P 2.60225 0.13835132 7.79E−07 //16 13//86 Fusion_MS2.04892.04892.4 85 SMARCA4:1131- 11.90575 SMARCA4:1365 −2 3.00946609 JL021317_021517_BAF45D_70B_(—) NP 11.90575 0.28571857 8.62E−07 //15 25//74 Fusion_MS2.09670.09670.4 0 −0.61139717 JL021317_021517_BAF45D_70B_(—) NP 11.18875 0.25634343 1.79E−06 2//15 24//74 Fusion_MS2.09704.09704.4 −1 3.92725897 JL021317_021517_BAF45D_70B_(—) N 9.02775 0.20796476 //12 11//49 Fusion_MS2.07533.07533.4 −1 0.06225181 JL021317_021517_hBAF45D_(—) NP 6.381 0.18107265 2.30E−04 //15 14//74 Fusion_MS2.10437.10437.4 86 SMARCA4:1131- 11.53375 SMARCA4:1414 0 −0.14077293 JL021317_021517_BAF45D_85B_(—) NP 11.53375 0.40387107 1.32E−10 //17 23//103 Fusion_MS2.04182.04182.4 0 2.45690054 JL021317_021517_BAF45D_85B_(—) NP 10.264 0.34544965 5.59E−06 1//17 32//130 Fusion_MS2.04186.04186.5 −1 −0.30865942 JL021317_021517_hBAF45D_(—) NP 9.15525 0.44259264 1.70E−10 //17 16//103 Fusion_MS2.04140.04140.4 −2 0.95048929 JL021317_021517_hBAF45D_(—) NP 9.134 0.44122407 5.28E−10 //17 17//103 Fusion_MS2.04165.04165.4 0 −6.98675989 JL021317_021517_BAF45D_100B_(—) P 5.53275 0.18992328 9.39E−05 //17 16//125 Fusion_MS2.06171.06171.5 87 SMARCA4:1131- 5.23425 SMARCA4:1610 0 1.24793059 JL021317_021517_BAF45D_100B_(—) P 5.23425 0.24432282 2.23E−04 //12 13//57 Fusion_MS2.04110.04110.4 0 −0.48140616 JL021317_021517_BAF45D_70B_(—) P 4.75825 0.18310469 1.74E−04 2//12 19//57 Fusion_MS2.04546.04546.4 0 −1.99700071 JL021317_021517_hBAF45D_(—) P 3.283 0.16246845 1.44E−03 //12 14//57 Fusion_MS2.04809.04809.4 −1 9.50773974 JL021317_021517_hBAF45D_(—) P 3.216 0.15884227 1.01E−03 1//12 18//57 Fusion_MS2.04834.04834.4 88 SMARCA4:1131- 9.00525 SMARCA4:1375 −1 −2.39416939 JL021317_021517_BAF45D_100B_(—) NP 9.00525 0.26440148 3.28E−04 //16 14//105 Fusion_MS2.07035.07035.5 0 10.5767087 JL021317_021517_BAF45D_5D_(—) N 8.02675 0.2409531 //12 13//61 Fusion_MS2.06886.06886.5 −1 −5.0807755 JL021317_021517_BAF45D_5D_(—) NP 8.01125 0.21990201 4.85E−09 //16 13//82 Fusion_MS2.06880.06880.4 0 5.60086632 JL021317_021517_BAF45D_100B_(—) NP 7.913 0.2485629 4.79E−10 //16 10//82 Fusion_MS2.07020.07020.4 89 SMARCA4:1131- 12.364 SMARCA4:1492 0 −1.18767469 JL021317_021517_BAF45D_70B_(—) NP 12.364 0.41737134 2.46E−05 3//12 26//68 Fusion_MS2.12589.12589.4 90 SMARCA4:1131- 4.13125 SMARCA4:1598 −1 9.42841647 JL021317_021517_BAF45D_70B_(—) P 4.13125 0.15071504 2.04E−02 //12 13//57 Fusion_MS2.06146.06146.4 91 SMARCA4:1131- 7.06775 SMARCA4:1602 0 7.69599941 JL021317_021517_BAF45D_70B_(—) N 7.06775 0.25561483 //8 7//41 Fusion_MS2.06167.06167.4 92 SMARCA4:1131- 4.79525 SMARCA4:1408 0 −7.38669794 JL021317_021517_BAF45D_100B_(—) P 4.79525 0.1867782 3.54E−04 //15 18//83 Fusion_MS2.06055.06055.4 93 SMARCA4:1131- 3.6275 SMARCA4:1407 0 2.98232961 JL021317_021517_BAF45D_70B_(—) N 3.6275 0.15061241 //6 7//30 Fusion_MS2.05839.05839.4 94 SMARCA4:1131- 9.79025 SMARCA4:835 0 −1.06175232 JL021317_021517_BAF45D_70B_(—) NP 9.79025 0.2888022 6.74E−06 6//12 27//55 Fusion_MS2.05888.05888.4 0 −0.09683745 JL021317_021517_hBAF45D_(—) NP 8.8335 0.27529412 3.08E−08 4//12 21//55 Fusion_MS2.06274.06274.4 −1 1.68249071 JL021317_021517_BAF45D_85B_(—) NP 6.067 0.23131768 1.13E−05 1//15 19//96 Fusion_MS2.08321.08321.5 0 8.58739639 JL021317_021517_BAF45D_70B_(—) NP 4.975 0.18494768 6.24E−03 1//12 13//55 Fusion_MS2.05742.05742.4 −1 1.01157994 JL021317_021517_BAF45D_85B_(—) NP 4.29875 0.13817238 2.57E−03 //15 12//75 Fusion_MS2.08334.08334.4 95 SMARCA4:1131- 16.635 SMARCA4:1140 −3 0.37507038 JL021317_021517_BAF45D_D_(—) N 16.635 0.44853992 //12 9//49 Fusion_MS2.19208.19208.4 −1 5.53522924 JL021317_021517_BAF45D_85B_(—) N 12.28025 0.30284217 //12 9//49 Fusion_MS2.18686.18686.4 −2 0.2901967 JL021317_021517_BAF45D_85B_(—) N 10.331 0.28664179 //12 10//49 Fusion_MS2.18676.18676.4 −3 8.53856875 JL021317_021517_BAF45D_5D_(—) N 7.797 0.22259971 //12 6//49 Fusion_MS2.18390.18390.4 −1 0.29713088 JL021317_021517_BAF45D_5D_(—) N 7.74775 0.26296988 //12 5//49 Fusion_MS2.18379.18379.4 96 SMARCA4:1131- 4.796 SMARCA4:1518 0 −0.08446114 JL021317_021517_BAF45D_D_(—) NP 4.796 0.20667514 1.30E−04 2//12 13//67 Fusion_MS2.04070.04070.5 97 SMARCA4:1461- 2.919 SMARCA4:1471 0 −1.36556312 JL021317_021517_BAF45D_100B_(—) P 2.919 0.10535244 2.07E−05 //11 13//48 Fusion_MS2.06441.06441.4 98 SMARCA4:1602- 4.231 SMARCA4:1610 0 0.65269247 JL021317_021517_hBAF45D_(—) N 4.231 0.18665902 //5 5//22 Fusion_MS2.05543.05543.4 0 1.08430471 JL021317_021517_BAF45D_70B_(—) N 3.9635 0.14920288 //5 6//22 Fusion_MS2.05308.05308.4 0 1.94753032 JL021317_021517_BAF45D_85B_(—) N 3.93225 0.16517548 //5 5//22 Fusion_MS2.05521.05521.4 −1 13.0617678 JL021317_021517_BAF45D_85B_(—) N 2.26175 0.10701696 //5 5//22 Fusion_MS2.05825.05825.4 99 SMARCA4:1450- 8.689 SMARCA4:1598 −1 1.04403683 JL021317_021517_BAF45D_85B_(—) P 8.689 0.3019058 2.74E−07 //18 24//104 Fusion_MS2.09145.09145.4 0 −5.10446957 JL021317_021517_BAF45D_85B_(—) P 5.24225 0.18151207 6.78E−03 //18 22//134 Fusion_MS2.09164.09164.5 100 SMARCA4:1450- 11.95425 SMARCA4:1518 0 −0.92413689 JL021317_021517_BAF45D_10D_(—) NP 11.95425 0.44839647 8.96E−05 //18 38//101 Fusion_MS2.06760.06760.4 −1 0.36257896 JL021317_021517_BAF45D_D_(—) P 10.502 0.39438207 6.40E−04 //18 30//129 Fusion_MS2.06407.06407.5 0 0.23795915 JL021317_021517_BAF45D_D_(—) P 10.45375 0.41603653 1.27E−02 //18 27//129 Fusion_MS2.06571.06571.5 0 0.14551401 JL021317_021517_BAF45D_10D_(—) P 9.92275 0.43242036 7.35E−04 //18 33//131 Fusion_MS2.06873.06873.5 −1 −1.83871302 JL021317_021517_BAF45D_10D_(—) P 8.797 0.36138441 2.63E−04 //18 33//101 Fusion_MS2.06913.06913.4 0 −6.2565189 JL021317_021517_hBAF45D_(—) P 8.77725 0.35234435 6.52E−04 //18 30//131 Fusion_MS2.06904.06904.5 −2 6.25030968 JL021317_021517_hBAF45D_(—) P 7.794 0.28872548 8.73E−04 //18 29//131 Fusion_MS2.06868.06868.5 −2 7.58142113 JL021317_021517_BAF45D_10D_(—) NP 7.77 0.35704439 4.00E−05 //18 24//101 Fusion_MS2.06612.06612.4 0 −1.98894774 JL021317_021517_BAF45D_D_(—) P 7.23875 0.27854202 6.13E−04 //18 24//129 Fusion_MS2.06533.06533.6 0 −1.56931624 JL021317_021517_BAF45D_10D_(—) P 6.1585 0.26771431 1.27E−03 //18 23//131 Fusion_MS2.06580.06580.5 0 −5.78985202 JL021317_021517_BAF45D_D_(—) P 6.13275 0.27835017 3.84E−02 //18 21//129 Fusion_MS2.06386.06386.6 −1 −6.80526458 JL021317_021517_BAF45D_5D_(—) P 4.53875 0.18616312 2.56E−03 //18 23//131 Fusion_MS2.06819.06819.5 −2 −1.40926541 JL021317_021517_BAF45D_5D_(—) P 4.18725 0.16106047 1.99E−04 //18 21//131 Fusion_MS2.06984.06984.5 −2 10.8231903 JL021317_021517_BAF45D_5D_(—) P 3.6605 0.12676837 9.02E−03 //18 22//131 Fusion_MS2.06775.06775.5 0 1.74602224 JL021317_021517_BAF45D_10D_(—) P 3.01825 0.12098407 2.65E−05 //18 14//131 Fusion_MS2.07285.07285.5 0 −3.05550245 JL021317_021517_BAF45D_10D_(—) P 2.985 0.13822644 1.40E−03 //18 19//131 Fusion_MS2.07021.07021.5 −1 3.71236092 JL021317_021517_BAF45D_10D_(—) P 2.5695 0.10694219 1.95E−02 //18 11//131 Fusion_MS2.07271.07271.5 101 SMARCA4:1450- 7.0345 SMARCA4:1610 0 −3.13862996 JL021317_021517_BAF45D_85B_(—) NP 7.0345 0.28487831 1.98E−02 //18 21//134 Fusion_MS2.07816.07816.5 −1 7.55794415 JL021317_021517_BAF45D_85B_(—) N 6.7195 0.26517364 //5 4//24 Fusion_MS2.07805.07805.5 102 SMARCA4:1450- 8.91725 SMARCA4:1503 0 0.42537483 JL021317_021517_BAF45D_85B_(—) NP 8.91725 0.30097882 1.24E−07 //18 27//101 Fusion_MS2.09527.09527.4 −2 −1.17051702 JL021317_021517_BAF45D_85B_(—) NP 8.21125 0.32262342 2.28E−09 2//18 30//131 Fusion_MS2.09551.09551.5 0 −0.42049985 JL021317_021517_BAF45D_85B_(—) NP 7.39575 0.27011505 1.52E−08 1//18 24//131 Fusion_MS2.09556.09556.5 103 SMARCA4:1450- 2.44 SMARCA4:1461 −1 0.55997186 JL021317_021517_BAF45D_5D_(—) P 2.44 0.1240184 5.09E−02 //18 15//134 Fusion_MS2.06351.06351.6 104 SMARCA4:1375- 9.06275 SMARCA4:1598 −2 −2.38294284 JL021317_021517_BAF45D_10D_(—) NP 9.06275 0.34153304 9.39E−05 1//16 29//108 Fusion_MS2.07372.07372.5 0 7.64727022 JL021317_021517_BAF45D_10D_(—) P 8.88575 0.36586445 5.36E−08 //16 22//86 Fusion_MS2.07360.07360.4 0 −2.11913376 JL021317_021517_BAF45D_10D_(—) NP 8.19575 0.31009856 6.63E−05 1//16 26//108 Fusion_MS2.07380.07380.5 105 SMARCA4:1375- 10.37725 SMARCA4:1492 −1 9.85091858 JL021317_021517_BAF45D_5D_(—) N 10.37725 0.39944763 //12 21//81 Fusion_MS2.11966.11966.5 −1 3.27426442 JL021317_021517_BAF45D_5D_(—) N 9.133 0.31850044 //12 21//64 Fusion_MS2.11996.11996.4 106 SMARCA4:1375- 9.71075 SMARCA4:1610 −3 0.2134062 JL021317_021517_BAF45D_10D_(—) P 9.71075 0.35746627 1.15E−03 //16 28//109 Fusion_MS2.05867.05867.5 −1 1.63822718 JL021317_021517_BAF45D_70B_(—) P 4.01775 0.15925442 1.38E−02 //13 11//73 Fusion_MS2.06917.06917.4 107 SMARCA4:1375- 10.8555 SMARCA4:1414 0 −1.09445599 JL021317_021517_BAF45D_D_(—) NP 10.8555 0.37662631 9.35E−11 //16 19//102 Fusion_MS2.05181.05181.5 −2 4.85308959 JL021317_021517_hBAF45D_(—) P 6.2385 0.31890911 1.58E−05 //16 7//102 Fusion_MS2.05249.05249.5 −3 1.30543082 JL021317_021517_hBAF45D_(—) P 6.033 0.30634473 3.39E−09 //16 3//102 Fusion_MS2.05233.05233.5 0 −2.92448561 JL021317_021517_BAF45D_70B_(—) NP 5.8535 0.18131834 2.12E−04 //17 12//126 Fusion_MS2.05916.05916.5 108 SMARCA4:1375- 12.60525 SMARCA4:1518 0 0.34127062 JL021317_021517_BAF45D_D_(—) P 12.60525 0.53362332 4.67E−03 //16 30//109 Fusion_MS2.05204.05204.5 0 0.09508852 JL021317_021517_BAF45D_D_(—) P 11.9635 0.55105942 1.17E−05 //16 29//106 Fusion_MS2.05071.05071.5 −1 0.91217038 JL021317_021517_BAF45D_D_(—) N 7.014 0.30565421 //7 6//21 Fusion_MS2.05209.05209.4 109 SMARCA4:1375- 7.792 SMARCA4:835 0 0.59712966 JL021317_021517_BAF45D_5D_(—) NP 7.792 0.30009628 5.03E−10 //16 22//106 Fusion_MS2.06929.06929.5 110 SMARCA4:1375- 7.04775 SMARCA4:1450 0 4.92740222 JL021317_021517_BAF45D_10D_(—) P 7.04775 0.30497858 3.59E−03 //18 20//127 Fusion_MS2.08638.08638.5 111 SMARCA4:1375- 8.25625 SMARCA4:1594 0 4.02774318 JL021317_021517_BAF45D_10D_(—) N 8.25625 0.36531271 //7 7//19 Fusion_MS2.05980.05980.4 112 SMARCA4:1610- 3.144 SMARCA4:835 0 −3.37673194 JL021317_021517_hBAF45D_(—) NP 3.144 0.21529086 6.48E−03 //12 10//54 Fusion_MS2.05183.05183.4 113 SMARCA4:1610- 15.7235 SMARCA4:1623 0 −3.23663073 JL021317_021517_BAF45D_50B_(—) P 15.7235 0.42933989 5.85E−04 1//15 42//158 Fusion_MS2.05199.05199.4 −1 −0.02014106 JL021317_021517_BAF45D_50B_(—) P 10.9935 0.30603808 2.83E−03 1//15 37//158 Fusion_MS2.05176.05176.4 114 SMARCA4:1610- 7.86425 SMARCA4:626 0 −2.11664351 JL021317_021517_BAF45D_85B_(—) P 7.86425 0.25574381 6.39E−03 1//19 25//107 Fusion_MS2.08722.08722.4 115 SMARCA4:1610- 6.13225 SMARCA4:876 −1 4.10403597 JL021317_021517_BAF45D_5D_(—) N 6.13225 0.33276807 //5 4//27 Fusion_MS2.09625.09625.5 0 3.06793318 JL021317_021517_BAF45D_5D_(—) N 5.693 0.31678816 //5 4//27 Fusion_MS2.09634.09634.5 116 SMARCA4:1598- 5.23775 SMARCA4:1604 0 1.52761929 JL021317_021517_BAF45D_100B_(—) N 5.23775 0.23266997 2//9 11//36 Fusion_MS2.07816.07816.4 0 10.4525803 JL021317_021517_BAF45D_70B_(—) N 3.39875 0.11741489 //5 5//22 Fusion_MS2.05838.05838.4 0 0.84074405 JL021317_021517_BAF45D_5D_(—) N 2.81875 0.12948756 //5 5//22 Fusion_MS2.03641.03641.4 0 −6.74579529 JL021317_021517_hBAF45D_(—) NP 2.811 0.14378149 1.56E−03 1//9 9//34 Fusion_MS2.03682.03682.4 117 SMARCA4:1598- 5.834 SMARCA4:1602 −1 0.44090699 JL021317_021517_hBAF45D_(—) N 5.834 0.22926082 1//9 12//37 Fusion_MS2.11040.11040.4 0 2.70827697 JL021317_021517_BAF45D_85B_(—) N 5.1735 0.19621489 //5 5//22 Fusion_MS2.07361.07361.4 0 4.30988641 JL021317_021517_hBAF45D_(—) N 4.32675 0.19176306 //5 6//22 Fusion_MS2.07400.07400.4 0 2.90485128 JL021317_021517_BAF45D_5D_(—) N 4.283 0.19349884 //5 5//22 Fusion_MS2.03368.03368.4 0 1.0370378 JL021317_021517_BAF45D_70B_(—) N 4.181 0.15697685 1//5 7//22 Fusion_MS2.06798.06798.4 0 4.10876447 JL021317_021517_hBAF45D_(—) NP 3.27375 0.16228375 8.39E−04 1//8 6//35 Fusion_MS2.03731.03731.4 118 SMARCA4:1471- 8.64475 SMARCA4:1511 0 −4.30433557 JL021317_021517_BAF45D_100B_(—) NP 8.64475 0.29138297 1.29E−02 1//12 21//56 Fusion_MS2.07794.07794.4 0 −1.66398065 JL021317_021517_BAF45D_70B_(—) P 7.691 0.28046824 2.74E−05 4//11 20//48 Fusion_MS2.07443.07443.4 0 0.03155281 JL021317_021517_BAF45D_100B_(—) P 4.79325 0.18511045 4.03E−05 //11 13//49 Fusion_MS2.07386.07386.4 119 SMARCA4:1471- 7.719 SMARCA4:1610 0 −0.44995548 JL021317_021517_BAF45D_85B_(—) NP 7.719 0.33106732 6.16E−05 4//11 21//48 Fusion_MS2.08554.08554.4 120 SMARCA4:711- 19.82625 SMARCA4:970 −3 1.14935456 JL021317_021517_BAF45D_10D_(—) P 19.82625 0.55766905 4.98E−02 //10 42//172 Fusion_MS2.13585.13585.5 −3 9.54011004 JL021317_021517_BAF45D_10D_(—) P 15.25225 0.46483756 1.03E−01 //10 36//172 Fusion_MS2.13584.13584.6 −1 2.18716772 JL021317_021517_BAF45D_10D_(—) NP 10.88725 0.36523365 6.15E−03 //10 32//172 Fusion_MS2.13706.13706.5 121 SMARCA4:711- 18.73275 SMARCA4:876 −3 4.37899672 JL021317_021517_BAF45D_100B_(—) NP 18.73275 0.60299846 8.65E−14 //10 40//172 Fusion_MS2.13467.13467.5 −2 1.18021701 JL021317_021517_BAF45D_100B_(—) NP 15.1835 0.48027013 1.51E−17 //10 31//126 Fusion_MS2.13435.13435.4 −1 −6.25099478 JL021317_021517_BAF45D_100B_(—) NP 14.39525 0.43245862 2.52E−14 //10 32//126 Fusion_MS2.13484.13484.4 −2 2.68747919 JL021317_021517_BAF45D_100B_(—) N 13.023 0.35630643 //11 12//73 Fusion_MS2.12927.12927.5 −3 8.15501897 JL021317_021517_BAF45D_5D_(—) NP 12.05025 0.35755827 2.80E−06 //10 33//172 Fusion_MS2.13275.13275.5 0 11.6940744 JL021317_021517_BAF45D_100B_(—) N 11.84325 0.33671424 //11 12//73 Fusion_MS2.12937.12937.5 −1 9.78626058 JL021317_021517_BAF45D_10D_(—) P 3.736 0.10045171 8.26E−07 //10 18//172 Fusion_MS2.13250.13250.5 122 SMARCA4:711- 11.64325 SMARCA4:800 −2 −2.43612186 JL021317_021517_BAF45D_100B_(—) NP 11.64325 0.31497613 1.43E−01 //10 21//172 Fusion_MS2.17738.17738.5 123 SMARCA4:517- 4.24275 SMARCA4:524 0 1.70650276 JL021317_021517_BAF45D_100B_(—) N 4.24275 0.19437636 2//7 8//23 Fusion_MS2.02918.02918.4 0 1.68899515 JL021317_021517_BAF45D_70B_(—) N 3.205 0.11703701 2//7 5//23 Fusion_MS2.05694.05694.4 124 SMARCA4:517- 6.01475 SMARCA4:545 0 −0.04361815 JL021317_021517_BAF45D_100B_(—) NP 6.01475 0.19996842 2.28E−07 2//9 17//34 Fusion_MS2.03699.03699.4 0 −1.27873741 JL021317_021517_BAF45D_100B_(—) NP 5.514 0.21943212 2.11E−05 3//9 12//45 Fusion_MS2.04533.04533.4 125 SMARCA4:1221- 4.6815 SMARCA4:1414 0 3.9490686 JL021317_021517_BAF45D_85B_(—) NP 4.6815 0.19779872 8.26E−09 //17 12//104 Fusion_MS2.05544.05544.4 126 SMARCA4:1221- 6.599 SMARCA4:835 −2 1.86712182 JL021317_021517_BAF45D_70B_(—) N 6.599 0.20535242 //12 7//47 Fusion_MS2.12501.12501.4 −2 0.69832541 JL021317_021517_hBAF45D_(—) NP 3.8365 0.13458806 1.09E−07 //12 12//54 Fusion_MS2.08008.08008.4 127 SMARCA4:1332- 8.33825 SMARCA4:1492 0 −1.89872827 JL021317_021517_BAF45D_100B_(—) P 8.33825 0.43189941 1.26E−06 1//12 26//69 Fusion_MS2.11133.11133.4 0 2.03410505 JL021317_021517_BAF45D_100B_(—) P 6.495 0.36836434 1.60E−04 //12 18//86 Fusion_MS2.11126.11126.5 128 SMARCA4:1332- 6.6765 SMARCA4:1414 −1 1.17573782 JL021317_021517_BAF45D_5D_(—) P 6.6765 0.24581201 7.49E−03 //17 21//131 Fusion_MS2.02953.02953.5 129 SMARCA4:1332- 3.46675 SMARCA4:1503 0 1.81519323 JL021317_021517_BAF45D_100B_(—) P 3.46675 0.15293923 1.01E−03 2//10 6//41 Fusion_MS2.05510.05510.4 130 SMARCA4:1332- 2.8025 SMARCA4:499 0 −2.10040704 JL021317_021517_BAF45D_100B_(—) P 2.8025 0.12274439 7.07E−03 //10 4//41 Fusion_MS2.04635.04635.4 131 SMARCA4:1407- 9.8025 SMARCA4:1414 0 1.28208158 JL021317_021517_BAF45D_85B_(—) N 9.8025 0.34221229 //6 5//32 Fusion_MS2.04263.04263.5 −1 1.41757002 JL021317_021517_BAF45D_85B_(—) N 8.00325 0.35051242 //6 8//26 Fusion_MS2.04248.04248.4 0 5.72776991 JL021317_021517_BAF45D_85B_(—) N 6.252 0.28338962 //6 5//26 Fusion_MS2.03611.03611.4 132 SMARCA4:1407- 2.592 SMARCA4:1407 0 2.4160887 JL021317_021517_BAF45D_5D_(—) N 2.592 0.11188811 //6 6//27 Fusion_MS2.03081.03081.4 9 BCL7C 1 BCL7C:19- 9.423 BCL7C:27 −1 −2.99452735 JL021317_021517_BAF45D_85B_(—) NP 9.423 0.36154009 3.23E−04 1//11 18//49 Fusion_MS2.07540.07540.4 2 BCL7C:33- 12.26325 BCL7C:47 −2 2.21815507 JL021317_021517_BAF45D_85B_(—) P 12.26325 0.37674537 3.10E−02 1//16 30//93 Fusion_MS2.14276.14276.4 3 BCL7C:15- 10.1725 BCL7C:27 0 0.65432605 JL021317_021517_BAF45D_70B_(—) N 10.1725 0.32821398 //7 5//33 Fusion_MS2.10267.10267.4 0 0.11805709 JL021317_021517_BAF45D_85B_(—) NP 7.33175 0.2541731 4.09E−07 1//11 18//49 Fusion_MS2.07264.07264.4 −2 9.80525321 JL021317_021517_BAF45D_85B_(—) N 6.33725 0.28125555 //7 6//34 Fusion_MS2.06294.06294.4 −1 7.23191544 JL021317_021517_BAF45D_85B_(—) N 5.783 0.23641715 //7 6//34 Fusion_MS2.06310.06310.4 4 BCL7C:15- 9.5455 BCL7C:47 −2 7.88976364 JL021317_021517_BAF45D_85B_(—) P 9.5455 0.37878968 1.31E−06 //16 28//117 Fusion_MS2.12528.12528.5 −1 9.5367643 JL021317_021517_BAF45D_85B_(—) P 8.89325 0.30119554 3.45E−07 //16 28//92 Fusion_MS2.12548.12548.4 −2 −2.37459751 JL021317_021517_BAF45D_85B_(—) P 8.1625 0.31844959 1.46E−06 //16 28//117 Fusion_MS2.12583.12583.5 5 BCL7C:27- 6.29175 BCL7C:47 −1 2.38348592 JL021317_021517_BAF45D_70B_(—) NP 6.29175 0.17888011 1.77E−03 //16 16//90 Fusion_MS2.14957.14957.4 10 BCL7A 1 BCL7A:30- 10.06225 BCL7A:34 0 −5.72812922 JL021317_021517_BAF45D_85B_(—) NP 10.06225 0.42628524 2.01E−05 1//12 22//65 Fusion_MS2.10420.10420.4 0 −1.6756421 JL021317_021517_hBAF45D_(—) NP 8.90875 0.41248987 2.21E−07 1//12 21//65 Fusion_MS2.10870.10870.4 2 BCL7A:15- 3.734 BCL7A:33 0 1.01101181 JL021317_021517_BAF45D_D_(—) NP 3.734 0.16193946 3.92E−05 //7 8//32 Fusion_MS2.04310.04310.4 3 BCL7A:15- 5.22975 BCL7A:47 0 0.24079119 JL021317_021517_BAF45D_85B_(—) P 5.22975 0.18048246 8.09E−06 //13 18//64 Fusion_MS2.09925.09925.4 0 0.9351945 JL021317_021517_BAF45D_70B_(—) N 4.411 0.16228546 //7 7//34 Fusion_MS2.12862.12862.4 0 −2.21535573 JL021317_021517_BAF45D_85B_(—) P 4.39675 0.16728494 1.56E−03 //13 18//80 Fusion_MS2.09942.09942.5 0 8.99993037 JL021317_021517_hBAF45D_(—) P 3.59025 0.15823399 3.53E−05 //13 15//64 Fusion_MS2.10381.10381.4 0 6.91442104 JL021317_021517_hBAF45D_(—) P 3.5705 0.16145515 1.10E−03 //13 17//64 Fusion_MS2.10378.10378.4 4 BCL7A:15- 13.46475 BCL7A:27 0 0.18978387 JL021317_021517_BAF45D_70B_(—) N 13.46475 0.46414968 //7 6//36 Fusion_MS2.10765.10765.4 −1 1.30033031 JL021317_021517_BAF45D_70B_(—) N 12.631 0.44503559 //7 6//36 Fusion_MS2.10748.10748.4 0 0.71687132 JL021317_021517_hBAF45D_(—) N 12.26425 0.49719261 //7 8//36 Fusion_MS2.11508.11508.4 0 −0.48166464 JL021317_021517_BAF45D_85B_(—) NP 11.596 0.41198728 1.32E−09 5//11 24//49 Fusion_MS2.07779.07779.4 0 −1.78652368 JL021317_021517_BAF45D_85B_(—) NP 9.9575 0.3264112 1.14E−10 4//11 22//59 Fusion_MS2.07782.07782.5 −1 2.31516894 JL021317_021517_BAF45D_70B_(—) N 9.60675 0.33135294 //7 8//36 Fusion_MS2.09539.09539.4 0 0.34417393 JL021317_021517_BAF45D_85B_(—) N 9.12125 0.3013994 //7 6//34 Fusion_MS2.06518.06518.4 −1 1.41219636 JL021317_021517_BAF45D_100B_(—) NP 9.011 0.33671506 1.64E−09 4//11 22//49 Fusion_MS2.07812.07812.4 0 −3.77202313 JL021317_021517_hBAF45D_(—) NP 8.771 0.36745638 2.41E−10 2//11 16//59 Fusion_MS2.07887.07887.5 −1 1.45136772 JL021317_021517_BAF45D_100B_(—) NP 8.537 0.33852132 1.76E−10 3//11 18//59 Fusion_MS2.07822.07822.5 0 −1.70351046 JL021317_021517_hBAF45D_(—) NP 8.297 0.34476024 2.15E−07 3//11 20//49 Fusion_MS2.07896.07896.4 −3 7.39924085 JL021317_021517_BAF45D_100B_(—) P 5.5905 0.26174591 1.48E−07 //11 15//49 Fusion_MS2.07841.07841.4 −1 2.4622366 JL021317_021517_hBAF45D_(—) N 4.25925 0.22374711 //7 5//41 Fusion_MS2.06594.06594.5 0 −0.79377396 JL021317_021517_BAF45D_100B_(—) NP 4.15375 0.13892373 3.60E−02 2//11 15//59 Fusion_MS2.08023.08023.5 5 BCL7A:15- 4.24675 BCL7A:34 0 −0.27535645 JL021317_021517_BAF45D_100B_(—) P 4.24675 0.13149868 7.68E−07 //12 13//66 Fusion_MS2.09206.09206.4 6 BCL7A:15- 3.267 BCL7A:30 0 −2.65117922 JL021317_021517_BAF45D_D_(—) NP 3.267 0.14045874 1.56E−05 1//7 8//32 Fusion_MS2.03807.03807.4 7 BCL7A:34- 13.9255 BCL7A:47 −2 1.56319707 JL021317_021517_BAF45D_70B_(—) NP 13.9255 0.42845715 2.92E−07 4//13 22//60 Fusion_MS2.14002.14002.4 −1 6.60978365 JL021317_021517_hBAF45D_(—) NP 9.69675 0.3589727 3.64E−12 2//13 14//60 Fusion_MS2.14846.14846.4 0 −1.53558416 JL021317_021517_BAF45D_D_(—) NP 9.213 0.31162374 2.63E−08 //13 10//60 Fusion_MS2.14083.14083.4 −1 0.41222118 JL021317_021517_BAF45D_100B_(—) NP 8.72325 0.26060167 5.81E−09 //13 11//60 Fusion_MS2.14282.14282.4 0 −3.74899933 JL021317_021517_BAF45D_10D_(—) NP 6.71475 0.23122816 1.58E−05 //13 8//60 Fusion_MS2.14028.14028.4 8 BCL7A:34- 6.40425 BCL7A:59 0 −0.29905611 JL021317_021517_BAF45D_85B_(—) NP 6.40425 0.25474344 1.95E−03 //12 18//66 Fusion_MS2.08355.08355.4 0 8.29647565 JL021317_021517_BAF45D_70B_(—) P 6.0855 0.23739492 1.21E−03 //12 16//66 Fusion_MS2.08973.08973.4 9 BCL7A:34- 10.57275 BCL7A:55 −1 3.48986077 JL021317_021517_BAF45D_85B_(—) NP 10.57275 0.33104501 6.23E−08 1//16 25//79 Fusion_MS2.12086.12086.4 −2 0.50635426 JL021317_021517_BAF45D_85B_(—) NP 7.1355 0.26496472 2.16E−04 2//16 18//104 Fusion_MS2.12085.12085.5 10 BCL7A:19- 8.60325 BCL7A:27 −1 1.53438095 JL021317_021517_BAF45D_100B_(—) NP 8.60325 0.30873645 6.11E−04 1//11 18//49 Fusion_MS2.08000.08000.4 11 BCL7A:27- 8.72475 BCL7A:59 0 2.62252475 JL021317_021517_BAF45D_85B_(—) NP 8.72475 0.33615558 4.86E−03 //11 17//49 Fusion_MS2.06674.06674.4 0 1.1903536 JL021317_021517_BAF45D_5D_(—) N 7.2515 0.31539917 1//10 7//40 Fusion_MS2.05627.05627.4 0 −7.83740679 JL021317_021517_BAF45D_5D_(—) P 5.21925 0.19382961 1.26E−02 //12 12//69 Fusion_MS2.05610.05610.5 0 −2.41416544 JL021317_021517_hBAF45D_(—) P 3.9855 0.17322236 1.32E−02 1//11 13//49 Fusion_MS2.07907.07907.4 12 BCL7A:27- 9.23 BCL7A:34 0 2.67007124 JL021317_021517_BAF45D_85B_(—) NP 9.23 0.31676305 7.63E−06 1//12 15//65 Fusion_MS2.12756.12756.4 0 −5.52074992 JL021317_021517_hBAF45D_(—) NP 9.227 0.31326283 2.75E−09 //12 12//65 Fusion_MS2.13180.13180.4 0 2.35996227 JL021317_021517_BAF45D_70B_(—) N 6.58225 0.22903944 4//11 13//44 Fusion_MS2.11172.11172.4 13 BCL7A:27- 6.067 BCL7A:33 0 −1.1124334 JL021317_021517_BAF45D_100B_(—) P 6.067 0.17056988 1.84E−04 //11 14//49 Fusion_MS2.08490.08490.4 0 4.82446348 JL021317_021517_BAF45D_85B_(—) P 3.15925 0.15025802 1.03E−02 1//11 11//48 Fusion_MS2.09463.09463.4 14 BCL7A:27- 10.5355 BCL7A:47 −1 0.50956765 JL021317_021517_BAF45D_70B_(—) NP 10.5355 0.26173205 3.46E−06 1//13 15//62 Fusion_MS2.13149.13149.4 0 1.09866853 JL021317_021517_BAF45D_70B_(—) N 9.7305 0.25526305 7//11 19//43 Fusion_MS2.12126.12126.4 −1 7.1837119 JL021317_021517_BAF45D_70B_(—) N 6.2355 0.16951664 4//11 17//43 Fusion_MS2.12100.12100.4 0 4.39651859 JL021317_021517_BAF45D_85B_(—) NP 3.9385 0.11721029 1.35E−03 //13 10//62 Fusion_MS2.13398.13398.4 15 BCL7A:27- 7.32925 BCL7A:65 0 −4.19826148 JL021317_021517_BAF45D_100B_(—) NP 7.32925 0.3292861 1.47E−09 2//11 15//49 Fusion_MS2.06106.06106.4 16 BCL7A:27- 11.21775 BCL7A:30 0 0.07159871 JL021317_021517_BAF45D_100B_(—) N 11.21775 0.34046315 //6 7//27 Fusion_MS2.06489.06489.4 0 −1.76484243 JL021317_021517_BAF45D_100B_(—) NP 10.032 0.34494378 1.22E−12 4//11 23//49 Fusion_MS2.07989.07989.4 0 0.83145638 JL021317_021517_BAF45D_85B_(—) N 9.89825 0.29446808 1//5 6//21 Fusion_MS2.07823.07823.4 0 −1.54877567 JL021317_021517_BAF45D_85B_(—) NP 9.68475 0.31299184 2.35E−08 6//11 25//48 Fusion_MS2.09147.09147.4 −1 −0.49824175 JL021317_021517_BAF45D_85B_(—) NP 8.118 0.26234912 1.98E−05 4//11 19//48 Fusion_MS2.09127.09127.4 0 −2.03902484 JL021317_021517_hBAF45D_(—) NP 7.6145 0.31215283 1.76E−08 4//11 20//48 Fusion_MS2.09347.09347.4 0 1.52544541 JL021317_021517_hBAF45D_(—) N 7.33025 0.27368018 //5 4//21 Fusion_MS2.07970.07970.4 0 −3.65682859 JL021317_021517_hBAF45D_(—) P 6.80975 0.328244 4.16E−12 4//11 18//49 Fusion_MS2.08096.08096.4 11 ACTBL2 1 ACTBL2:292- 8.3565 ACTBL2:329 −2 2.97112854 JL021317_021517_BAF45D_D_(—) N 8.3565 0.25514083 //9 6//40 Fusion_MS2.14631.14631.4 12 ARID1B 1 ARID1B:1889- 6.251 ARID1B:1904 −4 −2.03605458 JL021317_021517_BAF45D_85B_(—) P 6.251 0.16460179 6.86E−04 //7 25//329 Fusion_MS2.17202.17202.6 2 ARID1B:1777- 10.07625 ARID1B:1781 0 −2.8523665 JL021317_021517_BAF45D_85B_(—) NP 10.07625 0.35287165 2.94E−12 5//12 18//53 Fusion_MS2.13419.13419.4 0 0.6171433 JL021317_021517_BAF45D_85B_(—) NP 9.57475 0.34100541 9.55E−12 4//12 17//66 Fusion_MS2.13431.13431.5 0 2.51413882 JL021317_021517_BAF45D_70B_(—) N 8.2375 0.30984935 1//10 17//50 Fusion_MS2.16318.16318.4 0 −1.15239069 JL021317_021517_hBAF45D_(—) NP 8.107 0.31595152 7.04E−12 2//12 12//53 Fusion_MS2.14043.14043.4 −1 2.45461715 JL021317_021517_hBAF45D_(—) NP 6.82225 0.3141433 1.84E−11 2//12 12//66 Fusion_MS2.14056.14056.5 −1 11.848746 JL021317_021517_BAF45D_70B_(—) N 6.081 0.18685472 5//9 12//36 Fusion_MS2.13207.13207.4 −1 −4.55234231 JL021317_021517_BAF45D_85B_(—) NP 6.0575 0.24454986 3.57E−10 2//12 10//53 Fusion_MS2.14080.14080.4 −1 −4.73278057 JL021317_021517_BAF45D_85B_(—) P 5.66375 0.18738937 1.88E−06 4//12 16//66 Fusion_MS2.13842.13842.5 3 ARID1B:1046- 11.258 ARID1B:1057 0 −0.7227566 JL021317_021517_BAF45D_70B_(—) NP 11.258 0.47932899 1.29E−09 5//15 29//79 Fusion_MS2.11588.11588.4 0 5.92675904 JL021317_021517_BAF45D_100B_(—) NP 10.75325 0.38064602 4.59E−09 //14 16//115 Fusion_MS2.16155.16155.5 −1 −2.38269204 JL021317_021517_BAF45D_70B_(—) NP 10.20075 0.39111806 5.39E−11 3//15 24//79 Fusion_MS2.11564.11564.4 0 −3.74969769 JL021317_021517_hBAF45D_(—) NP 5.91775 0.28810156 6.03E−08 //15 14//79 Fusion_MS2.12447.12447.4 4 ARID1B:1046- 14.17425 ARID1B:1083 −3 2.7811895 JL021317_021517_BAF45D_70B_(—) N 14.17425 0.38413643 //15 14//72 Fusion_MS2.17482.17482.4 0 0.27068682 JL021317_021517_BAF45D_85B_(—) NP 10.227 0.43365065 2.02E−10 1//16 24//109 Fusion_MS2.12886.12886.5 0 −2.8456247 JL021317_021517_BAF45D_70B_(—) NP 7.26025 0.28230228 9.68E−11 1//15 21//78 Fusion_MS2.13760.13760.4 −1 7.87125223 JL021317_021517_BAF45D_70B_(—) N 4.68025 0.10360036 //15 8//72 Fusion_MS2.16936.16936.4 5 ARID1B:1237- 7.009 ARID1B:1266 −2 6.3230508 JL021317_021517_BAF45D_70B_(—) N 7.009 0.16585227 //16 11//103 Fusion_MS2.13791.13791.5 −1 0.77740833 JL021317_021517_BAF45D_70B_(—) N 5.50225 0.13605455 1//16 14//78 Fusion_MS2.13794.13794.4 6 ARID1B:1237- 11.42475 ARID1B:1372 −1 3.18048734 JL021317_021517_BAF45D_100B_(—) NP 11.42475 0.26614679 1.67E−08 //15 31//170 Fusion_MS2.12276.12276.5 −1 −1.78211968 JL021317_021517_BAF45D_100B_(—) NP 7.319 0.19550961 6.51E−08 //15 17//170 Fusion_MS2.12309.12309.6 7 ARID1B:1773- 10.185 ARID1B:1780 −1 1.76243358 JL021317_021517_BAF45D_85B_(—) N 10.185 0.35782041 //12 5//53 Fusion_MS2.13858.13858.4 8 ARID1B:1898- 4.92025 ARID1B:2097 −2 0.07158218 JL021317_021517_BAF45D_100B_(—) NP 4.92025 0.15741274 3.43E−02 1//14 15//85 Fusion_MS2.13559.13559.5 0 3.40373587 JL021317_021517_BAF45D_100B_(—) NP 4.37025 0.13207961 1.99E−03 //14 10//67 Fusion_MS2.13555.13555.4 9 ARID1B:1898- 10.2495 ARID1B:1904 −3 1.60204067 JL021317_021517_BAF45D_85B_(—) NP 10.2495 0.38801817 2.04E−07 7//14 25//85 Fusion_MS2.12979.12979.5 −2 0.8212501 JL021317_021517_BAF45D_85B_(—) NP 10.199 0.2795472 1.14E−05 //13 36//248 Fusion_MS2.13073.13073.6 0 −3.84579756 JL021317_021517_BAF45D_85B_(—) NP 8.307 0.33804708 3.42E−05 4//14 22//85 Fusion_MS2.12989.12989.5 0 −1.42463693 JL021317_021517_BAF45D_85B_(—) NP 7.80175 0.27308924 1.78E−05 4//14 22//67 Fusion_MS2.12981.12981.4 −3 −2.39222031 JL021317_021517_BAF45D_85B_(—) NP 5.88175 0.16272427 1.26E−03 //13 22//248 Fusion_MS2.13079.13079.5 10 ARID1B:1360- 16.71175 ARID1B:2110 −1 5.38325812 JL021317_021517_BAF45D_5D_(—) NP 16.71175 0.4441425 1.56E−07 2//14 53//325 Fusion_MS2.08123.08123.6 −1 0.03864026 JL021317_021517_BAF45D_5D_(—) NP 14.6565 0.43673828 6.44E−09 1//14 51//325 Fusion_MS2.08115.08115.6 −1 1.47371389 JL021317_021517_BAF45D_5D_(—) P 13.5425 0.40106318 1.57E−02 //14 47//325 Fusion_MS2.08153.08153.5 −2 −2.06130334 JL021317_021517_BAF45D_85B_(—) P 13.225 0.3545719 4.91E−02 //14 45//314 Fusion_MS2.08667.08667.5 −2 6.03369602 JL021317_021517_BAF45D_85B_(—) NP 12.20225 0.33816703 5.73E−10 1//14 46//314 Fusion_MS2.08637.08637.6 −4 −0.75582997 JL021317_021517_BAF45D_5D_(—) P 8.621 0.2782314 1.15E−12 //14 34//325 Fusion_MS2.08302.08302.6 −2 3.53313149 JL021317_021517_BAF45D_5D_(—) N 4.59275 0.1183302 //7 5//28 Fusion_MS2.08193.08193.7 11 ARID1B:1360- 15.56825 ARID1B:1372 0 1.78876674 JL021317_021517_BAF45D_D_(—) NP 15.56825 0.34799884 1.49E−07 //14 52//320 Fusion_MS2.08950.08950.6 −2 4.00168966 JL021317_021517_BAF45D_10D_(—) P 14.49075 0.33246341 1.07E−01 //14 40//320 Fusion_MS2.08855.08855.6 −2 2.05949943 JL021317_021517_BAF45D_10D_(—) P 13.62175 0.32596107 1.15E−07 //14 49//320 Fusion_MS2.09037.09037.6 −3 −2.1917392 JL021317_021517_BAF45D_10D_(—) P 13.40625 0.33239323 2.05E−04 //14 42//320 Fusion_MS2.08884.08884.6 −3 6.04333767 JL021317_021517_BAF45D_D_(—) P 12.733 0.36278937 1.08E−05 //14 52//320 Fusion_MS2.08962.08962.5 −3 2.54945366 JL021317_021517_BAF45D_10D_(—) N 12.56525 0.30123464 //14 7//62 Fusion_MS2.08428.08428.7 −2 3.63389804 JL021317_021517_BAF45D_D_(—) N 12.28975 0.30496036 //14 7//62 Fusion_MS2.08557.08557.7 −2 4.76117082 JL021317_021517_BAF45D_10D_(—) N 12.17775 0.30095642 //14 4//60 Fusion_MS2.09082.09082.7 −2 2.79808494 JL021317_021517_BAF45D_10D_(—) N 11.80475 0.28703512 //14 7//60 Fusion_MS2.08872.08872.7 −3 0.23072646 JL021317_021517_BAF45D_10D_(—) N 11.23025 0.27804531 //14 6//62 Fusion_MS2.08212.08212.7 −3 −5.39400484 JL021317_021517_BAF45D_D_(—) NP 10.93975 0.35652946 3.22E−07 //14 45//320 Fusion_MS2.09010.09010.5 −2 1.02966603 JL021317_021517_BAF45D_100B_(—) N 9.942 0.22230172 //14 7//60 Fusion_MS2.09454.09454.7 −2 9.69233648 JL021317_021517_BAF45D_D_(—) N 9.33525 0.22920682 //14 8//62 Fusion_MS2.08535.08535.7 −2 2.26060082 JL021317_021517_BAF45D_D_(—) N 9.16875 0.22062539 //14 6//60 Fusion_MS2.08864.08864.7 −2 −4.86593934 JL021317_021517_hBAF45D_(—) P 7.97075 0.17083717 1.53E−02 //14 36//309 Fusion_MS2.09809.09809.6 −2 3.71422493 JL021317_021517_BAF45D_10D_(—) N 7.11375 0.177261 //14 6//62 Fusion_MS2.08370.08370.7 −4 1.26104344 JL021317_021517_hBAF45D_(—) P 7.1105 0.19812753 2.52E−03 //14 36//320 Fusion_MS2.09253.09253.6 −2 3.49903416 JL021317_021517_BAF45D_100B_(—) N 7.0255 0.17095754 //14 6//62 Fusion_MS2.08801.08801.7 −2 −4.71927444 JL021317_021517_BAF45D_100B_(—) P 4.86175 0.15355158 4.54E−03 //14 25//309 Fusion_MS2.09394.09394.5 12 ARID1B:1372- 12.5385 ARID1B:2110 −3 1.36390619 JL021317_021517_BAF45D_100B_(—) NP 12.5385 0.41149637 4.28E−18 9//14 31//68 Fusion_MS2.06727.06727.4 −2 1.79428212 JL021317_021517_BAF45D_100B_(—) NP 10.6285 0.3491967 1.32E−15 7//14 27//68 Fusion_MS2.06671.06671.4 0 −2.50947717 JL021317_021517_BAF45D_100B_(—) NP 10.075 0.34878488 1.25E−13 7//14 26//68 Fusion_MS2.06679.06679.4 −1 4.70106228 JL021317_021517_BAF45D_100B_(—) N 8.34175 0.34374163 //7 7//32 Fusion_MS2.05819.05819.4 0 2.72398087 JL021317_021517_BAF45D_100B_(—) N 6.42525 0.27177269 //7 7//32 Fusion_MS2.05349.05349.4 0 5.36508355 JL021317_021517_BAF45D_100B_(—) N 4.164 0.18371129 //7 4//32 Fusion_MS2.05933.05933.4 0 7.60877072 JL021317_021517_hBAF45D_(—) N 4.06325 0.18747549 //7 7//32 Fusion_MS2.06129.06129.4 0 11.455115 JL021317_021517_BAF45D_100B_(—) N 3.6065 0.16219559 //7 6//32 Fusion_MS2.06088.06088.4 13 ARID1B:1161- 10.09025 ARID1B:2075 −2 11.7053715 JL021317_021517_BAF45D_D_(—) N 10.09025 0.2712688 //16 10//148 Fusion_MS2.17158.17158.5 14 ARID1B:1984- 14.58525 ARID1B:1996 −3 7.01787838 JL021317_021517_BAF45D_D_(—) N 14.58525 0.38157809 2//16 13//80 Fusion_MS2.17260.17260.4 −2 2.75953891 JL021317_021517_BAF45D_100B_(—) NP 12.32325 0.37302488 2.17E−07 //9 23//101 Fusion_MS2.18665.18665.4 −2 7.06420152 JL021317_021517_BAF45D_D_(—) P 12.2655 0.35965517 3.17E−05 1//9 23//101 Fusion_MS2.18329.18329.4 0 8.21895148 JL021317_021517_BAF45D_D_(—) N 11.06475 0.31705517 //16 7//106 Fusion_MS2.17268.17268.5 −1 2.96898175 JL021317_021517_BAF45D_D_(—) N 11.02125 0.32616416 //16 8//106 Fusion_MS2.17253.17253.5 −2 4.50106716 JL021317_021517_BAF45D_D_(—) N 10.73125 0.25680834 //15 9//72 Fusion_MS2.17066.17066.4 0 12.9419591 JL021317_021517_BAF45D_D_(—) N 10.63975 0.29455857 1//16 7//80 Fusion_MS2.17266.17266.4 −2 3.41029854 JL021317_021517_BAF45D_5D_(—) N 9.80125 0.27983983 1//15 13//72 Fusion_MS2.17121.17121.4 −2 4.01517593 JL021317_021517_BAF45D_D_(—) N 9.25825 0.26942888 //16 9//106 Fusion_MS2.16070.16070.5 −2 11.3082351 JL021317_021517_BAF45D_10D_(—) NP 6.88825 0.21997349 7.68E−06 //9 11//101 Fusion_MS2.16864.16864.4 −1 5.24788107 JL021317_021517_BAF45D_D_(—) N 6.65175 0.1638907 1//16 8//80 Fusion_MS2.16199.16199.4 −2 6.77744758 JL021317_021517_BAF45D_100B_(—) N 6.07475 0.14978118 1//16 6//106 Fusion_MS2.16282.16282.5 −2 0.15248972 JL021317_021517_BAF45D_10D_(—) P 6.05725 0.1671911 3.38E−06 //9 9//101 Fusion_MS2.17230.17230.4 −1 −0.9388332 JL021317_021517_BAF45D_100B_(—) NP 5.909 0.15782164 2.18E−02 //9 12//101 Fusion_MS2.17262.17262.4 −2 12.6211587 JL021317_021517_BAF45D_10D_(—) N 5.6965 0.16275714 1//15 8//72 Fusion_MS2.17217.17217.4 15 ARID1B:1781- 6.2705 ARID1B:1904 −1 8.96034246 JL021317_021517_BAF45D_85B_(—) P 6.2705 0.2397255 1.40E−01 //15 5//95 Fusion_MS2.15498.15498.5 16 ARID1B:1904- 9.02125 ARID1B:2097 0 6.25894538 JL021317_021517_BAF45D_70B_(—) NP 9.02125 0.2961428 5.31E−08 4//12 18//53 Fusion_MS2.13782.13782.4 −1 −3.06861435 JL021317_021517_hBAF45D_(—) NP 7.7585 0.25164607 1.11E−09 3//12 15//53 Fusion_MS2.14596.14596.4 0 −0.17707083 JL021317_021517_BAF45D_85B_(—) NP 6.68175 0.26662477 5.87E−12 2//12 12//53 Fusion_MS2.13988.13988.4 0 −0.08379524 JL021317_021517_hBAF45D_(—) NP 3.693 0.11995128 4.12E−03 1//12 11//53 Fusion_MS2.14648.14648.4 17 ARID1B:1057- 5.54825 ARID1B:1266 −3 3.60834426 JL021317_021517_BAF45D_85B_(—) NP 5.54825 0.17634205 2.07E−08 2//16 19//82 Fusion_MS2.13575.13575.4 18 ARID1B:1057- 16.445 ARID1B:928 0 7.1518284 JL021317_021517_BAF45D_70B_(—) NP 16.445 0.46667707 1.35E−04 //19 34//132 Fusion_MS2.12620.12620.4 19 ARID1B:1696- 13.032 ARID1B:1792 0 −3.3879633 JL021317_021517_BAF45D_D_(—) P 13.032 0.39234695 4.46E−04 //9 32//235 Fusion_MS2.20160.20160.5 20 ARID1B:1608- 11.1015 ARID1B:1930 −4 2.49221794 JL021317_021517_BAF45D_85B_(—) P 11.1015 0.31905905 7.99E−02 //14 18//158 Fusion_MS2.15248.15248.5 −1 1.09913223 JL021317_021517_BAF45D_85B_(—) N 9.74375 0.23619208 //15 21//148 Fusion_MS2.15048.15048.5 −2 7.43679228 JL021317_021517_BAF45D_85B_(—) N 8.9535 0.23914582 //15 18//148 Fusion_MS2.15038.15038.5 −1 3.39093474 JL021317_021517_BAF45D_85B_(—) NP 7.966 0.21470251 2.30E−05 //14 17//158 Fusion_MS2.15258.15258.6 −1 7.36859224 JL021317_021517_BAF45D_85B_(—) NP 7.6645 0.2100496 5.19E−05 //14 18//158 Fusion_MS2.15107.15107.6 0 1.37558827 JL021317_021517_BAF45D_85B_(—) NP 5.468 0.15510737 9.06E−02 //14 15//158 Fusion_MS2.15488.15488.6 −1 −6.71231531 JL021317_021517_BAF45D_85B_(—) P 5.162 0.14734889 1.00E−02 //14 10//158 Fusion_MS2.15011.15011.6 21 ARID1B:1266- 8.591 ARID1B:2110 −3 −0.06120299 JL021317_021517_BAF45D_70B_(—) NP 8.591 0.2600772 1.84E−10 5//16 24//83 Fusion_MS2.10195.10195.4 22 ARID1B:1266- 11.01875 ARID1B:1360 −2 7.74907037 JL021317_021517_BAF45D_100B_(—) P 11.01875 0.25901483 2.26E−04 //14 41//318 Fusion_MS2.11109.11109.6 −1 −8.62080304 JL021317_021517_BAF45D_100B_(—) P 10.0885 0.22927106 2.20E−03 //14 35//318 Fusion_MS2.11128.11128.6 23 ARID1B:1266- 8.19025 ARID1B:1372 −1 −3.17194154 JL021317_021517_BAF45D_85B_(—) NP 8.19025 0.23771896 4.13E−08 //16 18//78 Fusion_MS2.11762.11762.4 −1 3.60449905 JL021317_021517_BAF45D_85B_(—) NP 7.78325 0.22580107 1.16E−10 1//16 19//78 Fusion_MS2.11746.11746.4 −1 0.6457362 JL021317_021517_BAF45D_85B_(—) N 6.16275 0.17056683 //14 10//60 Fusion_MS2.10806.10806.4 24 ARID1B:1266- 13.79525 ARID1B:928 −2 −2.70974104 JL021317_021517_BAF45D_50B_(—) P 13.79525 0.33799875 3.42E−06 //19 32//126 Fusion_MS2.13086.13086.4 −1 6.99394714 JL021317_021517_BAF45D_50B_(—) P 12.055 0.2793322 4.22E−06 //19 29//126 Fusion_MS2.13107.13107.4 13 DPF2 1 DPF2:285- 18.914 DPF2:318 −3 2.07877328 JL021317_021517_BAF45D_70B_(—) N 18.914 0.45132194 //12 28//112 Fusion_MS2.15123.15123.4 −3 4.58231831 JL021317_021517_BAF45D_70B_(—) NP 18.51475 0.44413726 1.61E−13 5//13 38//168 Fusion_MS2.13835.13835.5 −2 17.0033179 JL021317_021517_BAF45D_85B_(—) N 17.8485 0.4116304 //13 19//149 Fusion_MS2.13307.13307.5 −3 7.0819766 JL021317_021517_BAF45D_70B_(—) N 16.98325 0.41454916 2//16 21//127 Fusion_MS2.12446.12446.5 −4 8.48092675 JL021317_021517_BAF45D_70B_(—) P 16.88325 0.43423439 1.19E−14 1//13 35//125 Fusion_MS2.13827.13827.4 −2 2.74308019 JL021317_021517_BAF45D_85B_(—) NP 15.9835 0.43055518 7.58E−14 1//13 31//125 Fusion_MS2.14126.14126.4 −1 6.57484177 JL021317_021517_BAF45D_70B_(—) N 15.054 0.38327775 3//16 24//127 Fusion_MS2.12505.12505.5 −2 12.0774814 JL021317_021517_BAF45D_70B_(—) N 14.50975 0.35172167 //16 24//97 Fusion_MS2.12508.12508.4 −1 −5.57141997 JL021317_021517_BAF45D_5D_(—) NP 13.5335 0.30996416 4.57E−06 //13 35//168 Fusion_MS2.13981.13981.5 −2 10.5060491 JL021317_021517_hBAF45D_(—) NP 13.5185 0.37428188 2.75E−07 //13 24//125 Fusion_MS2.14767.14767.4 −2 −0.35391734 JL021317_021517_hBAF45D_(—) NP 12.99325 0.3140856 3.73E−12 //13 27//168 Fusion_MS2.14771.14771.5 −3 −3.6447411 JL021317_021517_BAF45D_100B_(—) NP 12.966 0.31247138 1.21E−07 //13 25//168 Fusion_MS2.14206.14206.5 −2 12.6211753 JL021317_021517_hBAF45D_(—) N 12.1705 0.29594281 //16 14//127 Fusion_MS2.14766.14766.5 −3 −2.99476638 JL021317_021517_hBAF45D_(—) NP 11.594 0.30623349 4.92E−08 //13 24//125 Fusion_MS2.14756.14756.4 −2 1.40400134 JL021317_021517_BAF45D_10D_(—) NP 10.0575 0.23715765 3.94E−07 //13 25//168 Fusion_MS2.14017.14017.5 −2 8.48092675 JL021317_021517_BAF45D_100B_(—) NP 9.98375 0.24740729 4.74E−07 //13 21//125 Fusion_MS2.14219.14219.4 −2 11.9079664 JL021317_021517_BAF45D_D_(—) N 9.39525 0.22211518 //16 16//127 Fusion_MS2.14004.14004.5 −3 1.13107905 JL021317_021517_hBAF45D_(—) N 9.13975 0.21973722 1//16 15//127 Fusion_MS2.13196.13196.5 −1 3.72141378 JL021317_021517_hBAF45D_(—) N 8.10025 0.19738654 //16 12//127 Fusion_MS2.13211.13211.5 −3 6.53664392 JL021317_021517_BAF45D_5D_(—) N 7.29975 0.21191866 //16 12//97 Fusion_MS2.13997.13997.4 −1 3.64007389 JL021317_021517_BAF45D_100B_(—) P 6.2935 0.13617431 2.76E−04 //13 25//168 Fusion_MS2.14229.14229.5 −2 8.51972842 JL021317_021517_BAF45D_D_(—) N 5.1915 0.12491879 //16 10//97 Fusion_MS2.14010.14010.4 −1 −1.19465765 JL021317_021517_BAF45D_10D_(—) NP 4.942 0.14230182 5.25E−06 //13 14//125 Fusion_MS2.14023.14023.4 2 DPF2:130- 6.1195 DPF2:99 0 2.79365017 JL021317_021517_BAF45D_50B_(—) N 6.1195 0.19406961 3//9 10//30 Fusion_MS2.13788.13788.4 −1 1.79138058 JL021317_021517_BAF45D_85B_(—) NP 4.84175 0.14134639 4.25E−01 //11 22//180 Fusion_MS2.12318.12318.5 0 2.04667138 JL021317_021517_BAF45D_70B_(—) N 4.54 0.1486721 4//9 8//37 Fusion_MS2.11981.11981.5 0 2.58920434 JL021317_021517_hBAF45D_(—) N 4.11175 0.13715205 1//9 8//37 Fusion_MS2.12752.12752.5 −1 1.4662745 JL021317_021517_BAF45D_50B_(—) N 3.954 0.12519988 3//9 9//30 Fusion_MS2.12430.12430.4 −1 7.18733342 JL021317_021517_hBAF45D_(—) N 3.0905 0.10020589 //9 5//30 Fusion_MS2.12726.12726.4 3 DPF2:130- 5.26775 DPF2:188 0 −2.73031368 JL021317_021517_BAF45D_100B_(—) NP 5.26775 0.25423504 6.51E−05 //12 11//53 Fusion_MS2.05517.05517.4 0 −2.27044052 JL021317_021517_BAF45D_70B_(—) NP 4.4885 0.18476516 6.22E−05 4//9 12//34 Fusion_MS2.06095.06095.4 0 −1.77535175 JL021317_021517_hBAF45D_(—) NP 3.8435 0.21911522 5.45E−03 4//9 13//34 Fusion_MS2.06606.06606.4 4 DPF2:130- 8.44025 DPF2:261 −2 −1.15584692 JL021317_021517_BAF45D_50B_(—) P 8.44025 0.20666879 3.88E−03 1//16 24//135 Fusion_MS2.13019.13019.4 5 DPF2:130- 7.50025 DPF2:285 −2 3.22098484 JL021317_021517_BAF45D_70B_(—) NP 7.50025 0.24609945 1.13E−02 //16 26//105 Fusion_MS2.08607.08607.4 6 DPF2:130- 16.8 DPF2:241 −3 −2.05267576 JL021317_021517_BAF45D_D_(—) P 16.8 0.49339207 2.18E−04 //5 52//276 Fusion_MS2.08255.08255.6 −2 −1.6979572 JL021317_021517_BAF45D_D_(—) P 15.33 0.46961157 3.81E−07 //5 47//276 Fusion_MS2.08259.08259.5 7 DPF2:188- 14.24 DPF2:285 0 2.04650216 JL021317_021517_BAF45D_70B_(—) NP 14.24 0.58281832 5.35E−07 1//16 36//104 Fusion_MS2.06676.06676.4 −2 1.95575284 JL021317_021517_BAF45D_70B_(—) NP 11.8695 0.47515062 5.30E−07 1//16 32//104 Fusion_MS2.06660.06660.4 −1 1.68060062 JL021317_021517_BAF45D_70B_(—) N 10.84975 0.31503339 //8 7//32 Fusion_MS2.09528.09528.4 0 −0.21895923 JL021317_021517_BAF45D_85B_(—) P 9.9275 0.39848673 7.46E−05 //16 25//105 Fusion_MS2.06108.06108.4 8 DPF2:188- 17.205 DPF2:241 −3 2.84296258 JL021317_021517_BAF45D_D_(—) NP 17.205 0.56034132 5.90E−04 //5 45//276 Fusion_MS2.07151.07151.6 −2 8.53846454 JL021317_021517_BAF45D_D_(—) P 12.4895 0.46989221 2.62E−08 //5 38//276 Fusion_MS2.07170.07170.5 −2 0.23038199 JL021317_021517_BAF45D_D_(—) N 11.17675 0.39167192 //8 6//32 Fusion_MS2.07166.07166.7 −2 −1.44269264 JL021317_021517_BAF45D_D_(—) NP 5.83825 0.26506776 3.80E−02 //5 22//276 Fusion_MS2.07209.07209.6 9 DPF2:188- 7.028 DPF2:318 −3 14.1261744 JL021317_021517_BAF45D_85B_(—) N 7.028 0.22900341 //8 5//40 Fusion_MS2.13428.13428.5 10 DPF2:188- 8.1905 DPF2:196 0 −2.64222468 JL021317_021517_BAF45D_100B_(—) NP 8.1905 0.36804619 4.06E−06 2//11 17//63 Fusion_MS2.08882.08882.4 0 1.92978095 JL021317_021517_BAF45D_10D_(—) N 4.552 0.21407576 1//12 9//48 Fusion_MS2.08123.08123.4 11 DPF2:188- 10.43025 DPF2:195 0 −1.44478799 JL021317_021517_BAF45D_100B_(—) NP 10.43025 0.51280759 1.94E−06 1//12 22//80 Fusion_MS2.09194.09194.5 0 −1.96254464 JL021317_021517_BAF45D_D_(—) NP 8.74875 0.39934042 1.19E−05 1//12 16//67 Fusion_MS2.09085.09085.4 12 DPF2:196- 9.5825 DPF2:207 −3 0.33964989 JL021317_021517_BAF45D_85B_(—) N 9.5825 0.25129483 //11 13//55 Fusion_MS2.12648.12648.4 −3 1.29532504 JL021317_021517_BAF45D_85B_(—) N 6.93125 0.21617934 //11 9//55 Fusion_MS2.12814.12814.4 13 DPF2:195- 7.39425 DPF2:207 −3 13.1619497 JL021317_021517_BAF45D_70B_(—) N 7.39425 0.19521226 //12 7//64 Fusion_MS2.14029.14029.4 14 DPF2:107- 8.058 DPF2:130 −3 8.66194638 JL021317_021517_BAF45D_70B_(—) NP 8.058 0.2594793 1.30E−03 //17 28//100 Fusion_MS2.11610.11610.4 0 0.58909348 JL021317_021517_hBAF45D_(—) NP 5.19525 0.18019666 5.80E−04 //17 17//100 Fusion_MS2.12378.12378.4 −1 −1.92824775 JL021317_021517_BAF45D_70B_(—) NP 4.2455 0.11943175 4.34E−03 1//17 20//100 Fusion_MS2.11501.11501.4 15 DPF2:107- 14.5065 DPF2:108 −1 5.9099892 JL021317_021517_BAF45D_70B_(—) NP 14.5065 0.31565376 4.19E−02 //10 22//200 Fusion_MS2.19108.19108.5 0 0.86128114 JL021317_021517_BAF45D_70B_(—) NP 11.67075 0.31644772 2.69E−04 //10 22//200 Fusion_MS2.20723.20723.5 −1 13.0639471 JL021317_021517_BAF45D_70B_(—) N 9.36575 0.29961771 1//17 17//134 Fusion_MS2.20561.20561.5 16 DPF2:107- 9.46125 DPF2:99 −3 1.44146459 JL021317_021517_BAF45D_100B_(—) N 9.46125 0.31077552 //17 9//86 Fusion_MS2.15264.15264.6 −2 11.8486228 JL021317_021517_BAF45D_100B_(—) N 9.2455 0.27000073 //17 12//113 Fusion_MS2.15875.15875.5 −1 −5.43801105 JL021317_021517_BAF45D_100B_(—) P 9.06075 0.26460539 1.87E−05 //11 13//180 Fusion_MS2.15875.15875.5 −3 5.18225633 JL021317_021517_hBAF45D_(—) N 8.57825 0.27889039 //17 8//86 Fusion_MS2.15895.15895.6 −3 3.62337697 JL021317_021517_BAF45D_D_(—) N 8.44125 0.26915106 //17 10//86 Fusion_MS2.15025.15025.6 17 DPF2:281- 13.69475 DPF2:285 −1 6.62806304 JL021317_021517_BAF45D_70B_(—) NP 13.69475 0.42499263 2.90E−10 //12 24//192 Fusion_MS2.13050.13050.5 −3 4.55647022 JL021317_021517_BAF45D_70B_(—) NP 12.87925 0.38916587 3.90E−11 2//12 28//192 Fusion_MS2.13059.13059.5 −3 0.97899116 JL021317_021517_BAF45D_50B_(—) NP 10.33825 0.24961067 5.31E−11 //12 19//135 Fusion_MS2.13204.13204.4 0 5.43493046 JL021317_021517_BAF45D_70B_(—) NP 8.65 0.24187009 5.30E−07 //12 23//192 Fusion_MS2.13047.13047.5 −3 3.94309038 JL021317_021517_BAF45D_70B_(—) P 3.27575 0.07707012 1.04E−03 //12 12//141 Fusion_MS2.13043.13043.4 18 DPF2:241- 23.197 DPF2:258 −2 0.6941547 JL021317_021517_BAF45D_D_(—) NP 23.197 0.58264888 7.56E−04 //5 64//276 Fusion_MS2.06613.06613.5 −3 0.8429752 JL021317_021517_BAF45D_D_(—) NP 20.013 0.58320584 1.55E−03 //5 52//276 Fusion_MS2.06612.06612.6 −2 6.47548551 JL021317_021517_BAF45D_D_(—) N 16.898 0.53385145 1//9 8//31 Fusion_MS2.06625.06625.7 −2 2.85860834 JL021317_021517_BAF45D_10D_(—) N 15.15 0.48151032 //10 6//39 Fusion_MS2.07770.07770.6 −3 −3.01929501 JL021317_021517_BAF45D_D_(—) P 11.46675 0.35818483 2.05E−03 //5 35//276 Fusion_MS2.06668.06668.5 19 DPF2:241- 5.36 DPF2:59 −3 −0.17619207 JL021317_021517_BAF45D_D_(—) P 5.36 0.1920149 1.19E−04 //5 11//276 Fusion_MS2.12315.12315.6 −2 2.92254468 JL021317_021517_BAF45D_10D_(—) P 2.73075 0.10695611 5.74E−03 //5 8//276 Fusion_MS2.12289.12289.6 20 DPF2:241- 4.26675 DPF2:261 −2 0.35895212 JL021317_021517_BAF45D_5D_(—) P 4.26675 0.12542993 1.08E−06 //5 17//276 Fusion_MS2.11360.11360.6 21 DPF2:241- 8.55075 DPF2:285 −3 −1.47753342 JL021317_021517_BAF45D_5D_(—) NP 8.55075 0.31258454 1.29E−13 //5 23//276 Fusion_MS2.08374.08374.6 22 DPF2:258- 17.40675 DPF2:318 −2 7.51278503 JL021317_021517_BAF45D_85B_(—) P 17.40675 0.54591429 1.06E−03 //13 34//130 Fusion_MS2.13006.13006.4 −1 0.73649519 JL021317_021517_BAF45D_85B_(—) P 13.58675 0.4017906 2.57E−02 2//13 35//173 Fusion_MS2.13033.13033.5 −2 −0.42863648 JL021317_021517_BAF45D_5D_(—) P 7.615 0.22594763 7.84E−03 //13 21//173 Fusion_MS2.13041.13041.5 23 DPF2:258- 17.4355 DPF2:261 0 1.45306824 JL021317_021517_BAF45D_50B_(—) P 17.4355 0.48825943 3.35E−04 //16 41//135 Fusion_MS2.11247.11247.4 −3 −0.31578482 JL021317_021517_hBAF45D_(—) P 15.03275 0.41563675 9.99E−03 //16 39//135 Fusion_MS2.12743.12743.4 −3 −0.16838039 JL021317_021517_BAF45D_50B_(—) P 12.98225 0.33581443 2.71E−03 //16 35//135 Fusion_MS2.11089.11089.4 −1 −4.3694064 JL021317_021517_BAF45D_50B_(—) P 12.1865 0.37852151 1.18E−02 //16 29//135 Fusion_MS2.11408.11408.4 −1 5.58039203 JL021317_021517_BAF45D_70B_(—) P 11.1275 0.34943789 6.80E−03 //16 33//135 Fusion_MS2.12113.12113.4 −1 −2.60055334 JL021317_021517_hBAF45D_(—) P 11.0795 0.30904729 1.92E−04 //16 28//135 Fusion_MS2.12876.12876.4 −1 4.84862285 JL021317_021517_hBAF45D_(—) N 10.4765 0.26866954 //9 5//31 Fusion_MS2.13181.13181.4 −1 7.86516056 JL021317_021517_hBAF45D_(—) P 9.65625 0.28723452 9.97E−05 //16 30//135 Fusion_MS2.12831.12831.4 −2 16.7655016 JL021317_021517_hBAF45D_(—) N 7.59075 0.23400795 1//9 6//31 Fusion_MS2.12870.12870.4 0 3.66413456 JL021317_021517_BAF45D_50B_(—) P 6.3665 0.19437321 1.44E−02 //16 23//135 Fusion_MS2.11029.11029.4 −1 18.7744354 JL021317_021517_hBAF45D_(—) N 5.38125 0.13565721 //9 5//31 Fusion_MS2.13162.13162.4 −1 11.7713777 JL021317_021517_BAF45D_50B_(—) P 3.7625 0.14152185 2.56E−02 //16 23//135 Fusion_MS2.11298.11298.4 24 DPF2:178- 7.47225 DPF2:318 −4 1.53034261 JL021317_021517_BAF45D_85B_(—) P 7.47225 0.18435206 1.75E−01 //12 12//195 Fusion_MS2.17430.17430.6 −2 5.63885234 JL021317_021517_BAF45D_70B_(—) P 6.06825 0.12646535 2.88E−02 //14 12//187 Fusion_MS2.18564.18564.5 −3 −1.30355542 JL021317_021517_BAF45D_100B_(—) P 2.627 0.06828698 2.21E−01 //12 11//195 Fusion_MS2.17443.17443.6 25 DPF2:178- 14.47375 DPF2:188 −1 1.22258997 JL021317_021517_BAF45D_70B_(—) NP 14.47375 0.37055646 1.67E−09 //12 37//201 Fusion_MS2.14000.14000.5 −2 −2.76755334 JL021317_021517_BAF45D_70B_(—) P 12.8615 0.34065687 2.60E−04 //12 36//148 Fusion_MS2.14022.14022.4 −2 2.47546347 JL021317_021517_BAF45D_85B_(—) NP 12.4755 0.41174626 6.42E−05 //12 31//200 Fusion_MS2.13288.13288.6 −1 3.36664682 JL021317_021517_BAF45D_70B_(—) P 11.0905 0.27791212 1.65E−04 //12 29//148 Fusion_MS2.14010.14010.4 −1 −2.19942524 JL021317_021517_BAF45D_70B_(—) NP 10.6415 0.31648525 1.76E−08 //12 28//201 Fusion_MS2.14048.14048.6 −1 10.497235 JL021317_021517_BAF45D_70B_(—) N 8.81375 0.22335061 //8 6//32 Fusion_MS2.15137.15137.4 −2 7.98361756 JL021317_021517_hBAF45D_(—) P 6.584 0.15276102 4.34E−04 //14 19//143 Fusion_MS2.15865.15865.4 26 DPF2:178- 17.56575 DPF2:186 −2 1.10553348 JL021317_021517_BAF45D_70B_(—) P 17.56575 0.51995057 6.62E−03 //12 47//200 Fusion_MS2.13865.13865.5 0 3.99788557 JL021317_021517_BAF45D_70B_(—) N 12.88275 0.34540056 //10 10//59 Fusion_MS2.14838.14838.5 −2 0.7546089 JL021317_021517_hBAF45D_(—) N 5.77625 0.14863683 //10 5//59 Fusion_MS2.15552.15552.5 27 DPF2:178- 14.44225 DPF2:195 −3 −3.57398728 JL021317_021517_BAF45D_85B_(—) NP 14.44225 0.38939443 8.63E−03 //12 33//197 Fusion_MS2.15545.15545.6 −2 1.75572884 JL021317_021517_BAF45D_85B_(—) P 11.03725 0.29283128 2.95E−02 //12 24//197 Fusion_MS2.15549.15549.5 −2 4.47784791 JL021317_021517_BAF45D_70B_(—) N 8.86225 0.21052225 //12 10//80 Fusion_MS2.17492.17492.5 28 DPF2:178- 21.313 DPF2:182 −2 −0.61653003 JL021317_021517_BAF45D_85B_(—) P 21.313 0.65383318 5.80E−05 //14 52//143 Fusion_MS2.14129.14129.4 −1 0.18675656 JL021317_021517_BAF45D_70B_(—) P 17.343 0.49955353 6.18E−02 //14 39//190 Fusion_MS2.13875.13875.5 −1 0.3622142 JL021317_021517_BAF45D_85B_(—) P 17.30225 0.590319 9.56E−04 //14 41//190 Fusion_MS2.14136.14136.5 −1 −0.16415872 JL021317_021517_hBAF45D_(—) P 14.99225 0.40474744 2.91E−04 //14 34//190 Fusion_MS2.14737.14737.5 29 DPF2:178- 13.07625 DPF2:184 −1 0.19496167 JL021317_021517_BAF45D_100B_(—) P 13.07625 0.39733967 1.30E−01 //12 35//200 Fusion_MS2.13229.13229.6 −2 3.07371384 JL021317_021517_BAF45D_100B_(—) P 10.78 0.32096707 7.97E−04 //12 31//200 Fusion_MS2.13198.13198.5 30 DPF2:178- 7.7305 DPF2:99 0 7.68490224 JL021317_021517_BAF45D_70B_(—) NP 7.7305 0.198424 5.56E−05 //12 24//195 Fusion_MS2.17278.17278.5 −1 −1.62499705 JL021317_021517_BAF45D_70B_(—) P 7.463 0.19304939 2.06E−02 //12 20//195 Fusion_MS2.17256.17256.5 31 DPF2:178- 12.01675 DPF2:258 −1 1.87633422 JL021317_021517_BAF45D_50B_(—) P 12.01675 0.3019815 4.34E−03 //14 24//143 Fusion_MS2.14216.14216.4 32 DPF2:108- 16.3425 DPF2:99 −1 3.69056843 JL021317_021517_BAF45D_5D_(—) NP 16.3425 0.5423816 3.48E−12 4//17 29//104 Fusion_MS2.17079.17079.4 0 5.902752 JL021317_021517_BAF45D_70B_(—) NP 16.1625 0.50353605 2.42E−10 2//17 29//104 Fusion_MS2.17500.17500.4 0 −5.96259623 JL021317_021517_BAF45D_100B_(—) NP 15.77925 0.52167121 4.35E−12 //17 25//104 Fusion_MS2.17250.17250.4 −1 0.67395448 JL021317_021517_BAF45D_85B_(—) NP 15.72725 0.49689583 1.07E−07 1//17 27//104 Fusion_MS2.17284.17284.4 0 2.61799458 JL021317_021517_BAF45D_50B_(—) NP 15.58375 0.48396739 2.13E−07 2//17 29//104 Fusion_MS2.16975.16975.4 −1 −0.86787044 JL021317_021517_hBAF45D_(—) NP 14.9905 0.55279801 3.53E−13 //17 23//104 Fusion_MS2.18163.18163.4 −4 12.6733744 JL021317_021517_BAF45D_50B_(—) P 14.86975 0.42141845 4.06E−11 2//17 23//104 Fusion_MS2.17309.17309.4 −1 1.88060006 JL021317_021517_BAF45D_D_(—) NP 14.39575 0.46363124 6.85E−06 2//17 25//104 Fusion_MS2.17117.17117.4 −1 6.64014652 JL021317_021517_BAF45D_50B_(—) NP 13.5135 0.39882832 4.90E−09 2//17 24//104 Fusion_MS2.16953.16953.4 0 4.42796295 JL021317_021517_BAF45D_85B_(—) P 13.03275 0.36351529 1.10E−04 //17 28//104 Fusion_MS2.18695.18695.4 −3 −1.37918384 JL021317_021517_BAF45D_85B_(—) NP 12.9185 0.35200273 1.07E−09 //11 27//180 Fusion_MS2.15822.15822.5 −4 6.30496719 JL021317_021517_hBAF45D_(—) P 12.89925 0.4064292 7.55E−05 1//17 27//104 Fusion_MS2.19612.19612.4 −2 9.72379634 JL021317_021517_BAF45D_50B_(—) P 12.38375 0.30661954 2.42E−03 1//17 29//104 Fusion_MS2.18665.18665.4 −2 −0.08603566 JL021317_021517_BAF45D_85B_(—) NP 12.0595 0.34702599 9.09E−12 //11 18//132 Fusion_MS2.15832.15832.4 −1 0.54271117 JL021317_021517_BAF45D_D_(—) NP 11.005 0.31542893 9.35E−09 //11 21//180 Fusion_MS2.15691.15691.5 −2 6.41721355 JL021317_021517_BAF45D_85B_(—) N 10.47875 0.30372748 //17 24//134 Fusion_MS2.15842.15842.5 −2 11.9060365 JL021317_021517_BAF45D_50B_(—) N 9.846 0.27584468 //17 17//86 Fusion_MS2.17350.17350.4 −1 −1.35752777 JL021317_021517_BAF45D_50B_(—) NP 9.517 0.33945641 1.50E−08 1//17 18//135 Fusion_MS2.16979.16979.5 −1 4.49499882 JL021317_021517_BAF45D_50B_(—) NP 9.46875 0.24401165 1.48E−07 1//17 20//104 Fusion_MS2.17256.17256.4 −3 2.32728297 JL021317_021517_BAF45D_85B_(—) NP 9.25225 0.23665465 3.36E−09 1//11 26//180 Fusion_MS2.15831.15831.6 −1 1.88669369 JL021317_021517_BAF45D_85B_(—) NP 8.74375 0.25570633 5.36E−05 //11 16//180 Fusion_MS2.15928.15928.5 −2 2.1017309 JL021317_021517_BAF45D_D_(—) NP 8.43925 0.25532092 2.09E−06 //11 17//180 Fusion_MS2.15661.15661.5 −2 −1.67230082 JL021317_021517_BAF45D_50B_(—) P 7.4735 0.19681608 1.55E−02 1//17 16//104 Fusion_MS2.17219.17219.4 0 13.7633558 JL021317_021517_BAF45D_50B_(—) N 7.46075 0.22640923 //17 13//86 Fusion_MS2.23002.23002.4 −3 2.92156023 JL021317_021517_BAF45D_5D_(—) P 7.3965 0.24975519 1.42E−05 //11 15//180 Fusion_MS2.15668.15668.5 0 0.15003128 JL021317_021517_hBAF45D_(—) NP 7.36875 0.22179331 1.97E−12 //11 17//180 Fusion_MS2.16627.16627.6 −1 10.6229202 JL021317_021517_BAF45D_50B_(—) N 7.09625 0.20642736 //17 13//86 Fusion_MS2.23008.23008.4 −2 −3.01301814 JL021317_021517_hBAF45D_(—) P 6.52475 0.21783294 8.17E−04 //17 15//104 Fusion_MS2.18325.18325.4 −2 −2.29601691 JL021317_021517_BAF45D_D_(—) NP 6.518 0.21607466 6.68E−07 //11 18//180 Fusion_MS2.15708.15708.6 −1 3.16055213 JL021317_021517_BAF45D_85B_(—) P 5.6365 0.18196639 1.60E−01 //11 8//180 Fusion_MS2.17135.17135.6 0 0.23067024 JL021317_021517_BAF45D_5D_(—) P 4.7235 0.18942493 8.39E−05 //11 10//180 Fusion_MS2.15698.15698.6 33 DPF2:108- 15.639 DPF2:108 0 −7.08413402 JL021317_021517_BAF45D_50B_(—) NP 15.639 0.4124644 1.49E−05 3//17 18//103 Fusion_MS2.23458.23458.4 34 DPF2:108- 9.54575 DPF2:178 −1 9.14778755 JL021317_021517_BAF45D_70B_(—) P 9.54575 0.25957172 1.94E−03 //12 13//195 Fusion_MS2.18450.18450.5 35 DPF2:108- 17.95375 DPF2:130 0 2.63783176 JL021317_021517_BAF45D_70B_(—) NP 17.95375 0.5365174 2.08E−06 1//17 37//111 Fusion_MS2.15370.15370.4 0 −1.27119445 JL021317_021517_BAF45D_70B_(—) NP 17.5145 0.53469593 5.10E−04 1//17 40//111 Fusion_MS2.15019.15019.4 −1 3.24590251 JL021317_021517_BAF45D_100B_(—) P 16.19775 0.51201182 1.24E−06 1//17 35//111 Fusion_MS2.15191.15191.4 −1 0.81361953 JL021317_021517_BAF45D_85B_(—) NP 15.7015 0.51025283 3.21E−03 //17 32//111 Fusion_MS2.15196.15196.4 −1 3.41963701 JL021317_021517_BAF45D_70B_(—) NP 15.70075 0.4806303 2.02E−03 1//17 31//111 Fusion_MS2.14981.14981.4 −1 −0.14192021 JL021317_021517_BAF45D_70B_(—) P 15.542 0.48832752 1.58E−06 //17 30//111 Fusion_MS2.15192.15192.4 −1 −1.01059271 JL021317_021517_BAF45D_D_(—) NP 14.53475 0.53233043 5.74E−08 //17 31//111 Fusion_MS2.14991.14991.4 0 −0.05505296 JL021317_021517_hBAF45D_(—) P 14.16125 0.48079208 4.36E−03 //17 28//111 Fusion_MS2.15774.15774.4 −1 1.0610094 JL021317_021517_BAF45D_5D_(—) N 14.00775 0.52117012 1//9 7//30 Fusion_MS2.14979.14979.4 0 4.02770775 JL021317_021517_BAF45D_D_(—) NP 12.884 0.43903769 4.62E−05 //17 27//111 Fusion_MS2.15048.15048.4 14 SMARCD3 1 SMARCD3:131- 2.25775 SMARCD3:152 −1 17.9521131 JL021317_021517_hBAF45D_(—) N 2.25775 0.11033059 //8 8//30 Fusion_MS2.04530.04530.4 2 SMARCD3:156- 6.1595 SMARCD3:189 −1 2.20971689 JL021317_021517_BAF45D_70B_(—) N 6.1595 0.24830186 //4 4//16 Fusion_MS2.06931.06931.4 3 SMARCD3:169- 12.32275 SMARCD3:241 −3 8.37938707 JL021317_021517_BAF45D_70B_(—) NP 12.32275 0.32193194 2.79E−03 //7 32//214 Fusion_MS2.14971.14971.5 15 ARID1A 1 ARID1A:1034- 7.7465 ARID1A:1047 −3 12.118697 JL021317_021517_BAF45D_D_(—) N 7.7465 0.26538653 //8 5//32 Fusion_MS2.15672.15672.4 0 0.46527924 JL021317_021517_BAF45D_85B_(—) NP 6.3465 0.18422351 2.37E−03 //14 22//114 Fusion_MS2.15841.15841.4 2 ARID1A:1010- 8.236 ARID1A:997 0 5.52333875 JL021317_021517_BAF45D_85B_(—) NP 8.236 0.25002656 4.04E−11 1//16 18//80 Fusion_MS2.07722.07722.4 3 ARID1A:1010- 11.9005 ARID1A:1047 0 3.35060623 JL021317_021517_BAF45D_85B_(—) NP 11.9005 0.44255406 6.59E−07 2//16 37//83 Fusion_MS2.12029.12029.4 −1 −0.35280666 JL021317_021517_BAF45D_85B_(—) NP 11.236 0.42086338 3.19E−07 1//16 25//104 Fusion_MS2.12180.12180.5 0 −0.03318801 JL021317_021517_BAF45D_85B_(—) NP 10.6845 0.39514414 7.35E−07 1//16 24//104 Fusion_MS2.12014.12014.5 0 −1.74543076 JL021317_021517_hBAF45D_(—) NP 10.56425 0.41909154 1.17E−10 1//16 23//104 Fusion_MS2.12487.12487.5 0 −3.40704515 JL021317_021517_hBAF45D_(—) NP 10.03775 0.3607976 8.34E−11 1//16 32//83 Fusion_MS2.12583.12583.4 −2 7.16098328 JL021317_021517_BAF45D_70B_(—) NP 9.11275 0.35392069 2.98E−08 1//15 27//75 Fusion_MS2.12870.12870.4 −1 3.07167885 JL021317_021517_BAF45D_85B_(—) NP 8.87475 0.31679696 2.79E−05 1//16 21//104 Fusion_MS2.12291.12291.5 −1 −1.21537443 JL021317_021517_hBAF45D_(—) NP 8.81625 0.31647103 3.29E−10 2//16 29//83 Fusion_MS2.12510.12510.4 0 1.67905474 JL021317_021517_BAF45D_100B_(—) NP 8.7975 0.31261104 5.18E−07 1//16 21//104 Fusion_MS2.12120.12120.5 0 −2.23870909 JL021317_021517_BAF45D_85B_(—) NP 8.0895 0.32143283 1.41E−07 //15 24//75 Fusion_MS2.13163.13163.4 0 −0.21085869 JL021317_021517_BAF45D_85B_(—) NP 7.96675 0.31108573 1.85E−11 1//16 27//83 Fusion_MS2.12184.12184.4 −1 0.33209045 JL021317_021517_BAF45D_D_(—) NP 7.931 0.28897269 1.76E−09 //16 18//104 Fusion_MS2.11987.11987.5 0 1.34157474 JL021317_021517_BAF45D_100B_(—) NP 7.6495 0.26619456 1.22E−08 //16 21//83 Fusion_MS2.12132.12132.4 −1 −2.52645477 JL021317_021517_hBAF45D_(—) NP 6.7075 0.31002288 3.84E−16 //15 20//75 Fusion_MS2.13624.13624.4 0 −7.32221618 JL021317_021517_BAF45D_5D_(—) NP 5.98175 0.26830007 2.08E−09 //15 14//75 Fusion_MS2.13014.13014.4 0 −1.9509634 JL021317_021517_BAF45D_D_(—) NP 5.66525 0.23718861 2.59E−09 //15 15//75 Fusion_MS2.13010.13010.4 −1 −0.99181112 JL021317_021517_BAF45D_10D_(—) NP 5.2955 0.2116676 2.13E−10 //15 12//75 Fusion_MS2.12966.12966.4 4 ARID1A:1010- 9.753 ARID1A:1021 0 −1.29090235 JL021317_021517_BAF45D_70B_(—) NP 9.753 0.38223076 1.67E−10 4//15 26//76 Fusion_MS2.12370.12370.4 −1 1.37214523 JL021317_021517_hBAF45D_(—) NP 8.4255 0.32972 2.30E−09 1//15 18//76 Fusion_MS2.13073.13073.4 0 0.09652657 JL021317_021517_BAF45D_70B_(—) N 7.8385 0.27717958 2//7 10//30 Fusion_MS2.11294.11294.4 −1 −2.07995349 JL021317_021517_BAF45D_70B_(—) NP 6.1065 0.18680596 5.17E−06 //15 15//76 Fusion_MS2.12320.12320.4 5 ARID1A:1880- 14.80825 ARID1A:2146 −4 2.46477492 JL021317_021517_BAF45D_85B_(—) P 14.80825 0.45988354 6.73E−06 1//18 39//232 Fusion_MS2.08966.08966.6 −2 −2.38551942 JL021317_021517_BAF45D_85B_(—) NP 14.0815 0.48237531 1.52E−08 1//18 44//232 Fusion_MS2.08964.08964.5 6 ARID1A:1880- 13.2025 ARID1A:1953 −3 7.14079372 JL021317_021517_BAF45D_85B_(—) N 13.2025 0.31057398 //18 24//168 Fusion_MS2.15771.15771.6 7 ARID1A:1880- 18.132 ARID1A:2020 0 1.51677768 JL021317_021517_BAF45D_D_(—) P 18.132 0.52677145 6.77E−06 //18 42//231 Fusion_MS2.06237.06237.6 0 −5.72934949 JL021317_021517_BAF45D_D_(—) NP 17.999 0.47849956 6.18E−07 //18 38//229 Fusion_MS2.05673.05673.6 −1 1.01218753 JL021317_021517_BAF45D_D_(—) P 16.05175 0.55240381 3.54E−08 //18 40//231 Fusion_MS2.06264.06264.5 −1 0.16725798 JL021317_021517_BAF45D_D_(—) N 15.1495 0.42987061 //13 6//77 Fusion_MS2.08218.08218.5 0 1.85521711 JL021317_021517_BAF45D_D_(—) P 15.05875 0.45539427 2.55E−07 //18 38//231 Fusion_MS2.06282.06282.6 −2 4.20583295 JL021317_021517_BAF45D_D_(—) N 14.68725 0.41995968 //13 7//59 Fusion_MS2.08225.08225.6 −2 3.40068647 JL021317_021517_BAF45D_D_(—) N 14.6135 0.44317579 //14 7//66 Fusion_MS2.05695.05695.7 8 ARID1A:1880- 13.3175 ARID1A:1934 −3 3.50269358 JL021317_021517_BAF45D_85B_(—) NP 13.3175 0.39393312 5.25E−08 1//18 39//234 Fusion_MS2.05791.05791.5 −2 0.81778447 JL021317_021517_BAF45D_85B_(—) NP 7.18475 0.18529336 3.36E−03 //18 25//234 Fusion_MS2.05807.05807.5 9 ARID1A:1934- 7.5845 ARID1A:1953 −4 8.55421317 JL021317_021517_BAF45D_100B_(—) P 7.5845 0.2070062 5.81E−06 //14 26//240 Fusion_MS2.16917.16917.6 10 ARID1A:1934- 5.9845 ARID1A:2020 0 −4.25225373 JL021317_021517_BAF45D_D_(—) NP 5.9845 0.29428108 1.18E−10 //14 9//67 Fusion_MS2.05466.05466.4 0 3.85776726 JL021317_021517_BAF45D_D_(—) NP 3.42 0.11756415 8.10E−04 //13 11//78 Fusion_MS2.06183.06183.5 11 ARID1A:1732- 11.0425 ARID1A:1862 −2 1.56173952 JL021317_021517_BAF45D_D_(—) N 11.0425 0.27570409 //11 21//117 Fusion_MS2.15954.15954.7 −2 13.0718459 JL021317_021517_BAF45D_D_(—) N 10.233 0.32088932 //13 21//112 Fusion_MS2.16687.16687.7 −4 1.85588581 JL021317_021517_BAF45D_D_(—) P 10.2305 0.26509037 2.61E−04 // 26//273 Fusion_MS2.16710.16710.6 −4 −3.87560682 JL021317_021517_BAF45D_D_(—) P 9.22025 0.19164138 4.47E−03 // 24//273 Fusion_MS2.16730.16730.5 −3 11.7025658 JL021317_021517_BAF45D_D_(—) NP 8.31925 0.21445511 3.88E−04 // 23//273 Fusion_MS2.16711.16711.5 12 ARID1A:1953- 15.83175 ARID1A:2146 −2 2.38653048 JL021317_021517_BAF45D_85B_(—) NP 15.83175 0.4802448 1.46E−15 2//14 51//243 Fusion_MS2.17469.17469.5 −2 1.27488944 JL021317_021517_BAF45D_85B_(—) N 15.342 0.39822458 //12 8//65 Fusion_MS2.16970.16970.5 −3 −3.40516576 JL021317_021517_BAF45D_85B_(—) NP 13.6705 0.40254119 1.59E−10 //14 46//243 Fusion_MS2.17428.17428.5 −1 1.35598659 JL021317_021517_BAF45D_85B_(—) NP 12.87375 0.31313469 2.84E−15 //14 33//176 Fusion_MS2.17435.17435.4 −2 10.9493801 JL021317_021517_BAF45D_85B_(—) N 12.85375 0.32833734 //12 8//50 Fusion_MS2.17560.17560.4 0 −0.66517848 JL021317_021517_BAF45D_85B_(—) NP 12.337 0.41872147 7.60E−10 1//14 35//243 Fusion_MS2.17466.17466.6 −3 1.17183531 JL021317_021517_BAF45D_85B_(—) NP 11.861 0.4089295 4.41E−13 1//14 31//243 Fusion_MS2.17441.17441.6 −2 0.93450621 JL021317_021517_BAF45D_85B_(—) N 11.51075 0.38469187 2//12 11//51 Fusion_MS2.16962.16962.6 −3 3.2623814 JL021317_021517_BAF45D_85B_(—) N 11.08225 0.37255017 //12 10//51 Fusion_MS2.16973.16973.6 −1 6.40222179 JL021317_021517_BAF45D_100B_(—) NP 10.56275 0.37156149 3.56E−10 1//14 29//243 Fusion_MS2.17505.17505.6 −2 3.74875743 JL021317_021517_BAF45D_100B_(—) NP 10.3665 0.36398589 3.86E−12 1//14 27//243 Fusion_MS2.17469.17469.6 −2 8.82883578 JL021317_021517_BAF45D_5D_(—) NP 9.21175 0.24733182 4.35E−08 //14 22//243 Fusion_MS2.17350.17350.5 −1 −0.99683145 JL021317_021517_BAF45D_85B_(—) NP 8.7665 0.36814698 5.84E−10 3//14 20//84 Fusion_MS2.12092.12092.5 −3 6.07053874 JL021317_021517_BAF45D_D_(—) NP 8.6 0.29483356 4.23E−10 1//14 25//243 Fusion_MS2.17273.17273.6 −1 1.82894771 JL021317_021517_BAF45D_85B_(—) N 8.201 0.24063614 //12 5//51 Fusion_MS2.16994.16994.4 −1 0.85702205 JL021317_021517_BAF45D_85B_(—) NP 8.01275 0.30955784 2.04E−09 2//14 17//84 Fusion_MS2.12077.12077.5 −3 8.07617041 JL021317_021517_BAF45D_D_(—) NP 7.80275 0.21460299 6.77E−08 //14 26//243 Fusion_MS2.17305.17305.5 −2 0.3812212 JL021317_021517_BAF45D_5D_(—) N 7.67925 0.25740359 1//12 11//50 Fusion_MS2.16671.16671.6 −2 3.91737531 JL021317_021517_BAF45D_100B_(—) NP 7.5115 0.23975806 6.46E−07 //14 26//243 Fusion_MS2.17493.17493.5 0 2.8464824 JL021317_021517_BAF45D_85B_(—) NP 7.27625 0.2321158 7.80E−14 //14 15//67 Fusion_MS2.12065.12065.4 −3 6.98904564 JL021317_021517_BAF45D_5D_(—) NP 6.616 0.25161634 1.42E−08 //14 23//243 Fusion_MS2.17342.17342.6 −2 −6.16068645 JL021317_021517_BAF45D_5D_(—) NP 5.48325 0.149387 3.23E−04 //14 17//243 Fusion_MS2.17366.17366.5 13 ARID1A:1953- 18.704 ARID1A:2020 −4 5.68895239 JL021317_021517_BAF45D_D_(—) P 18.704 0.45151479 9.36E−13 //14 47//240 Fusion_MS2.14466.14466.5 −3 2.73437839 JL021317_021517_BAF45D_D_(—) NP 14.4425 0.42654833 1.62E−04 //14 36//240 Fusion_MS2.14399.14399.6 0 4.26240044 JL021317_021517_BAF45D_D_(—) NP 12.8075 0.40299235 3.39E−06 //14 33//242 Fusion_MS2.14932.14932.6 0 −2.83082203 JL021317_021517_BAF45D_D_(—) NP 10.1475 0.40876956 2.80E−07 4//14 19//87 Fusion_MS2.07942.07942.6 −3 5.74959423 JL021317_021517_BAF45D_D_(—) N 9.544 0.36557245 2//13 16//59 Fusion_MS2.08620.08620.7 −1 3.33628272 JL021317_021517_BAF45D_D_(—) N 9.03075 0.35961175 2//13 15//59 Fusion_MS2.08627.08627.7 0 0.92149786 JL021317_021517_BAF45D_D_(—) N 8.7125 0.37291872 //14 10//64 Fusion_MS2.07961.07961.7 −1 0.70380378 JL021317_021517_BAF45D_D_(—) NP 8.3445 0.36902972 6.08E−08 //14 18//83 Fusion_MS2.08583.08583.6 0 −2.94541899 JL021317_021517_BAF45D_D_(—) NP 8.27475 0.36414144 6.21E−07 1//14 17//87 Fusion_MS2.07970.07970.5 −3 −4.16266864 JL021317_021517_BAF45D_D_(—) P 8.16575 0.23834647 6.15E−06 //14 22//175 Fusion_MS2.14947.14947.4 −4 5.14413494 JL021317_021517_BAF45D_D_(—) P 7.31725 0.19864129 1.29E−01 //14 22//240 Fusion_MS2.14906.14906.6 14 ARID1A:1804- 9.5885 ARID1A:1811 0 −6.21074864 JL021317_021517_BAF45D_85B_(—) NP 9.5885 0.31389335 1.71E−10 //17 24//89 Fusion_MS2.13397.13397.4 0 −1.8927917 JL021317_021517_BAF45D_85B_(—) NP 9.1435 0.30899598 2.01E−09 //17 21//89 Fusion_MS2.14913.14913.4 −1 1.41457957 JL021317_021517_BAF45D_85B_(—) NP 8.38125 0.27587597 6.40E−08 //17 17//89 Fusion_MS2.14900.14900.4 15 ARID1A:1047- 10.3475 ARID1A:1238 −4 0.90835739 JL021317_021517_BAF45D_70B_(—) P 10.3475 0.2885688 2.57E−09 //19 27//163 Fusion_MS2.12606.12606.4 −2 0.49428668 JL021317_021517_BAF45D_70B_(—) P 8.607 0.23895058 6.98E−06 //19 24//163 Fusion_MS2.12569.12569.4 16 ARID1A:1047- 18.83875 ARID1A:1201 0 2.51710788 JL021317_021517_BAF45D_70B_(—) NP 18.83875 0.47632141 5.12E−08 2//15 34//132 Fusion_MS2.13180.13180.4 17 ARID1A:1047- 12.36825 ARID1A:1230 0 −2.4243882 JL021317_021517_BAF45D_70B_(—) NP 12.36825 0.41462454 2.19E−08 5//16 29//81 Fusion_MS2.11186.11186.4 −2 −2.7840395 JL021317_021517_BAF45D_70B_(—) NP 11.3395 0.38003553 6.46E−06 4//16 27//81 Fusion_MS2.11181.11181.4 0 11.0916401 JL021317_021517_BAF45D_70B_(—) N 4.00425 0.15889881 //8 7//33 Fusion_MS2.10354.10354.4 18 ARID1A:1047- 7.01075 ARID1A:997 0 3.19477497 JL021317_021517_hBAF45D_(—) NP 7.01075 0.29057093 5.09E−08 //12 15//64 Fusion_MS2.06927.06927.4 −3 5.51451312 JL021317_021517_hBAF45D_(—) NP 6.50025 0.2824906 6.16E−10 //12 12//64 Fusion_MS2.06933.06933.4 −1 −1.88655624 JL021317_021517_BAF45D_70B_(—) NP 6.33225 0.24718454 1.24E−10 1//12 13//64 Fusion_MS2.06291.06291.4 0 −2.54933857 JL021317_021517_BAF45D_70B_(—) NP 6.18675 0.2406687 4.97E−13 1//12 13//64 Fusion_MS2.06312.06312.4 19 ARID1A:1905- 8.17425 ARID1A:1934 −2 −1.13985312 JL021317_021517_BAF45D_5D_(—) NP 8.17425 0.22221392 4.98E−07 //17 29//222 Fusion_MS2.09547.09547.6 −2 1.19708209 JL021317_021517_BAF45D_5D_(—) N 5.08225 0.13495088 //12 15//127 Fusion_MS2.09591.09591.7 20 ARID1A:1905- 19.933 ARID1A:2020 −3 5.56506842 JL021317_021517_BAF45D_10D_(—) N 19.933 0.51539088 //13 9//77 Fusion_MS2.08366.08366.5 0 −1.35995747 JL021317_021517_BAF45D_D_(—) P 14.3145 0.39632045 1.59E−10 1//17 46//224 Fusion_MS2.06601.06601.6 −2 5.73253722 JL021317_021517_BAF45D_10D_(—) N 13.84575 0.3700143 //13 7//59 Fusion_MS2.08364.08364.7 −1 −4.91050249 JL021317_021517_BAF45D_D_(—) NP 13.49 0.38618439 4.50E−10 2//17 39//224 Fusion_MS2.06602.06602.5 0 0.48148496 JL021317_021517_BAF45D_D_(—) N 11.31 0.31806294 //13 7//59 Fusion_MS2.06587.06587.7 −2 3.63509311 JL021317_021517_BAF45D_D_(—) P 10.183 0.29663399 2.15E−09 1//17 37//224 Fusion_MS2.06677.06677.5 −1 0.32462816 JL021317_021517_BAF45D_10D_(—) N 8.9095 0.24891391 //13 7//59 Fusion_MS2.07850.07850.7 −2 4.1933744 JL021317_021517_BAF45D_D_(—) N 7.3995 0.22172115 //14 8//66 Fusion_MS2.07375.07375.6 0 0.98252461 JL021317_021517_BAF45D_D_(—) N 6.14625 0.17918835 //14 8//66 Fusion_MS2.07394.07394.7 0 6.74128029 JL021317_021517_BAF45D_10D_(—) N 6.031 0.16930073 //13 7//59 Fusion_MS2.07814.07814.6 −1 3.46296126 JL021317_021517_hBAF45D_(—) N 5.68825 0.16324905 //14 7//66 Fusion_MS2.08218.08218.6 −1 −1.5009739 JL021317_021517_hBAF45D_(—) P 3.43325 0.14493014 1.21E−02 //17 14//224 Fusion_MS2.06755.06755.6 21 ARID1A:1905- 13.82075 ARID1A:1962 −3 3.46882416 JL021317_021517_BAF45D_100B_(—) N 13.82075 0.33750717 //17 28//163 Fusion_MS2.15062.15062.7 −1 9.84861551 JL021317_021517_BAF45D_100B_(—) N 10.1595 0.25181871 //17 24//163 Fusion_MS2.15089.15089.7 22 ARID1A:1905- 6.691 ARID1A:1953 −1 6.99986354 JL021317_021517_BAF45D_70B_(—) N 6.691 0.13181639 //17 16//165 Fusion_MS2.15906.15906.6 23 ARID1A:1905- 5.45675 ARID1A:2146 0 11.8469395 JL021317_021517_BAF45D_70B_(—) N 5.45675 0.14253902 //12 7//63 Fusion_MS2.10786.10786.5 24 ARID1A:1905- 17.896 ARID1A:1928 −1 0.33208274 JL021317_021517_BAF45D_85B_(—) NP 17.896 0.40675501 1.67E−08 //17 39//222 Fusion_MS2.07358.07358.5 −2 0.41240599 JL021317_021517_BAF45D_85B_(—) NP 16.943 0.39172755 1.28E−07 //17 39//222 Fusion_MS2.07346.07346.5 −2 −4.55753856 JL021317_021517_BAF45D_85B_(—) P 8.106 0.24181135 2.31E−04 //17 27//222 Fusion_MS2.07156.07156.6 −1 0.06214113 JL021317_021517_BAF45D_50B_(—) N 5.67875 0.1288692 //18 8//118 Fusion_MS2.07782.07782.5 25 ARID1A:1230- 9.40525 ARID1A:1238 −1 10.8283179 JL021317_021517_BAF45D_70B_(—) NP 9.40525 0.24530209 1.37E−08 //19 20//156 Fusion_MS2.12032.12032.4 −3 9.65733179 JL021317_021517_hBAF45D_(—) N 8.5255 0.22022034 //16 9//79 Fusion_MS2.11913.11913.4 −2 15.3084223 JL021317_021517_BAF45D_50B_(—) N 8.1905 0.21764143 1//16 14//79 Fusion_MS2.11135.11135.4 −1 4.36757066 JL021317_021517_BAF45D_50B_(—) NP 7.8645 0.19980438 2.67E−10 //19 14//156 Fusion_MS2.11058.11058.4 −4 −1.45868636 JL021317_021517_BAF45D_50B_(—) P 7.5375 0.18526939 2.67E−05 2//19 18//211 Fusion_MS2.11238.11238.5 −2 0.07618809 JL021317_021517_BAF45D_50B_(—) N 7.49975 0.19519162 //16 11//79 Fusion_MS2.10444.10444.4 −3 11.2372408 JL021317_021517_BAF45D_50B_(—) N 6.722 0.14583085 //16 13//79 Fusion_MS2.10213.10213.4 −2 11.046965 JL021317_021517_BAF45D_50B_(—) N 6.47675 0.14332422 1//16 12//79 Fusion_MS2.09635.09635.4 −2 12.2494145 JL021317_021517_hBAF45D_(—) N 6.4745 0.15647582 1//16 10//79 Fusion_MS2.12669.12669.4 −1 3.63642048 JL021317_021517_hBAF45D_(—) N 5.80075 0.15497803 //16 12//79 Fusion_MS2.11193.11193.4 −3 12.0271972 JL021317_021517_hBAF45D_(—) N 5.716 0.1652668 //16 10//80 Fusion_MS2.12080.12080.4 −2 8.07107884 JL021317_021517_BAF45D_50B_(—) N 5.656 0.11417267 //16 11//79 Fusion_MS2.09625.09625.4 −1 10.7000415 JL021317_021517_hBAF45D_(—) N 5.5975 0.16440509 1//16 10//79 Fusion_MS2.12015.12015.4 −3 1.22187349 JL021317_021517_hBAF45D_(—) N 5.21075 0.14203647 //16 9//79 Fusion_MS2.11142.11142.4 −2 12.3796686 JL021317_021517_hBAF45D_(—) N 4.90075 0.12305404 //16 10//80 Fusion_MS2.12106.12106.4 −3 2.32733468 JL021317_021517_BAF45D_50B_(—) P 4.577 0.10178689 1.29E−02 2//19 24//156 Fusion_MS2.11302.11302.4 26 ARID1A:1230- 8.00075 ARID1A:2159 −1 9.89632059 JL021317_021517_hBAF45D_(—) N 8.00075 0.29209412 1//7 6//29 Fusion_MS2.08688.08688.4 27 ARID1A:1230- 5.84125 ARID1A:1662 −4 1.52285508 JL021317_021517_BAF45D_70B_(—) P 5.84125 0.13902277 3.03E−07 1//16 18//79 Fusion_MS2.13610.13610.4 −2 −0.01743811 JL021317_021517_BAF45D_70B_(—) P 2.7 0.07221762 7.15E−03 //16 8//79 Fusion_MS2.13645.13645.4 28 ARID1A:1654- 4.502 ARID1A:1819 −4 14.9175018 JL021317_021517_BAF45D_70B_(—) P 4.502 0.14474953 1.84E−02 1//14 14//119 Fusion_MS2.11226.11226.4 29 ARID1A:1830- 7.2645 ARID1A:1862 −1 19.1215515 JL021317_021517_BAF45D_100B_(—) N 7.2645 0.18196962 //16 9//78 Fusion_MS2.12749.12749.7 30 ARID1A:1962- 8.86025 ARID1A:2020 −1 11.3687147 JL021317_021517_BAF45D_D_(—) N 8.86025 0.27846222 //14 10//66 Fusion_MS2.14389.14389.7 −2 8.30235297 JL021317_021517_BAF45D_10D_(—) P 7.9755 0.26055211 2.51E−02 //8 24//208 Fusion_MS2.15104.15104.6 31 ARID1A:1962- 11.56125 ARID1A:2146 −2 8.85001864 JL021317_021517_BAF45D_70B_(—) N 11.56125 0.27048289 //12 9//63 Fusion_MS2.19550.19550.5 −4 3.49361662 JL021317_021517_hBAF45D_(—) P 9.97175 0.30717751 1.34E−11 //5 25//231 Fusion_MS2.18506.18506.6 −4 4.453171 JL021317_021517_hBAF45D_(—) P 7.794 0.23718446 6.58E−05 //5 25//231 Fusion_MS2.18497.18497.5 −2 12.4313838 JL021317_021517_BAF45D_85B_(—) N 6.199 0.1754376 //12 7//63 Fusion_MS2.17604.17604.5 32 ARID1A:2020- 6.75375 ARID1A:2025 0 −7.61314339 JL021317_021517_BAF45D_D_(—) NP 6.75375 0.3102391 2.20E−06 2//13 15//78 Fusion_MS2.07516.07516.5 33 ARID1A:1662- 10.87025 ARID1A:1662 −2 6.56761332 JL021317_021517_BAF45D_50B_(—) N 10.87025 0.36348057 //15 11//71 Fusion_MS2.14744.14744.4 34 ARID1A:1928- 14.323 ARID1A:1938 −3 8.20162386 JL021317_021517_BAF45D_70B_(—) NP 14.323 0.43809932 2.78E−08 1//18 22//92 Fusion_MS2.11193.11193.4 −4 7.78721134 JL021317_021517_BAF45D_70B_(—) P 14.0525 0.43025321 5.84E−10 //18 19//92 Fusion_MS2.11175.11175.4 −2 1.69260028 JL021317_021517_BAF45D_50B_(—) N 14.0495 0.38190443 1//18 22//90 Fusion_MS2.12735.12735.4 −2 1.64267308 JL021317_021517_BAF45D_70B_(—) N 14.00875 0.36774164 //18 18//118 Fusion_MS2.12623.12623.5 −2 −5.33585181 JL021317_021517_BAF45D_70B_(—) NP 13.8345 0.43967901 8.59E−08 1//18 23//92 Fusion_MS2.11235.11235.4 −1 3.0947183 JL021317_021517_BAF45D_50B_(—) N 12.73825 0.35721397 1//18 18//90 Fusion_MS2.12757.12757.4 −2 3.91286029 JL021317_021517_BAF45D_50B_(—) N 11.75475 0.30686045 1//18 15//90 Fusion_MS2.12524.12524.4 −2 1.25645623 JL021317_021517_BAF45D_70B_(—) NP 11.23575 0.34575262 5.58E−04 2//18 26//119 Fusion_MS2.11165.11165.5 −1 4.67836098 JL021317_021517_hBAF45D_(—) N 9.49775 0.24069921 //18 18//90 Fusion_MS2.14395.14395.4 −1 −7.33884566 JL021317_021517_hBAF45D_(—) NP 5.824 0.18679239 4.15E−06 //18 11//92 Fusion_MS2.12124.12124.4 0 4.26470492 JL021317_021517_hBAF45D_(—) P 3.8855 0.12150921 8.67E−04 //18 8//92 Fusion_MS2.12142.12142.4 −1 6.06049251 JL021317_021517_BAF45D_70B_(—) P 2.63975 0.06538971 1.10E−02 //18 10//92 Fusion_MS2.11150.11150.4 35 ARID1A:1201- 12.47325 ARID1A:1230 −2 0.90075284 JL021317_021517_BAF45D_50B_(—) NP 12.47325 0.25324853 2.54E−10 //15 27//126 Fusion_MS2.11582.11582.4 −2 8.31376972 JL021317_021517_hBAF45D_(—) NP 12.16775 0.24104578 1.71E−11 //15 25//126 Fusion_MS2.13072.13072.4 −1 2.75400705 JL021317_021517_hBAF45D_(—) NP 11.673 0.22128071 6.89E−12 //15 28//126 Fusion_MS2.13058.13058.4 −2 −5.55574576 JL021317_021517_BAF45D_70B_(—) NP 9.243 0.19269699 3.67E−07 //15 26//126 Fusion_MS2.12506.12506.4 −3 10.8225632 JL021317_021517_hBAF45D_(—) N 8.56475 0.17151282 1//16 11//79 Fusion_MS2.13055.13055.4 −2 −5.0774866 JL021317_021517_BAF45D_50B_(—) NP 8.4615 0.16974092 9.17E−08 //15 19//126 Fusion_MS2.11840.11840.4 −1 9.74854719 JL021317_021517_BAF45D_70B_(—) NP 7.98225 0.16403457 3.61E−03 //15 20//126 Fusion_MS2.12533.12533.4 −1 2.89732748 JL021317_021517_BAF45D_50B_(—) N 5.73825 0.1483768 1//16 12//80 Fusion_MS2.11147.11147.4 −2 4.18878452 JL021317_021517_BAF45D_50B_(—) P 3.427 0.07297312 4.24E−03 //15 11//126 Fusion_MS2.11873.11873.4 −2 −1.13184857 JL021317_021517_BAF45D_50B_(—) P 2.938 0.0686601 2.46E−03 //15 13//126 Fusion_MS2.12044.12044.4 36 ARID1A:1201- 6.44675 ARID1A:1238 −3 15.6116906 JL021317_021517_BAF45D_50B_(—) N 6.44675 0.15063028 //15 11//126 Fusion_MS2.12710.12710.4 −2 −1.13490254 JL021317_021517_BAF45D_50B_(—) NP 5.23975 0.12638847 3.52E−03 1//19 13//155 Fusion_MS2.12668.12668.4 37 ARID1A:1021- 10.925 ARID1A:1034 0 0.88013776 JL021317_021517_BAF45D_85B_(—) NP 10.925 0.3278172 9.37E−06 //14 29//115 Fusion_MS2.15532.15532.4 38 ARID1A:1021- 4.72975 ARID1A:1047 0 −0.66600324 JL021317_021517_BAF45D_85B_(—) NP 4.72975 0.33669692 7.55E−09 1//8 7//36 Fusion_MS2.11538.11538.4 39 ARID1A:2003- 7.67625 ARID1A:2020 0 2.22289067 JL021317_021517_BAF45D_D_(—) N 7.67625 0.19066455 1//14 8//87 Fusion_MS2.18175.18175.5 −2 14.60913 JL021317_021517_BAF45D_D_(—) N 6.89075 0.21948559 //13 6//77 Fusion_MS2.19053.19053.5 −1 −5.51127846 JL021317_021517_BAF45D_10D_(—) P 6.07175 0.2248713 8.67E−03 //10 15//182 Fusion_MS2.19721.19721.5 −3 −0.08404988 JL021317_021517_BAF45D_D_(—) P 5.987 0.17763734 8.37E−02 //10 16//182 Fusion_MS2.17868.17868.6 −1 1.04024087 JL021317_021517_BAF45D_D_(—) N 5.97525 0.19706639 //13 5//77 Fusion_MS2.19015.19015.5 0 −5.70669691 JL021317_021517_BAF45D_10D_(—) P 5.851 0.18155866 1.16E−02 //10 16//182 Fusion_MS2.19745.19745.6 −1 −5.67712755 JL021317_021517_BAF45D_10D_(—) P 5.1605 0.1742235 6.16E−02 //10 15//182 Fusion_MS2.19894.19894.6 −1 −5.94325175 JL021317_021517_BAF45D_D_(—) P 4.934 0.15066109 1.79E−02 //10 13//182 Fusion_MS2.18819.18819.6 −2 −5.82497433 JL021317_021517_BAF45D_D_(—) P 4.9205 0.15396289 6.25E−04 //10 13//182 Fusion_MS2.18826.18826.6 −2 −4.13952108 JL021317_021517_BAF45D_D_(—) P 4.392 0.13100867 4.19E−01 //10 11//182 Fusion_MS2.18438.18438.6 −1 11.6329118 JL021317_021517_BAF45D_D_(—) N 4.3405 0.11579298 1//14 9//66 Fusion_MS2.18013.18013.6 0 −2.77933075 JL021317_021517_BAF45D_D_(—) P 4.33525 0.12959033 1.97E−02 //10 12//182 Fusion_MS2.18500.18500.6 −1 −6.29808401 JL021317_021517_BAF45D_10D_(—) P 3.379 0.11085958 1.24E−01 //10 12//182 Fusion_MS2.19702.19702.6 −2 7.92477582 JL021317_021517_BAF45D_D_(—) P 3.32925 0.09932575 9.50E−03 //10 10//182 Fusion_MS2.18451.18451.6 0 0.41415961 JL021317_021517_BAF45D_D_(—) P 3.238 0.0928805 9.24E−02 //10 9//182 Fusion_MS2.18988.18988.6 −1 −4.7900469 JL021317_021517_BAF45D_10D_(—) P 1.38275 0.05549313 1.45E−01 //10 7//182 Fusion_MS2.20043.20043.6 40 ARID1A:980- 3.175 ARID1A:990 −2 2.92151245 JL021317_021517_BAF45D_50B_(—) P 3.175 0.11570278 2.48E−03 2//12 10//54 Fusion_MS2.04825.04825.4 41 ARID1A:1007- 4.43 ARID1A:2159 0 2.65464331 JL021317_021517_BAF45D_100B_(—) N 4.43 0.1720021 //7 6//38 Fusion_MS2.08123.08123.5 42 ARID1A:1007- 9.98525 ARID1A:1021 −2 −0.97931512 JL021317_021517_BAF45D_70B_(—) NP 9.98525 0.31475878 1.31E−08 3//15 20//76 Fusion_MS2.07355.07355.4 −1 −5.85346043 JL021317_021517_BAF45D_70B_(—) NP 9.25425 0.2890553 8.63E−09 1//15 18//76 Fusion_MS2.07360.07360.4 43 ARID1A:1938- 12.448 ARID1A:2146 0 0.03446545 JL021317_021517_BAF45D_85B_(—) NP 12.448 0.4970849 1.16E−06 1//18 30//121 Fusion_MS2.13918.13918.5 −2 2.39509165 JL021317_021517_BAF45D_85B_(—) N 9.38625 0.33560077 1//12 14//65 Fusion_MS2.12950.12950.5 44 ARID1A:1938- 7.91325 ARID1A:2020 0 −1.07339132 JL021317_021517_BAF45D_D_(—) NP 7.91325 0.29920032 2.13E−02 1//18 17//119 Fusion_MS2.09691.09691.6 45 ARID1A:1752- 11.00825 ARID1A:2020 −2 6.51683639 JL021317_021517_BAF45D_5D_(—) P 11.00825 0.30257823 1.27E−04 //15 34//188 Fusion_MS2.11003.11003.5 −2 −4.07517306 JL021317_021517_BAF45D_5D_(—) P 10.20025 0.2865118 1.52E−04 //15 34//188 Fusion_MS2.10994.10994.5 −1 3.32054199 JL021317_021517_BAF45D_5D_(—) P 9.36825 0.3362496 8.37E−05 //15 32//188 Fusion_MS2.11001.11001.6 −2 −4.4615805 JL021317_021517_BAF45D_10D_(—) P 6.95675 0.23528367 5.91E−02 //8 18//244 Fusion_MS2.12722.12722.6 −2 6.69097055 JL021317_021517_BAF45D_10D_(—) P 5.9175 0.19823125 4.52E−03 //8 19//244 Fusion_MS2.12742.12742.6 46 ARID1A:1862- 8.9345 ARID1A:1880 −2 7.10021692 JL021317_021517_BAF45D_100B_(—) N 8.9345 0.22361966 //18 17//168 Fusion_MS2.10692.10692.7 −2 −2.62331987 JL021317_021517_BAF45D_10D_(—) P 6.5155 0.21100442 2.55E−01 // 8//273 Fusion_MS2.09381.09381.6 −4 6.08911357 JL021317_021517_BAF45D_10D_(—) P 5.4815 0.18623021 3.46E−02 // 3//273 Fusion_MS2.09411.09411.6 47 ARID1A:26- 14.536 ARID1A:51 −2 −0.79632124 JL021317_021517_BAF45D_50B_(—) NP 14.536 0.42221448 1.53E−08 1//17 33//151 Fusion_MS2.06586.06586.4 −1 1.62445125 JL021317_021517_BAF45D_50B_(—) NP 13.88825 0.29500823 2.79E−11 //17 34//144 Fusion_MS2.07199.07199.4 0 1.05904683 JL021317_021517_BAF45D_50B_(—) N 13.51075 0.30750279 //18 13//136 Fusion_MS2.07221.07221.4 −1 −0.61950792 JL021317_021517_BAF45D_50B_(—) NP 12.93375 0.31231512 5.67E−12 //17 21//192 Fusion_MS2.07193.07193.5 −1 −0.28306146 JL021317_021517_hBAF45D_(—) NP 11.94825 0.42738719 1.96E−14 //17 29//151 Fusion_MS2.07942.07942.4 −1 2.78924418 JL021317_021517_BAF45D_50B_(—) N 10.4605 0.25097169 //18 19//182 Fusion_MS2.06742.06742.5 −3 0.05804103 JL021317_021517_BAF45D_50B_(—) P 9.45975 0.20445556 4.47E−02 // 40//311 Fusion_MS2.09532.09532.5 0 −3.50926583 JL021317_021517_hBAF45D_(—) NP 8.5085 0.30729919 1.37E−05 //17 22//151 Fusion_MS2.07962.07962.4 16 ACTB 1 ACTB:113- 16.7955 ACTB:373 0 0.44516378 JL021317_021517_BAF45D_70B_(—) N 16.7955 0.4444665 2//5 5//18 Fusion_MS2.13046.13046.4 −1 5.20531033 JL021317_021517_BAF45D_70B_(—) N 14.47675 0.36858085 2//5 6//18 Fusion_MS2.12884.12884.4 −1 2.66790157 JL021317_021517_hBAF45D_(—) N 12.28275 0.33369331 2//5 5//18 Fusion_MS2.13715.13715.4 0 0.52977285 JL021317_021517_hBAF45D_(—) N 11.8905 0.32949082 2//5 5//18 Fusion_MS2.13822.13822.4 −3 7.36618067 JL021317_021517_BAF45D_50B_(—) N 11.23675 0.28445668 2//5 5//18 Fusion_MS2.11877.11877.4 0 5.18324957 JL021317_021517_BAF45D_50B_(—) N 10.91725 0.26871246 2//5 6//18 Fusion_MS2.11879.11879.4 2 ACTB:113- 10.89775 ACTB:213 −1 −1.1722728 JL021317_021517_BAF45D_85B_(—) P 10.89775 0.28952193 8.35E−03 //14 30//170 Fusion_MS2.11617.11617.5 −3 0.84652886 JL021317_021517_BAF45D_85B_(—) P 7.2205 0.21229896 7.22E−03 //14 23//170 Fusion_MS2.11626.11626.6 3 ACTB:113- 9.006 ACTB:118 −3 −3.70447571 JL021317_021517_BAF45D_D_(—) P 9.006 0.25657023 1.66E−04 1//15 20//259 Fusion_MS2.25198.25198.5 4 ACTB:291- 17.4425 ACTB:328 −2 1.58158868 JL021317_021517_BAF45D_70B_(—) N 17.4425 0.49599761 //10 11//60 Fusion_MS2.12684.12684.5 0 3.75641011 JL021317_021517_BAF45D_50B_(—) N 15.65025 0.47076208 //9 6//40 Fusion_MS2.13133.13133.4 −3 5.72076496 JL021317_021517_BAF45D_70B_(—) N 15.5845 0.42613201 //10 9//60 Fusion_MS2.12694.12694.5 −2 3.38527356 JL021317_021517_BAF45D_70B_(—) N 15.25275 0.3573579 //10 9//48 Fusion_MS2.12696.12696.4 −3 10.8900314 JL021317_021517_hBAF45D_(—) N 14.406 0.42239522 //9 6//40 Fusion_MS2.15275.15275.4 −2 0.53427835 JL021317_021517_BAF45D_70B_(—) N 13.76675 0.40510697 //9 6//40 Fusion_MS2.13811.13811.4 −3 2.19755957 JL021317_021517_BAF45D_85B_(—) N 13.42875 0.39550415 //12 15//111 Fusion_MS2.18528.18528.4 −1 1.62511632 JL021317_021517_BAF45D_50B_(—) N 13.26525 0.40069021 //9 7//50 Fusion_MS2.13045.13045.5 −1 3.76363621 JL021317_021517_hBAF45D_(—) N 12.56875 0.37150479 //9 7//40 Fusion_MS2.14460.14460.4 −2 3.91946409 JL021317_021517_BAF45D_50B_(—) N 12.20675 0.36606889 //9 6//40 Fusion_MS2.12982.12982.4 −2 6.56470502 JL021317_021517_BAF45D_70B_(—) N 11.752 0.28593326 //12 15//111 Fusion_MS2.17523.17523.4 −3 7.32978862 JL021317_021517_BAF45D_5D_(—) N 11.22625 0.39891443 //12 13//111 Fusion_MS2.18144.18144.4 −3 0.49228373 JL021317_021517_BAF45D_70B_(—) N 11.05875 0.27047105 //12 14//111 Fusion_MS2.17508.17508.4 −3 9.81154328 JL021317_021517_BAF45D_70B_(—) N 10.819 0.28293844 //12 15//111 Fusion_MS2.17553.17553.4 −3 5.95739372 JL021317_021517_BAF45D_5D_(—) N 10.46575 0.34166626 //12 12//107 Fusion_MS2.17550.17550.4 0 1.49708844 JL021317_021517_BAF45D_5D_(—) N 10.38575 0.32436716 //9 5//40 Fusion_MS2.13725.13725.4 −2 0.94879212 JL021317_021517_BAF45D_D_(—) N 10.0535 0.28334884 //9 7//40 Fusion_MS2.13837.13837.4 −1 4.73112042 JL021317_021517_BAF45D_10D_(—) N 9.76625 0.33112667 //9 6//40 Fusion_MS2.13690.13690.4 −1 2.98981564 JL021317_021517_BAF45D_10D_(—) N 9.6635 0.39572882 //12 10//111 Fusion_MS2.17591.17591.4 −2 1.46920973 JL021317_021517_hBAF45D_(—) N 9.56 0.25231598 //9 5//40 Fusion_MS2.14365.14365.4 −1 7.09681058 JL021317_021517_BAF45D_70B_(—) N 9.20075 0.24387706 //10 8//48 Fusion_MS2.12710.12710.4 −3 15.2610844 JL021317_021517_BAF45D_50B_(—) N 9.1475 0.25922777 //9 6//40 Fusion_MS2.13914.13914.4 −2 0.32702133 JL021317_021517_BAF45D_100B_(—) N 8.81325 0.24321471 //9 7//40 Fusion_MS2.14005.14005.4 −3 5.61687124 JL021317_021517_BAF45D_70B_(—) N 8.6945 0.20216476 //12 15//145 Fusion_MS2.17549.17549.5 −2 11.970382 JL021317_021517_BAF45D_50B_(—) N 8.68925 0.25093495 //9 5//40 Fusion_MS2.13224.13224.4 −2 0.81125079 JL021317_021517_BAF45D_70B_(—) N 8.65275 0.23126111 //12 13//111 Fusion_MS2.18225.18225.4 −3 13.7940157 JL021317_021517_BAF45D_85B_(—) N 8.25625 0.21474088 //12 13//151 Fusion_MS2.18394.18394.5 −2 9.01106958 JL021317_021517_hBAF45D_(—) N 7.9475 0.23985574 //9 5//40 Fusion_MS2.15215.15215.4 −2 12.7994313 JL021317_021517_hBAF45D_(—) N 7.81375 0.23548514 //9 6//40 Fusion_MS2.14391.14391.4 −2 11.7176075 JL021317_021517_BAF45D_5D_(—) N 7.644 0.24381609 //9 6//40 Fusion_MS2.14532.14532.4 −3 0.30657379 JL021317_021517_hBAF45D_(—) N 7.599 0.21715151 //12 11//145 Fusion_MS2.19207.19207.5 −3 5.11580671 JL021317_021517_BAF45D_5D_(—) N 7.59825 0.23353004 //9 6//40 Fusion_MS2.13750.13750.4 −2 13.4051791 JL021317_021517_hBAF45D_(—) N 6.746 0.16889278 //9 6//40 Fusion_MS2.15463.15463.4 −3 10.1498551 JL021317_021517_BAF45D_85B_(—) N 6.564 0.16420673 //12 12//145 Fusion_MS2.18418.18418.5 0 10.1483828 JL021317_021517_BAF45D_70B_(—) N 5.20525 0.18311259 //9 8//50 Fusion_MS2.13701.13701.5 5 ACTB:291- 18.03625 ACTB:326 −2 0.9545298 JL021317_021517_BAF45D_70B_(—) N 18.03625 0.48831086 //12 21//109 Fusion_MS2.18573.18573.4 0 4.32157291 JL021317_021517_BAF45D_70B_(—) N 14.6295 0.4258642 //12 13//109 Fusion_MS2.18720.18720.4 −2 0.75177856 JL021317_021517_hBAF45D_(—) N 13.8615 0.45005601 //12 17//109 Fusion_MS2.19186.19186.4 −3 9.45826355 JL021317_021517_BAF45D_D_(—) N 13.4195 0.38383651 //12 16//109 Fusion_MS2.18099.18099.4 0 5.92161479 JL021317_021517_BAF45D_85B_(—) N 13.21625 0.40938729 //12 18//109 Fusion_MS2.17854.17854.4 0 5.08448065 JL021317_021517_hBAF45D_(—) NP 13.0895 0.3884701 3.66E−05 //17 25//140 Fusion_MS2.16003.16003.4 −3 5.85599825 JL021317_021517_BAF45D_100B_(—) N 13.08625 0.4392612 //12 13//105 Fusion_MS2.18189.18189.4 −2 7.23985881 JL021317_021517_BAF45D_85B_(—) N 12.92275 0.37543215 //12 17//109 Fusion_MS2.18411.18411.4 −3 3.49973083 JL021317_021517_BAF45D_70B_(—) N 12.88425 0.3829754 //12 18//147 Fusion_MS2.18562.18562.5 −2 3.4046036 JL021317_021517_BAF45D_85B_(—) N 12.7975 0.41887602 //12 15//109 Fusion_MS2.18349.18349.4 −3 6.41758785 JL021317_021517_hBAF45D_(—) N 12.794 0.44517128 //12 12//109 Fusion_MS2.19142.19142.4 −3 15.7787846 JL021317_021517_BAF45D_85B_(—) N 12.66725 0.38688667 //12 13//109 Fusion_MS2.17917.17917.4 −2 2.09487331 JL021317_021517_BAF45D_70B_(—) N 12.56475 0.38287321 //12 13//105 Fusion_MS2.18878.18878.4 0 2.18758298 JL021317_021517_BAF45D_50B_(—) N 12.51425 0.32533276 //15 8//69 Fusion_MS2.12973.12973.4 −4 −0.8900852 JL021317_021517_hBAF45D_(—) P 12.49075 0.34329394 1.63E−04 //17 24//140 Fusion_MS2.15988.15988.4 −3 4.12951365 JL021317_021517_BAF45D_70B_(—) N 12.48775 0.38913558 //12 13//141 Fusion_MS2.18130.18130.5 −3 5.84628314 JL021317_021517_hBAF45D_(—) N 12.402 0.41708424 //12 15//109 Fusion_MS2.19161.19161.4 −4 8.66922017 JL021317_021517_BAF45D_70B_(—) P 11.99075 0.3367999 1.57E−02 1//17 23//140 Fusion_MS2.15467.15467.4 −2 5.1109482 JL021317_021517_BAF45D_5D_(—) N 11.7425 0.40227818 //12 14//109 Fusion_MS2.17993.17993.4 −3 4.14112815 JL021317_021517_BAF45D_70B_(—) NP 11.56475 0.34292344 2.54E−04 //17 21//140 Fusion_MS2.15484.15484.4 −4 12.9457515 JL021317_021517_BAF45D_50B_(—) P 11.19625 0.28182974 5.16E−04 //17 22//140 Fusion_MS2.14892.14892.4 −2 2.18810508 JL021317_021517_BAF45D_10D_(—) N 11.0565 0.44369758 //12 13//109 Fusion_MS2.18032.18032.4 −2 11.9768118 JL021317_021517_BAF45D_50B_(—) N 10.89925 0.28972342 //15 9//69 Fusion_MS2.14850.14850.4 −3 1.34112043 JL021317_021517_BAF45D_70B_(—) N 10.73375 0.32459138 //12 15//141 Fusion_MS2.18725.18725.5 −3 8.0927145 JL021317_021517_BAF45D_70B_(—) N 10.67425 0.28732066 //12 14//147 Fusion_MS2.18617.18617.5 −3 16.2926874 JL021317_021517_BAF45D_50B_(—) N 10.647 0.25855098 //15 7//69 Fusion_MS2.14702.14702.4 −3 6.09072332 JL021317_021517_BAF45D_50B_(—) NP 10.5765 0.26089691 6.80E−03 //17 21//140 Fusion_MS2.14694.14694.4 −3 3.61651078 JL021317_021517_BAF45D_100B_(—) N 10.23175 0.29588207 //12 13//109 Fusion_MS2.18249.18249.4 −2 0.15455166 JL021317_021517_BAF45D_10D_(—) N 9.7305 0.29172538 //15 7//69 Fusion_MS2.15154.15154.4 −3 −0.63852454 JL021317_021517_BAF45D_100B_(—) NP 9.67425 0.26286223 1.99E−04 //17 17//140 Fusion_MS2.15418.15418.4 −1 −1.33031637 JL021317_021517_hBAF45D_(—) NP 9.359 0.25392734 1.95E−02 //17 19//140 Fusion_MS2.15978.15978.4 −2 7.44608271 JL021317_021517_BAF45D_5D_(—) N 9.333 0.29777459 //15 8//69 Fusion_MS2.15169.15169.4 0 3.50492655 JL021317_021517_hBAF45D_(—) N 9.32475 0.28571976 //15 8//69 Fusion_MS2.15174.15174.4 −1 8.97214634 JL021317_021517_BAF45D_100B_(—) N 9.2415 0.26203269 //12 15//109 Fusion_MS2.17761.17761.4 −1 4.39323889 JL021317_021517_BAF45D_70B_(—) N 9.19925 0.21607164 //17 17//184 Fusion_MS2.18169.18169.5 −2 6.70638549 JL021317_021517_BAF45D_70B_(—) N 9.038 0.23185357 //12 15//147 Fusion_MS2.17536.17536.5 0 8.68259769 JL021317_021517_BAF45D_70B_(—) N 9.00475 0.35490196 //12 14//109 Fusion_MS2.18096.18096.4 −2 1.88397999 JL021317_021517_hBAF45D_(—) N 8.94925 0.27918857 //12 11//109 Fusion_MS2.18675.18675.4 −3 7.87175623 JL021317_021517_BAF45D_10D_(—) N 8.91575 0.29350814 //15 8//69 Fusion_MS2.15142.15142.4 −2 1.47974243 JL021317_021517_BAF45D_D_(—) N 8.8455 0.2514319 //15 7//69 Fusion_MS2.15271.15271.4 −2 12.4119277 JL021317_021517_BAF45D_D_(—) N 8.7335 0.24995349 //15 8//69 Fusion_MS2.15267.15267.4 −3 7.2284329 JL021317_021517_BAF45D_10D_(—) N 8.363 0.37567944 //12 10//109 Fusion_MS2.18052.18052.4 −3 11.0993863 JL021317_021517_BAF45D_50B_(—) N 8.0555 0.2350804 //17 10//137 Fusion_MS2.17033.17033.4 −1 2.31731331 JL021317_021517_BAF45D_50B_(—) NP 7.962 0.18117072 6.89E−03 1//17 20//140 Fusion_MS2.14668.14668.4 −1 0.66045521 JL021317_021517_hBAF45D_(—) N 7.81975 0.2458036 //12 11//109 Fusion_MS2.18680.18680.4 −2 3.13962645 JL021317_021517_BAF45D_70B_(—) N 7.609 0.22662358 //12 13//109 Fusion_MS2.18602.18602.6 −1 2.36468055 JL021317_021517_hBAF45D_(—) N 7.52725 0.2199439 //15 8//69 Fusion_MS2.15152.15152.4 −2 11.7172643 JL021317_021517_BAF45D_70B_(—) N 7.0325 0.18013576 //12 12//109 Fusion_MS2.18254.18254.4 −1 7.35268763 JL021317_021517_hBAF45D_(—) N 6.42725 0.24202628 //12 12//109 Fusion_MS2.19351.19351.4 −2 9.32767012 JL021317_021517_hBAF45D_(—) N 6.1085 0.18094434 //14 7//64 Fusion_MS2.16072.16072.4 −1 11.4441154 JL021317_021517_BAF45D_50B_(—) N 5.76 0.1501075 //15 8//69 Fusion_MS2.13759.13759.4 −1 6.25879065 JL021317_021517_BAF45D_100B_(—) N 5.64975 0.14418145 //12 10//109 Fusion_MS2.17696.17696.4 6 ACTB:61- 4.3605 ACTB:68 0 10.0531979 JL021317_021517_BAF45D_70B_(—) N 4.3605 0.10643803 2//14 16//78 Fusion_MS2.16609.16609.5 7 ACTB:50- 8.22175 ACTB:61 −2 18.3214793 JL021317_021517_BAF45D_85B_(—) N 8.22175 0.25729956 //10 12//131 Fusion_MS2.15930.15930.6 −2 2.90055773 JL021317_021517_BAF45D_70B_(—) N 6.00625 0.16808927 //11 18//130 Fusion_MS2.08915.08915.6 0 18.480314 JL021317_021517_BAF45D_85B_(—) N 5.17375 0.12464164 //14 13//185 Fusion_MS2.15706.15706.5 8 ACTB:50- 22.02925 ACTB:68 −2 18.0156095 JL021317_021517_BAF45D_D_(—) N 22.02925 0.51095352 //10 23//131 Fusion_MS2.18762.18762.7 −1 8.54833806 JL021317_021517_BAF45D_D_(—) N 21.26025 0.51785432 //10 21//131 Fusion_MS2.18966.18966.7 −3 5.31822283 JL021317_021517_BAF45D_D_(—) N 19.49575 0.46411822 //10 26//131 Fusion_MS2.18939.18939.6 −1 8.76340319 JL021317_021517_BAF45D_D_(—) N 19.43225 0.47834997 //10 25//131 Fusion_MS2.18727.18727.7 −1 5.38375882 JL021317_021517_BAF45D_D_(—) N 18.98625 0.45668567 //10 25//131 Fusion_MS2.19112.19112.7 −2 1.60139397 JL021317_021517_BAF45D_D_(—) N 18.57675 0.40438744 //10 25//131 Fusion_MS2.18565.18565.6 −1 4.84495958 JL021317_021517_BAF45D_D_(—) N 18.1695 0.4473153 //10 23//131 Fusion_MS2.19085.19085.6 −3 8.34338465 JL021317_021517_BAF45D_D_(—) N 17.70525 0.41691784 //10 22//131 Fusion_MS2.18794.18794.6 −1 4.33249858 JL021317_021517_BAF45D_D_(—) N 17.57125 0.40861472 //10 20//131 Fusion_MS2.18663.18663.6 −2 2.16748791 JL021317_021517_BAF45D_85B_(—) N 17.54925 0.41477783 //12 23//132 Fusion_MS2.16648.16648.4 −1 3.56322684 JL021317_021517_BAF45D_D_(—) N 17.2925 0.43523949 //10 23//131 Fusion_MS2.17018.17018.7 −3 4.87975334 JL021317_021517_BAF45D_D_(—) N 16.78025 0.41009458 //10 24//131 Fusion_MS2.19848.19848.7 −2 9.8769523 JL021317_021517_BAF45D_85B_(—) N 16.725 0.48241945 //12 15//179 Fusion_MS2.16593.16593.5 −2 5.56804693 JL021317_021517_BAF45D_D_(—) N 16.622 0.41555519 //10 23//131 Fusion_MS2.17003.17003.7 −1 1.13169955 JL021317_021517_BAF45D_D_(—) N 15.11075 0.34685129 //10 28//131 Fusion_MS2.19970.19970.7 −2 5.29585202 JL021317_021517_BAF45D_D_(—) N 15.03575 0.35104421 //10 21//131 Fusion_MS2.17010.17010.6 −1 9.14561078 JL021317_021517_BAF45D_D_(—) N 14.96825 0.33339459 //10 17//131 Fusion_MS2.18646.18646.6 −1 19.3493094 JL021317_021517_BAF45D_D_(—) N 14.622 0.37142785 //10 23//131 Fusion_MS2.17071.17071.7 −1 5.39350506 JL021317_021517_BAF45D_85B_(—) N 14.331 0.44629566 //12 12//132 Fusion_MS2.16676.16676.6 −3 5.93666664 JL021317_021517_BAF45D_D_(—) N 14.1765 0.32673404 //10 21//131 Fusion_MS2.18448.18448.7 −2 6.22966458 JL021317_021517_BAF45D_85B_(—) N 13.74775 0.37798139 //12 17//179 Fusion_MS2.15927.15927.5 −1 0.16989419 JL021317_021517_BAF45D_85B_(—) N 13.63275 0.36770239 //12 18//179 Fusion_MS2.16311.16311.5 −2 3.89474865 JL021317_021517_BAF45D_100B_(—) N 13.62 0.33895353 //11 28//176 Fusion_MS2.15635.15635.5 0 11.7970699 JL021317_021517_BAF45D_100B_(—) N 13.45975 0.37758437 //11 25//130 Fusion_MS2.15674.15674.6 −1 4.36525302 JL021317_021517_BAF45D_D_(—) N 13.20025 0.32014576 //12 13//179 Fusion_MS2.16419.16419.5 −2 3.64853138 JL021317_021517_BAF45D_100B_(—) N 13.092 0.32462589 //12 15//179 Fusion_MS2.16601.16601.5 −2 3.67046137 JL021317_021517_BAF45D_D_(—) N 12.8295 0.31333496 //10 18//131 Fusion_MS2.18815.18815.7 −3 1.528103 JL021317_021517_BAF45D_D_(—) N 12.73025 0.28182664 //10 21//131 Fusion_MS2.19913.19913.6 0 9.50040506 JL021317_021517_BAF45D_85B_(—) N 12.715 0.33059893 //12 14//179 Fusion_MS2.16570.16570.5 −2 2.39295132 JL021317_021517_BAF45D_10D_(—) N 12.2885 0.33160629 //10 23//131 Fusion_MS2.16956.16956.7 −1 3.07898709 JL021317_021517_BAF45D_100B_(—) N 12.23325 0.31643581 //11 32//130 Fusion_MS2.15613.15613.6 −1 0.05083135 JL021317_021517_BAF45D_85B_(—) N 11.8965 0.28426184 //12 15//179 Fusion_MS2.15520.15520.5 0 18.2570582 JL021317_021517_BAF45D_D_(—) N 11.87775 0.29478445 //10 25//131 Fusion_MS2.19865.19865.6 −2 8.32396907 JL021317_021517_BAF45D_D_(—) N 11.746 0.25093465 //10 19//131 Fusion_MS2.19922.19922.6 −1 2.09993333 JL021317_021517_BAF45D_85B_(—) N 11.4525 0.337563 //12 20//179 Fusion_MS2.16333.16333.5 −1 5.29662497 JL021317_021517_BAF45D_D_(—) N 11.26825 0.26812887 //10 16//131 Fusion_MS2.18416.18416.7 0 1.66374356 JL021317_021517_BAF45D_85B_(—) N 11.231 0.30158432 //12 19//179 Fusion_MS2.15262.15262.5 0 4.05379673 JL021317_021517_BAF45D_85B_(—) N 11.19775 0.34325236 //12 15//132 Fusion_MS2.16622.16622.4 −2 1.44750708 JL021317_021517_BAF45D_85B_(—) N 10.99125 0.25419172 //12 12//179 Fusion_MS2.16807.16807.5 0 14.2379013 JL021317_021517_BAF45D_100B_(—) N 10.715 0.26404958 //11 24//176 Fusion_MS2.15626.15626.5 −2 1.00359555 JL021317_021517_BAF45D_D_(—) N 10.524 0.25893758 //10 16//131 Fusion_MS2.18417.18417.7 −1 2.08973412 JL021317_021517_BAF45D_100B_(—) N 10.3285 0.28983738 //12 13//179 Fusion_MS2.16069.16069.5 0 10.7097489 JL021317_021517_BAF45D_D_(—) N 9.55375 0.25135494 //12 12//179 Fusion_MS2.15877.15877.5 −1 1.86651056 JL021317_021517_BAF45D_D_(—) N 9.087 0.21447791 //10 13//131 Fusion_MS2.18737.18737.6 0 0.68851312 JL021317_021517_BAF45D_85B_(—) N 8.981 0.24101979 //12 10//132 Fusion_MS2.16207.16207.6 0 3.02908057 JL021317_021517_BAF45D_85B_(—) N 8.619 0.21570958 //12 14//179 Fusion_MS2.16103.16103.5 −1 4.00958143 JL021317_021517_BAF45D_10D_(—) N 8.49475 0.23086697 //12 12//179 Fusion_MS2.15952.15952.5 0 7.68782992 JL021317_021517_BAF45D_85B_(—) N 8.27725 0.22073255 //12 13//179 Fusion_MS2.16303.16303.5 0 2.75335837 JL021317_021517_BAF45D_D_(—) N 7.702 0.18775749 //10 15//131 Fusion_MS2.18729.18729.7 0 7.57882177 JL021317_021517_BAF45D_100B_(—) N 7.67825 0.23225899 //11 25//176 Fusion_MS2.15657.15657.5 0 4.19989153 JL021317_021517_BAF45D_85B_(—) N 7.64625 0.19642031 //12 16//179 Fusion_MS2.16462.16462.5 −1 8.10300809 JL021317_021517_BAF45D_100B_(—) N 7.36475 0.19934362 //12 14//179 Fusion_MS2.16368.16368.5 0 14.3352174 JL021317_021517_BAF45D_85B_(—) N 7.27375 0.23814006 //12 12//132 Fusion_MS2.16334.16334.6 −2 16.7709579 JL021317_021517_BAF45D_D_(—) N 7.15425 0.19565307 //12 10//132 Fusion_MS2.16184.16184.6 −1 8.69761114 JL021317_021517_BAF45D_85B_(—) N 6.9815 0.16646003 //12 16//132 Fusion_MS2.16266.16266.4 0 0.89061462 JL021317_021517_BAF45D_D_(—) N 6.92075 0.16269953 //12 15//179 Fusion_MS2.16178.16178.5 0 17.1527026 JL021317_021517_BAF45D_100B_(—) N 6.84575 0.1648605 //11 18//130 Fusion_MS2.14873.14873.6 0 16.4107875 JL021317_021517_BAF45D_D_(—) N 6.30575 0.16305936 //12 15//179 Fusion_MS2.16154.16154.5 0 1.9415857 JL021317_021517_BAF45D_10D_(—) N 6.293 0.16636485 //12 12//179 Fusion_MS2.16313.16313.5 0 10.2579482 JL021317_021517_BAF45D_85B_(—) N 5.63925 0.15343645 //12 13//179 Fusion_MS2.15627.15627.5 −1 3.76894341 JL021317_021517_BAF45D_85B_(—) N 5.5515 0.15359821 //12 10//132 Fusion_MS2.15631.15631.6 −1 1.3003496 JL021317_021517_BAF45D_85B_(—) N 5.38225 0.13301165 //12 11//179 Fusion_MS2.14953.14953.5 −2 1.31987579 JL021317_021517_BAF45D_100B_(—) N 5.33425 0.13195097 //11 20//176 Fusion_MS2.15003.15003.5 −1 13.2087632 JL021317_021517_BAF45D_D_(—) N 4.68925 0.1359262 //12 10//132 Fusion_MS2.16164.16164.6 −1 16.3178394 JL021317_021517_BAF45D_100B_(—) N 4.4635 0.10973166 1//12 13//179 Fusion_MS2.16260.16260.5 17 SMARCE1 1 SMARCE1:61- 10.0425 SMARCE1:68 0 2.5482252 JL021317_021517_BAF45D_50B_(—) P 10.0425 0.32612932 1.05E−03 //16 22//76 Fusion_MS2.13791.13791.4 0 2.20873484 JL021317_021517_BAF45D_70B_(—) P 9.8705 0.31625068 1.56E−04 //16 22//76 Fusion_MS2.14346.14346.4 −3 5.34902072 JL021317_021517_BAF45D_50B_(—) P 9.66475 0.29042461 1.46E−03 //16 22//76 Fusion_MS2.13702.13702.4 0 3.05746075 JL021317_021517_BAF45D_50B_(—) P 9.24225 0.27046266 4.32E−05 //16 22//76 Fusion_MS2.13631.13631.4 0 0.14511378 JL021317_021517_BAF45D_50B_(—) N 7.41375 0.21933847 1//13 8//59 Fusion_MS2.13038.13038.4 −1 −0.59206068 JL021317_021517_BAF45D_50B_(—) P 5.266 0.15407798 8.63E−04 //16 21//76 Fusion_MS2.13043.13043.4 2 SMARCE1:61- 5.09875 SMARCE1:85 −1 −3.70680442 JL021317_021517_BAF45D_50B_(—) P 5.09875 0.15970526 5.24E−04 //15 5//70 Fusion_MS2.15867.15867.4 3 SMARCE1:240- 12.439 SMARCE1:255 0 −1.36348979 JL021317_021517_BAF45D_10D_(—) P 12.439 0.56714921 6.79E−08 //13 26//75 Fusion_MS2.09074.09074.4 0 1.64187535 JL021317_021517_BAF45D_100B_(—) N 10.44625 0.45492651 2//8 6//33 Fusion_MS2.11569.11569.5 −1 −1.11905623 JL021317_021517_BAF45D_100B_(—) P 9.8735 0.35347081 5.85E−03 //13 22//75 Fusion_MS2.10006.10006.4 4 SMARCE1:240- 12.77225 SMARCE1:256 −1 −3.87280956 JL021317_021517_BAF45D_10D_(—) P 12.77225 0.56038303 1.38E−09 //13 26//75 Fusion_MS2.09068.09068.4 5 SMARCE1:228- 12.72775 SMARCE1:271 −2 4.90625215 JL021317_021517_BAF45D_70B_(—) N 12.72775 0.37831793 //8 6//25 Fusion_MS2.13598.13598.4 6 SMARCE1:228- 5.73225 SMARCE1:98 0 5.51746963 JL021317_021517_BAF45D_100B_(—) NP 5.73225 0.2333598 5.68E−06 1//15 18//79 Fusion_MS2.18140.18140.4 −1 1.76050973 JL021317_021517_BAF45D_100B_(—) NP 5.24025 0.21786717 1.60E−05 1//15 19//79 Fusion_MS2.18121.18121.4 7 SMARCE1:228- 3.949 SMARCE1:255 0 1.63099355 JL021317_021517_BAF45D_5D_(—) N 3.949 0.15292569 //8 8//29 Fusion_MS2.06956.06956.4 8 SMARCE1:228- 5.4975 SMARCE1:277 0 6.80826963 JL021317_021517_BAF45D_70B_(—) N 5.4975 0.17893178 3//8 9//27 Fusion_MS2.10383.10383.4 9 SMARCE1:228- 3.9775 SMARCE1:298 −1 1.71504805 JL021317_021517_BAF45D_5D_(—) N 3.9775 0.25806138 //8 7//29 Fusion_MS2.04237.04237.4 0 0.32928261 JL021317_021517_hBAF45D_(—) NP 3.21125 0.16470905 3.45E−03 //7 4//31 Fusion_MS2.04287.04287.4 10 SMARCE1:228- 12.50825 SMARCE1:240 0 −0.22819839 JL021317_021517_BAF45D_85B_(—) NP 12.50825 0.48664553 1.53E−04 //13 26//75 Fusion_MS2.13238.13238.4 0 −1.1509016 JL021317_021517_hBAF45D_(—) P 9.3265 0.31740063 1.01E−02 //13 20//75 Fusion_MS2.13781.13781.4 0 −1.35594675 JL021317_021517_BAF45D_100B_(—) P 9.32475 0.34302978 3.51E−03 //13 19//75 Fusion_MS2.13298.13298.4 0 5.94946415 JL021317_021517_BAF45D_70B_(—) N 9.02525 0.29956353 3//8 8//26 Fusion_MS2.12952.12952.4 11 SMARCE1:256- 2.0805 SMARCE1:258 −1 −3.80213817 JL021317_021517_hBAF45D_(—) P 2.0805 0.07410376 6.48E−04 //15 15//91 Fusion_MS2.08126.08126.4 12 SMARCE1:64- 4.2535 SMARCE1:68 −4 12.5541823 JL021317_021517_BAF45D_70B_(—) P 4.2535 0.13378942 5.80E−05 //19 10//137 Fusion_MS2.14079.14079.5 13 SMARCE1:146- 10.04475 SMARCE1:166 −1 4.24859478 JL021317_021517_BAF45D_85B_(—) N 10.04475 0.21160875 //17 18//99 Fusion_MS2.14892.14892.6 14 SMARCE1:146- 7.76875 SMARCE1:298 −1 1.14979449 JL021317_021517_BAF45D_10D_(—) P 7.76875 0.304896 2.09E−04 //17 18//136 Fusion_MS2.08799.08799.5 15 SMARCE1:146- 11.59025 SMARCE1:228 0 −3.55965869 JL021317_021517_BAF45D_100B_(—) P 11.59025 0.45965695 1.21E−03 //17 27//137 Fusion_MS2.11901.11901.5 0 −4.49745922 JL021317_021517_BAF45D_100B_(—) P 10.333 0.31211394 1.50E−02 //17 23//106 Fusion_MS2.11893.11893.4 16 SMARCE1:112- 5.44375 SMARCE1:131 −3 −4.86690083 JL021317_021517_BAF45D_70B_(—) P 5.44375 0.12455384 3.67E−04 2//9 23//132 Fusion_MS2.17217.17217.4 −2 −0.24625576 JL021317_021517_BAF45D_70B_(—) P 5.19975 0.11560909 3.66E−04 1//9 22//132 Fusion_MS2.17221.17221.4 17 SMARCE1:271- 20.5125 SMARCE1:277 −1 −0.8283251 JL021317_021517_BAF45D_100B_(—) NP 20.5125 0.55602993 4.97E−11 //12 50//204 Fusion_MS2.18876.18876.5 0 −4.04834376 JL021317_021517_hBAF45D_(—) NP 17.21725 0.4642082 2.04E−12 1//16 27//81 Fusion_MS2.14555.14555.4 −2 −1.21852861 JL021317_021517_BAF45D_85B_(—) NP 16.87475 0.46685618 1.42E−09 //12 30//149 Fusion_MS2.19974.19974.4 −3 2.62726547 JL021317_021517_BAF45D_70B_(—) N 16.6905 0.44632972 //14 13//65 Fusion_MS2.13085.13085.4 −2 −1.90419686 JL021317_021517_BAF45D_100B_(—) NP 16.547 0.50121161 1.62E−10 //12 41//204 Fusion_MS2.18827.18827.5 −1 9.41619714 JL021317_021517_BAF45D_85B_(—) NP 15.5355 0.37221923 6.39E−08 //12 30//149 Fusion_MS2.19993.19993.4 −1 3.1055305 JL021317_021517_BAF45D_70B_(—) N 15.17625 0.39190812 //14 12//65 Fusion_MS2.13076.13076.4 −3 2.19826342 JL021317_021517_BAF45D_85B_(—) NP 14.56225 0.44809681 6.95E−10 7//16 39//115 Fusion_MS2.13087.13087.5 −2 −1.74500018 JL021317_021517_BAF45D_70B_(—) NP 14.05825 0.42669287 7.23E−04 //12 28//149 Fusion_MS2.20336.20336.4 −1 −3.00853195 JL021317_021517_BAF45D_70B_(—) NP 13.698 0.43987027 3.47E−06 //12 28//149 Fusion_MS2.20310.20310.4 0 2.44966017 JL021317_021517_BAF45D_100B_(—) N 13.49725 0.33066097 //14 12//65 Fusion_MS2.13241.13241.4 −3 −2.06088313 JL021317_021517_BAF45D_85B_(—) NP 13.48375 0.3762942 6.91E−05 //12 23//149 Fusion_MS2.19951.19951.4 −1 4.45073773 JL021317_021517_BAF45D_70B_(—) N 13.271 0.34211985 //14 16//65 Fusion_MS2.15406.15406.4 −2 −2.06068027 JL021317_021517_BAF45D_100B_(—) NP 12.937 0.32623058 4.99E−08 //12 31//204 Fusion_MS2.18839.18839.6 −1 −0.14206212 JL021317_021517_BAF45D_85B_(—) NP 12.84375 0.34510439 3.62E−10 2//16 34//89 Fusion_MS2.13078.13078.4 −1 −1.3494972 JL021317_021517_BAF45D_10D_(—) NP 12.70625 0.39590117 4.62E−07 //16 21//81 Fusion_MS2.13771.13771.4 −1 1.90880156 JL021317_021517_BAF45D_5D_(—) N 12.364 0.3305573 //14 13//65 Fusion_MS2.13827.13827.4 −2 5.52444151 JL021317_021517_BAF45D_D_(—) P 12.29825 0.36402048 1.29E−04 //12 34//204 Fusion_MS2.18450.18450.5 −1 11.9561222 JL021317_021517_BAF45D_85B_(—) N 12.196 0.31497527 //14 14//65 Fusion_MS2.14051.14051.4 −3 4.20104201 JL021317_021517_BAF45D_D_(—) N 11.63825 0.33750689 //16 13//79 Fusion_MS2.19442.19442.4 −2 −0.52467318 JL021317_021517_BAF45D_100B_(—) NP 11.2475 0.3611566 9.38E−11 2//16 29//115 Fusion_MS2.13179.13179.5 −1 1.04947751 JL021317_021517_BAF45D_D_(—) NP 10.908 0.28794298 1.39E−08 1//16 19//81 Fusion_MS2.13905.13905.4 0 5.09774735 JL021317_021517_BAF45D_70B_(—) NP 10.88075 0.28755005 3.01E−07 1//16 24//81 Fusion_MS2.13862.13862.4 −1 8.94634822 JL021317_021517_BAF45D_85B_(—) N 10.501 0.36060507 //14 10//84 Fusion_MS2.12312.12312.5 −1 1.07087953 JL021317_021517_hBAF45D_(—) N 10.47925 0.31386747 //14 11//65 Fusion_MS2.13647.13647.4 0 −0.29024817 JL021317_021517_BAF45D_10D_(—) NP 10.3 0.34960288 2.63E−09 2//16 28//115 Fusion_MS2.12888.12888.5 −2 3.25213033 JL021317_021517_BAF45D_70B_(—) N 10.15725 0.28088187 //16 10//102 Fusion_MS2.17044.17044.5 −1 4.63616964 JL021317_021517_BAF45D_85B_(—) N 10.0505 0.27101254 //14 17//65 Fusion_MS2.12315.12315.4 0 3.12107789 JL021317_021517_BAF45D_85B_(—) N 9.52225 0.2414486 //14 12//65 Fusion_MS2.13213.13213.4 −1 2.66637822 JL021317_021517_hBAF45D_(—) N 9.347 0.32580432 //14 12//84 Fusion_MS2.12731.12731.5 −2 −0.70500011 JL021317_021517_BAF45D_85B_(—) NP 9.136 0.28885797 1.96E−07 1//16 22//115 Fusion_MS2.13265.13265.5 −2 −4.41177686 JL021317_021517_BAF45D_100B_(—) P 8.71075 0.26521587 1.06E−02 //12 27//149 Fusion_MS2.18842.18842.4 −2 3.61188578 JL021317_021517_hBAF45D_(—) N 8.59975 0.26466877 //14 10//65 Fusion_MS2.13640.13640.4 −1 1.32068062 JL021317_021517_BAF45D_100B_(—) N 8.4865 0.2537829 //14 10//84 Fusion_MS2.12366.12366.5 −3 4.19813183 JL021317_021517_BAF45D_70B_(—) P 8.40325 0.23129378 9.81E−07 1//16 13//81 Fusion_MS2.14077.14077.4 −2 8.80215348 JL021317_021517_hBAF45D_(—) NP 8.26225 0.21145676 2.85E−10 3//16 18//89 Fusion_MS2.13602.13602.4 −1 −4.2068489 JL021317_021517_BAF45D_100B_(—) NP 8.21425 0.23865106 1.24E−05 //12 23//149 Fusion_MS2.18851.18851.4 −2 2.18518453 JL021317_021517_BAF45D_5D_(—) N 7.439 0.23999871 //14 11//84 Fusion_MS2.12156.12156.5 0 4.89146327 JL021317_021517_BAF45D_70B_(—) N 7.36875 0.16007712 //14 10//65 Fusion_MS2.14546.14546.4 −1 −2.59450833 JL021317_021517_hBAF45D_(—) NP 6.9375 0.18023928 6.67E−10 1//16 15//89 Fusion_MS2.13595.13595.4 −1 8.69620943 JL021317_021517_BAF45D_70B_(—) NP 6.92575 0.16902998 1.88E−03 //16 13//81 Fusion_MS2.14063.14063.4 0 6.72662832 JL021317_021517_BAF45D_D_(—) N 6.79725 0.1678893 //14 12//65 Fusion_MS2.13929.13929.4 −3 14.6873409 JL021317_021517_BAF45D_70B_(—) N 6.739 0.15378647 //14 11//65 Fusion_MS2.14551.14551.4 −1 6.21676534 JL021317_021517_BAF45D_100B_(—) N 6.606 0.17570785 //14 10//65 Fusion_MS2.13262.13262.4 −1 10.99583 JL021317_021517_BAF45D_D_(—) N 6.599 0.20310552 //14 15//65 Fusion_MS2.12968.12968.4 −1 10.112637 JL021317_021517_BAF45D_85B_(—) N 6.472 0.22251637 //14 10//84 Fusion_MS2.12499.12499.5 −1 −0.35845443 JL021317_021517_BAF45D_10D_(—) NP 6.22575 0.2324776 1.47E−08 //16 11//89 Fusion_MS2.12873.12873.4 0 0.18644775 JL021317_021517_BAF45D_5D_(—) N 6.21675 0.1900798 //14 11//84 Fusion_MS2.12161.12161.5 −1 −2.73876987 JL021317_021517_BAF45D_85B_(—) NP 5.95925 0.16106299 3.53E−03 2//16 11//89 Fusion_MS2.13249.13249.4 0 1.13117506 JL021317_021517_BAF45D_5D_(—) N 5.6985 0.17344392 //14 13//65 Fusion_MS2.12943.12943.4 0 6.16227996 JL021317_021517_hBAF45D_(—) N 5.653 0.15167085 //14 14//65 Fusion_MS2.15983.15983.4 −3 3.1489976 JL021317_021517_hBAF45D_(—) N 5.65025 0.16278685 //14 13//65 Fusion_MS2.13827.13827.4 −1 0.10135888 JL021317_021517_hBAF45D_(—) N 5.16025 0.14517717 //14 11//65 Fusion_MS2.13818.13818.4 0 9.26270391 JL021317_021517_BAF45D_5D_(—) N 4.637 0.1337429 //14 10//65 Fusion_MS2.12996.12996.4 −1 5.69472136 JL021317_021517_BAF45D_D_(—) N 3.99625 0.10426859 //14 10//65 Fusion_MS2.13079.13079.4 −3 13.8818938 JL021317_021517_BAF45D_5D_(—) N 3.7555 0.10595587 //14 11//65 Fusion_MS2.13021.13021.4 0 4.49800367 JL021317_021517_BAF45D_70B_(—) P 1.6865 0.03679302 8.60E−03 //16 6//81 Fusion_MS2.14588.14588.4 18 SMARCE1:271- 10.232 SMARCE1:298 −1 −2.65535059 JL021317_021517_BAF45D_10D_(—) P 10.232 0.40844677 1.51E−05 //16 21//120 Fusion_MS2.07832.07832.5 19 SMARCE1:271- 11.27175 SMARCE1:284 −1 5.97187308 JL021317_021517_BAF45D_D_(—) N 11.27175 0.30094515 //14 15//116 Fusion_MS2.19450.19450.4 −1 15.714257 JL021317_021517_BAF45D_D_(—) N 8.436 0.17511703 1//14 18//116 Fusion_MS2.19484.19484.4 0 2.06701458 JL021317_021517_BAF45D_85B_(—) N 6.84425 0.13216537 1//14 15//116 Fusion_MS2.20070.20070.4 20 SMARCE1:284- 8.50475 SMARCE1:305 −2 9.12600766 JL021317_021517_BAF45D_70B_(—) N 8.50475 0.17979304 2//15 10//97 Fusion_MS2.22052.22052.5 −3 17.444657 JL021317_021517_BAF45D_100B_(—) N 7.12775 0.18030558 4//15 9//97 Fusion_MS2.16083.16083.5 21 SMARCE1:166- 12.91475 SMARCE1:228 −3 5.97497165 JL021317_021517_BAF45D_70B_(—) N 12.91475 0.3169925 //8 4//31 Fusion_MS2.13982.13982.5 22 SMARCE1:298- 7.0745 SMARCE1:305 0 −1.44254402 JL021317_021517_BAF45D_100B_(—) P 7.0745 0.35427413 2.47E−04 //10 17//55 Fusion_MS2.02648.02648.4 0 0.60899416 JL021317_021517_BAF45D_100B_(—) P 6.97875 0.34381466 5.00E−05 //10 17//55 Fusion_MS2.02651.02651.4 −2 0.49501982 JL021317_021517_hBAF45D_(—) P 6.32325 0.3619905 1.99E−02 //10 15//55 Fusion_MS2.03665.03665.4 23 SMARCE1:255- 16.27175 SMARCE1:271 0 −2.83019219 JL021317_021517_BAF45D_100B_(—) P 16.27175 0.53062938 1.94E−05 //16 26//86 Fusion_MS2.08699.08699.4 0 7.13001731 JL021317_021517_BAF45D_5D_(—) N 7.494 0.24633084 //8 6//27 Fusion_MS2.08857.08857.4 24 SMARCE1:255- 18.345 SMARCE1:258 −1 0.7653805 JL021317_021517_BAF45D_85B_(—) N 18.345 0.49516843 //8 6//27 Fusion_MS2.12185.12185.4 −1 −0.01411924 JL021317_021517_BAF45D_D_(—) NP 18.147 0.58931268 3.00E−05 //15 41//98 Fusion_MS2.07182.07182.4 0 −0.32521165 JL021317_021517_BAF45D_D_(—) NP 17.2575 0.60189383 9.62E−04 1//15 39//125 Fusion_MS2.07276.07276.5 −2 8.49708682 JL021317_021517_BAF45D_5D_(—) N 17.0345 0.56203705 //8 9//27 Fusion_MS2.09521.09521.4 0 1.47267392 JL021317_021517_BAF45D_5D_(—) N 15.54975 0.49809408 1//7 8//20 Fusion_MS2.08007.08007.4 −2 5.43689149 JL021317_021517_BAF45D_5D_(—) N 14.69775 0.49603449 4//8 11//33 Fusion_MS2.09517.09517.5 0 3.00899601 JL021317_021517_BAF45D_85B_(—) N 12.06375 0.38699976 2//8 6//33 Fusion_MS2.12156.12156.5 0 1.63929339 JL021317_021517_BAF45D_D_(—) P 11.5655 0.38172487 2.13E−03 1//15 27//125 Fusion_MS2.07293.07293.6 −1 −3.36663515 JL021317_021517_BAF45D_D_(—) P 11.01975 0.44387046 6.87E−05 1//15 31//125 Fusion_MS2.06962.06962.5 −2 4.5898876 JL021317_021517_hBAF45D_(—) N 9.713 0.35386913 //8 5//27 Fusion_MS2.09884.09884.4 0 1.52371282 JL021317_021517_BAF45D_10D_(—) P 9.68225 0.38524052 2.36E−05 //15 25//114 Fusion_MS2.07893.07893.5 0 1.06015671 JL021317_021517_hBAF45D_(—) P 9.455 0.40107746 3.22E−02 //15 20//123 Fusion_MS2.08213.08213.5 0 −4.92016802 JL021317_021517_hBAF45D_(—) P 8.96975 0.36283195 4.43E−03 //15 29//125 Fusion_MS2.07385.07385.5 0 5.77376454 JL021317_021517_BAF45D_D_(—) N 8.03575 0.24810504 //8 6//26 Fusion_MS2.07341.07341.4 −1 −3.91365377 JL021317_021517_BAF45D_D_(—) NP 7.52825 0.28872078 7.87E−08 1//15 29//125 Fusion_MS2.07502.07502.5 −2 −3.67296558 JL021317_021517_BAF45D_D_(—) NP 6.61175 0.24775636 7.15E−05 1//15 28//125 Fusion_MS2.07653.07653.5 −1 −3.89989366 JL021317_021517_BAF45D_5D_(—) P 5.8675 0.21218313 6.82E−03 //15 20//123 Fusion_MS2.08211.08211.5 −2 4.48379019 JL021317_021517_hBAF45D_(—) NP 5.74925 0.2436381 3.40E−04 1//15 22//125 Fusion_MS2.07307.07307.6 −1 −5.99232451 JL021317_021517_BAF45D_D_(—) NP 5.33125 0.18394086 1.51E−05 1//15 20//125 Fusion_MS2.07116.07116.5 −1 −3.96217724 JL021317_021517_BAF45D_D_(—) NP 4.69225 0.1838692 2.97E−04 1//15 19//125 Fusion_MS2.07133.07133.6 −2 12.4630651 JL021317_021517_BAF45D_D_(—) N 4.32425 0.17700211 2//8 7//26 Fusion_MS2.07538.07538.6 25 SMARCE1:277- 10.32575 SMARCE1:305 −3 5.11270121 JL021317_021517_BAF45D_85B_(—) N 10.32575 0.32532806 //16 10//79 Fusion_MS2.19960.19960.4 0 9.01635234 JL021317_021517_BAF45D_70B_(—) N 9.703 0.26359327 2//16 12//104 Fusion_MS2.20699.20699.5 −3 2.63501121 JL021317_021517_BAF45D_70B_(—) P 9.54325 0.25925347 2.26E−02 //12 23//204 Fusion_MS2.20699.20699.5 −1 4.08656758 JL021317_021517_BAF45D_5D_(—) N 8.375 0.21138581 //16 12//104 Fusion_MS2.16753.16753.5 0 18.5167258 JL021317_021517_BAF45D_70B_(—) N 5.50325 0.10730407 2//16 9//79 Fusion_MS2.22168.22168.4 18 SMARCA2 1 SMARCA2:1445- 5.117 SMARCA2:1451 0 2.31631795 JL021317_021517_BAF45D_85B_(—) N 5.117 0.28036052 3//7 12//31 Fusion_MS2.08794.08794.4 0 2.10077099 JL021317_021517_BAF45D_85B_(—) N 3.5355 0.15962346 1//7 6//31 Fusion_MS2.08971.08971.4 2 SMARCA2:1445- 3.38525 SMARCA2:1445 −3 7.43587408 JL021317_021517_BAF45D_5D_(—) N 3.38525 0.12154205 //7 6//35 Fusion_MS2.09055.09055.5 3 SMARCA2:1445- 5.5045 SMARCA2:1460 0 0.79630717 JL021317_021517_BAF45D_5D_(—) N 5.5045 0.33019406 4//7 11//24 Fusion_MS2.07885.07885.4 −1 0.36007655 JL021317_021517_BAF45D_D_(—) N 5.34475 0.2488129 3//9 9//37 Fusion_MS2.07441.07441.4 0 −0.66625863 JL021317_021517_BAF45D_D_(—) NP 5.17725 0.23403173 1.73E−05 5//9 13//37 Fusion_MS2.04996.04996.4 0 −6.15645331 JL021317_021517_BAF45D_D_(—) NP 5.0945 0.24313941 2.61E−06 3//9 8//37 Fusion_MS2.04195.04195.4 0 0.97797015 JL021317_021517_BAF45D_D_(—) NP 4.96875 0.26364312 1.61E−05 5//9 10//37 Fusion_MS2.05152.05152.4 −1 5.08727966 JL021317_021517_BAF45D_D_(—) N 4.57775 0.28067997 4//7 10//24 Fusion_MS2.04306.04306.4 0 −1.45548845 JL021317_021517_hBAF45D_(—) NP 4.0585 0.1918323 2.10E−04 3//9 8//37 Fusion_MS2.05081.05081.4 −1 3.74027452 JL021317_021517_hBAF45D_(—) NP 3.751 0.17917791 4.69E−05 4//9 9//37 Fusion_MS2.05230.05230.4 −1 10.682629 JL021317_021517_BAF45D_D_(—) N 3.4965 0.16214524 1//7 8//33 Fusion_MS2.05330.05330.4 0 −4.08625451 JL021317_021517_hBAF45D_(—) P 2.83025 0.14380621 2.62E−03 2//9 5//37 Fusion_MS2.05240.05240.4 0 −0.06566387 JL021317_021517_hBAF45D_(—) P 2.66825 0.1236761 7.68E−04 //9 3//37 Fusion_MS2.04334.04334.4 −1 10.5144971 JL021317_021517_hBAF45D_(—) P 2.15775 0.1223457 1.53E−03 //9 3//37 Fusion_MS2.05068.05068.4 4 SMARCA2:1453- 2.73775 SMARCA2:1460 0 0.51738399 JL021317_021517_BAF45D_D_(—) N 2.73775 0.15067419 //4 4//17 Fusion_MS2.02675.02675.4 5 SMARCA2:500- 4.0125 SMARCA2:516 0 4.08586312 JL021317_021517_BAF45D_100B_(—) N 4.0125 0.18416946 2//7 7//23 Fusion_MS2.05020.05020.4 6 SMARCA2:500- 5.73725 SMARCA2:521 −1 5.36239431 JL021317_021517_BAF45D_70B_(—) N 5.73725 0.19383584 3//7 9//23 Fusion_MS2.08360.08360.4 0 4.83062076 JL021317_021517_BAF45D_70B_(—) N 5.355 0.1749514 3//7 8//23 Fusion_MS2.08363.08363.4 0 0.89445329 JL021317_021517_hBAF45D_(—) N 3.7425 0.11665602 2//7 7//23 Fusion_MS2.05040.05040.4 0 −0.69573749 JL021317_021517_BAF45D_100B_(—) P 2.58475 0.11753672 1.62E−02 //9 7//34 Fusion_MS2.05194.05194.4 7 SMARCA2:500- 3.11225 SMARCA2:940 0 0.30438563 JL021317_021517_BAF45D_D_(—) N 3.11225 0.15388134 2//7 7//27 Fusion_MS2.10403.10403.5 8 SMARCA2:1271- 9.362 SMARCA2:1286 −1 3.37046563 JL021317_021517_BAF45D_100B_(—) P 9.362 0.32067684 9.82E−03 //11 28//158 Fusion_MS2.13743.13743.5 0 −8.48065437 JL021317_021517_BAF45D_100B_(—) P 8.93775 0.29983394 2.34E−04 //11 25//117 Fusion_MS2.13700.13700.4 9 SMARCA2:1271- 7.87125 SMARCA2:1434 0 −2.19513566 JL021317_021517_BAF45D_5D_(—) P 7.87125 0.4723931 3.01E−03 //12 17//82 Fusion_MS2.10722.10722.5 10 SMARCA2:1302- 5.3475 SMARCA2:1323 −3 1.41906358 JL021317_021517_BAF45D_5D_(—) N 5.3475 0.1425924 //15 7//73 Fusion_MS2.16039.16039.4 −3 15.320632 JL021317_021517_BAF45D_10D_(—) N 3.29025 0.10089851 //15 6//73 Fusion_MS2.16070.16070.4 11 SMARCA2:1286- 11.86275 SMARCA2:1434 −2 10.6150401 JL021317_021517_BAF45D_70B_(—) N 11.86275 0.30099335 1//12 14//63 Fusion_MS2.18175.18175.4 −2 4.99647583 JL021317_021517_BAF45D_70B_(—) NP 10.98575 0.2594773 6.76E−13 1//11 21//114 Fusion_MS2.18137.18137.4 12 SMARCA2:1286- 13.01 SMARCA2:1302 −1 6.34794128 JL021317_021517_BAF45D_5D_(—) N 13.01 0.35098132 2//15 9//73 Fusion_MS2.19021.19021.4 −3 3.29652311 JL021317_021517_BAF45D_5D_(—) N 11.02175 0.29660652 2//15 8//73 Fusion_MS2.19048.19048.4 −2 12.2713615 JL021317_021517_BAF45D_100B_(—) N 10.0605 0.27528321 1//15 9//73 Fusion_MS2.19184.19184.4 −1 7.74505343 JL021317_021517_BAF45D_D_(—) N 9.6665 0.23654717 1//15 10//73 Fusion_MS2.18848.18848.4 0 14.1345975 JL021317_021517_BAF45D_85B_(—) N 8.26425 0.19550869 1//15 9//73 Fusion_MS2.18959.18959.4 −1 3.12234095 JL021317_021517_BAF45D_10D_(—) N 7.86075 0.24338948 1//15 7//73 Fusion_MS2.18624.18624.4 −2 7.16693922 JL021317_021517_BAF45D_5D_(—) N 7.8115 0.28419406 1//15 8//73 Fusion_MS2.18925.18925.4 −2 9.04233943 JL021317_021517_BAF45D_70B_(—) N 7.75875 0.16861899 1//15 8//73 Fusion_MS2.19749.19749.4 −2 8.77939549 JL021317_021517_BAF45D_5D_(—) N 7.563 0.19224708 1//15 7//73 Fusion_MS2.19582.19582.4 0 9.8544818 JL021317_021517_BAF45D_D_(—) N 7.4815 0.1810712 //15 8//73 Fusion_MS2.18615.18615.4 −3 14.002608 JL021317_021517_BAF45D_50B_(—) N 5.764 0.14946389 2//15 8//73 Fusion_MS2.19714.19714.4 −2 4.5890685 JL021317_021517_BAF45D_70B_(—) N 5.7095 0.12364113 //15 6//73 Fusion_MS2.17299.17299.4 −1 11.1435646 JL021317_021517_BAF45D_D_(—) N 5.67175 0.12591437 1//15 9//73 Fusion_MS2.18531.18531.4 13 SMARCA2:1207- 11.62375 SMARCA2:1434 −2 7.29309671 JL021317_021517_BAF45D_85B_(—) NP 11.62375 0.40295183 4.64E−10 1//17 25//91 Fusion_MS2.13674.13674.4 −2 5.85358414 JL021317_021517_BAF45D_100B_(—) N 7.64875 0.26574769 //12 14//80 Fusion_MS2.13023.13023.5 14 SMARCA2:460- 1.79875 SMARCA2:463 −3 17.5651275 JL021317_021517_BAF45D_85B_(—) P 1.79875 0.05920641 8.91E−02 //15 8//127 Fusion_MS2.14444.14444.5 −4 10.9923381 JL021317_021517_BAF45D_85B_(—) P 1.732 0.05629683 9.85E−04 //15 7//127 Fusion_MS2.14999.14999.5 15 SMARCA2:492- 9.21925 SMARCA2:521 −1 1.00443224 JL021317_021517_BAF45D_5D_(—) N 9.21925 0.38002638 //8 7//25 Fusion_MS2.05572.05572.4 −1 14.2186377 JL021317_021517_BAF45D_10D_(—) N 3.4035 0.17772846 1//9 11//35 Fusion_MS2.03367.03367.4 0 −1.53695743 JL021317_021517_BAF45D_5D_(—) NP 2.9135 0.19072401 1.62E−02 //10 7//51 Fusion_MS2.03282.03282.5 16 SMARCA2:492- 8.3645 SMARCA2:500 0 −1.82782492 JL021317_021517_BAF45D_D_(—) P 8.3645 0.29272091 1.12E−04 //17 19//116 Fusion_MS2.04799.04799.5 −1 −4.17489128 JL021317_021517_hBAF45D_(—) P 4.968 0.24497041 9.57E−02 //17 15//116 Fusion_MS2.04838.04838.5 −1 −0.72761554 JL021317_021517_BAF45D_D_(—) P 4.9455 0.15716964 7.60E−02 //17 13//116 Fusion_MS2.04817.04817.6 17 SMARCA2:1003- 6.509 SMARCA2:1323 −1 −1.02585656 JL021317_021517_BAF45D_70B_(—) NP 6.509 0.18282681 4.56E−08 //16 13//85 Fusion_MS2.19488.19488.4 18 SMARCA2:1110- 5.83625 SMARCA2:805 0 −2.93790304 JL021317_021517_BAF45D_70B_(—) NP 5.83625 0.17825237 1.34E−02 1//12 12//56 Fusion_MS2.08566.08566.4 −1 −0.69289813 JL021317_021517_BAF45D_70B_(—) NP 5.717 0.18179506 1.62E−02 1//12 11//56 Fusion_MS2.08557.08557.4 19 SMARCA2:837- 15.697 SMARCA2:862 −1 −0.21513587 JL021317_021517_BAF45D_D_(—) NP 15.697 0.52080292 7.42E−08 //13 39//143 Fusion_MS2.09481.09481.5 0 −0.10304808 JL021317_021517_BAF45D_D_(—) NP 14.9045 0.54111603 1.65E−07 //13 34//143 Fusion_MS2.09525.09525.6 0 −2.07603967 JL021317_021517_BAF45D_D_(—) NP 14.8905 0.49434789 2.54E−06 //13 36//143 Fusion_MS2.09542.09542.5 −1 −1.69257008 JL021317_021517_BAF45D_D_(—) NP 14.6965 0.58597317 8.59E−08 //13 33//143 Fusion_MS2.09495.09495.6 −1 1.67870034 JL021317_021517_BAF45D_D_(—) NP 13.782 0.47065654 1.52E−05 //11 39//157 Fusion_MS2.08977.08977.5 −1 −1.41275088 JL021317_021517_BAF45D_D_(—) NP 13.17325 0.37010789 1.37E−10 //13 35//108 Fusion_MS2.09489.09489.4 0 0.13781697 JL021317_021517_BAF45D_D_(—) N 12.91125 0.40472235 //9 9//44 Fusion_MS2.12252.12252.6 −1 0.52853744 JL021317_021517_BAF45D_D_(—) NP 11.82475 0.49817787 1.79E−05 //11 37//157 Fusion_MS2.08963.08963.6 −3 6.79670706 JL021317_021517_BAF45D_D_(—) N 11.45275 0.43025527 //9 9//44 Fusion_MS2.12862.12862.6 0 −2.4982781 JL021317_021517_BAF45D_D_(—) NP 11.28725 0.33681721 4.43E−07 1//13 34//108 Fusion_MS2.09491.09491.4 −1 7.56832563 JL021317_021517_BAF45D_10D_(—) N 11.17525 0.38045347 1//9 9//44 Fusion_MS2.12980.12980.6 −1 6.89626885 JL021317_021517_BAF45D_D_(—) N 10.81125 0.34085535 //9 11//55 Fusion_MS2.12199.12199.5 −2 −5.02668938 JL021317_021517_BAF45D_10D_(—) NP 10.667 0.36963754 1.11E−05 //13 16//143 Fusion_MS2.10260.10260.6 −2 3.07630969 JL021317_021517_BAF45D_D_(—) N 10.5505 0.37902357 //7 6//30 Fusion_MS2.10455.10455.6 −1 2.02095194 JL021317_021517_BAF45D_D_(—) N 10.448 0.3869773 //9 8//44 Fusion_MS2.12875.12875.6 0 8.23398181 JL021317_021517_BAF45D_D_(—) N 10.346 0.35444252 //9 11//55 Fusion_MS2.12202.12202.5 −3 16.1697187 JL021317_021517_BAF45D_D_(—) N 10.055 0.33815369 //7 5//30 Fusion_MS2.10523.10523.6 −2 6.84097252 JL021317_021517_BAF45D_D_(—) N 10.048 0.37891244 //9 9//44 Fusion_MS2.12868.12868.6 −2 3.44158197 JL021317_021517_BAF45D_D_(—) N 10.00125 0.32714293 //7 10//37 Fusion_MS2.08919.08919.5 −1 3.18656502 JL021317_021517_BAF45D_D_(—) N 9.7225 0.36617517 //7 4//30 Fusion_MS2.10368.10368.6 −1 1.56543341 JL021317_021517_BAF45D_D_(—) N 9.632 0.322518 //9 9//44 Fusion_MS2.11596.11596.6 −2 5.59621275 JL021317_021517_BAF45D_D_(—) N 9.44275 0.37920406 //7 5//30 Fusion_MS2.08918.08918.7 −1 4.33367493 JL021317_021517_BAF45D_D_(—) N 9.158 0.31045646 1//7 5//30 Fusion_MS2.08946.08946.6 −1 3.01725444 JL021317_021517_BAF45D_D_(—) N 9.13025 0.38800943 //7 5//30 Fusion_MS2.10483.10483.7 −1 0.38400127 JL021317_021517_BAF45D_D_(—) N 8.98275 0.40120369 //7 4//30 Fusion_MS2.08964.08964.7 −2 5.83240666 JL021317_021517_BAF45D_D_(—) N 8.2275 0.25432767 //9 8//44 Fusion_MS2.11579.11579.6 −2 4.78220936 JL021317_021517_BAF45D_D_(—) N 7.70425 0.38930999 //7 5//30 Fusion_MS2.09694.09694.7 −1 −3.4475693 JL021317_021517_BAF45D_D_(—) NP 7.48825 0.27953748 8.78E−06 //11 21//157 Fusion_MS2.09683.09683.6 −2 10.8262868 JL021317_021517_BAF45D_10D_(—) N 7.25425 0.23410246 //9 8//55 Fusion_MS2.12984.12984.5 −1 4.8573634 JL021317_021517_BAF45D_D_(—) N 7.215 0.20070379 //7 9//37 Fusion_MS2.10458.10458.5 −2 15.1114333 JL021317_021517_BAF45D_D_(—) N 6.6825 0.2088575 //7 8//37 Fusion_MS2.08947.08947.5 −2 1.92034855 JL021317_021517_BAF45D_D_(—) N 4.1085 0.11752675 //9 9//55 Fusion_MS2.11617.11617.5 20 SMARCA2:472- 9.93475 SMARCA2:478 0 0.18235785 JL021317_021517_BAF45D_85B_(—) N 9.93475 0.26974613 //10 9//35 Fusion_MS2.08649.08649.4 21 SMARCA2:1183- 15.81525 SMARCA2:1191 0 −5.72566499 JL021317_021517_BAF45D_70B_(—) NP 15.81525 0.49232649 2.28E−11 //18 31//93 Fusion_MS2.15156.15156.4 0 −4.54279353 JL021317_021517_BAF45D_D_(—) NP 11.4035 0.3684134 1.55E−07 //18 20//93 Fusion_MS2.15163.15163.4 22 SMARCA2:1183- 10.073 SMARCA2:805 −1 3.12601909 JL021317_021517_BAF45D_70B_(—) N 10.073 0.2832478 //12 9//48 Fusion_MS2.15187.15187.4 23 SMARCA2:822- 12.23125 SMARCA2:846 −1 6.0966241 JL021317_021517_BAF45D_D_(—) NP 12.23125 0.43743183 6.37E−15 1//16 26//123 Fusion_MS2.18573.18573.5 0 −4.6461718 JL021317_021517_BAF45D_D_(—) NP 11.21125 0.36382444 1.64E−11 //16 22//95 Fusion_MS2.18611.18611.4 −1 8.37170318 JL021317_021517_BAF45D_10D_(—) N 8.486 0.29696249 1//11 8//73 Fusion_MS2.18435.18435.5 24 SMARCA2:672- 11.888 SMARCA2:682 −3 1.73686819 JL021317_021517_BAF45D_50B_(—) N 11.888 0.34933882 //18 19//93 Fusion_MS2.20853.20853.4 −2 0.16094734 JL021317_021517_BAF45D_50B_(—) N 11.80775 0.37173372 //18 8//93 Fusion_MS2.22769.22769.4 0 9.03614758 JL021317_021517_BAF45D_50B_(—) N 11.70925 0.37313778 //18 9//93 Fusion_MS2.22787.22787.4 −1 10.0443371 JL021317_021517_BAF45D_50B_(—) N 10.71175 0.29778022 //18 20//93 Fusion_MS2.20870.20870.4 −2 4.64655389 JL021317_021517_BAF45D_50B_(—) N 9.956 0.29841441 1//18 8//93 Fusion_MS2.22548.22548.4 −1 16.0317696 JL021317_021517_BAF45D_50B_(—) N 7.99325 0.25408468 //18 7//93 Fusion_MS2.22544.22544.4 −2 8.94270389 JL021317_021517_BAF45D_70B_(—) N 7.258 0.18936548 //18 16//93 Fusion_MS2.20727.20727.4 0 3.18721196 JL021317_021517_BAF45D_50B_(—) N 7.12925 0.21801654 //18 7//93 Fusion_MS2.22572.22572.4 −2 4.88778496 JL021317_021517_BAF45D_D_(—) N 5.721 0.15685146 //18 10//93 Fusion_MS2.18537.18537.4 −1 4.96375942 JL021317_021517_BAF45D_50B_(—) NP 5.656 0.15694109 2.34E−03 //10 13//121 Fusion_MS2.18994.18994.4 −2 11.9224645 JL021317_021517_BAF45D_50B_(—) N 4.904 0.14709941 //18 7//93 Fusion_MS2.18986.18986.4 −1 −5.65801194 JL021317_021517_BAF45D_70B_(—) P 4.557 0.11792563 2.47E−02 //10 11//121 Fusion_MS2.19191.19191.4 0 9.83207129 JL021317_021517_BAF45D_50B_(—) P 4.19475 0.13240168 2.48E−02 //10 7//121 Fusion_MS2.18471.18471.4 −2 −5.21543813 JL021317_021517_BAF45D_50B_(—) NP 4.02525 0.12324898 1.30E−06 //10 6//121 Fusion_MS2.22426.22426.4 0 −1.01098696 JL021317_021517_BAF45D_50B_(—) P 3.52925 0.1144467 3.68E−03 //10 7//121 Fusion_MS2.22537.22537.4 0 −1.67484768 JL021317_021517_BAF45D_50B_(—) P 2.54675 0.0780613 2.35E−02 //10 10//121 Fusion_MS2.22350.22350.4 25 SMARCA2:493- 2.7175 SMARCA2:500 0 1.04676879 JL021317_021517_BAF45D_100B_(—) N 2.7175 0.13542134 1//7 6//23 Fusion_MS2.03157.03157.4 26 SMARCA2:493- 5.27275 SMARCA2:521 0 −0.44440431 JL021317_021517_BAF45D_100B_(—) NP 5.27275 0.21941451 1.05E−06 1//10 15//44 Fusion_MS2.03718.03718.4 −1 4.47661032 JL021317_021517_BAF45D_5D_(—) N 3.57725 0.16780027 1//10 11//43 Fusion_MS2.03287.03287.4 27 SMARCA2:1434- 6.132 SMARCA2:940 −2 1.3541529 JL021317_021517_BAF45D_10D_(—) P 6.132 0.27521824 5.39E−08 //12 16//84 Fusion_MS2.14691.14691.5 28 SMARCA2:1434- 8.257 SMARCA2:862 0 10.1628719 JL021317_021517_BAF45D_D_(—) N 8.257 0.28258526 //12 14//63 Fusion_MS2.12949.12949.6 29 SMARCA2:1434- 12.1095 SMARCA2:857 −1 6.41824666 JL021317_021517_BAF45D_5D_(—) N 12.1095 0.36941733 //12 13//63 Fusion_MS2.13519.13519.6 −1 0.65091753 JL021317_021517_BAF45D_5D_(—) N 11.7665 0.34278182 //12 15//80 Fusion_MS2.13535.13535.5 −2 3.19799937 JL021317_021517_BAF45D_5D_(—) N 8.779 0.37275757 //12 11//63 Fusion_MS2.13436.13436.6 0 11.5966761 JL021317_021517_BAF45D_5D_(—) N 8.43425 0.25185888 //12 16//80 Fusion_MS2.13553.13553.5 −3 6.85480281 JL021317_021517_BAF45D_5D_(—) N 7.168 0.20124374 //12 14//80 Fusion_MS2.13512.13512.5 30 SMARCA2:1434- 7.04475 SMARCA2:1445 −3 9.78421369 JL021317_021517_BAF45D_100B_(—) NP 7.04475 0.24043105 1.70E−08 2//12 18//69 Fusion_MS2.12436.12436.4 31 SMARCA2:1434- 8.88075 SMARCA2:1450 0 −1.27528908 JL021317_021517_BAF45D_100B_(—) NP 8.88075 0.34075474 2.63E−10 //12 21//69 Fusion_MS2.12723.12723.4 32 SMARCA2:1434- 12.6205 SMARCA2:846 0 −5.88144541 JL021317_021517_BAF45D_100B_(—) NP 12.6205 0.55045251 7.68E−13 //12 23//83 Fusion_MS2.14896.14896.5 −1 −3.85770818 JL021317_021517_BAF45D_100B_(—) NP 10.88525 0.43209154 3.92E−19 1//12 21//66 Fusion_MS2.14900.14900.4 −1 11.3277472 JL021317_021517_BAF45D_100B_(—) P 3.19725 0.09830584 3.36E−04 1//12 10//66 Fusion_MS2.14940.14940.4 33 SMARCA2:1450- 4.91725 SMARCA2:1460 0 2.7691531 JL021317_021517_BAF45D_D_(—) N 4.91725 0.20548904 3//7 8//24 Fusion_MS2.04451.04451.4 34 SMARCA2:1323- 7.272 SMARCA2:805 −1 3.70335098 JL021317_021517_BAF45D_70B_(—) P 7.272 0.204923 3.34E−06 //16 22//86 Fusion_MS2.14352.14352.4 35 SMARCA2:1101- 6.36725 SMARCA2:1460 −1 5.29799696 JL021317_021517_BAF45D_D_(—) N 6.36725 0.2577521 //9 6//36 Fusion_MS2.03829.03829.4 36 SMARCA2:1101- 7.49825 SMARCA2:805 0 −2.7770669 JL021317_021517_BAF45D_70B_(—) P 7.49825 0.26398571 8.02E−05 //12 13//51 Fusion_MS2.07124.07124.4 37 SMARCA2:1101- 7.8365 SMARCA2:1302 0 −0.66838599 JL021317_021517_BAF45D_70B_(—) NP 7.8365 0.23110043 2.05E−08 //15 19//74 Fusion_MS2.10695.10695.4 38 SMARCA2:1051- 4.4995 SMARCA2:1061 0 0.79357407 JL021317_021517_BAF45D_85B_(—) N 4.4995 0.22041246 1//8 11//29 Fusion_MS2.13624.13624.4 39 SMARCA2:1051- 4.65025 SMARCA2:1271 0 0.34647628 JL021317_021517_BAF45D_10D_(—) P 4.65025 0.33739026 9.14E−05 //12 16//54 Fusion_MS2.08810.08810.4 40 SMARCA2:1191- 13.9205 SMARCA2:1207 0 −5.17258952 JL021317_021517_BAF45D_85B_(—) NP 13.9205 0.39821212 5.89E−15 //17 31//92 Fusion_MS2.09697.09697.4 0 −1.63011817 JL021317_021517_hBAF45D_(—) NP 11.332 0.30714189 7.33E−12 //17 27//92 Fusion_MS2.10117.10117.4 −3 10.3273199 JL021317_021517_BAF45D_85B_(—) N 11.1925 0.30207954 //8 7//36 Fusion_MS2.08731.08731.4 −1 1.99473624 JL021317_021517_hBAF45D_(—) NP 10.9005 0.30598324 3.74E−12 //17 28//92 Fusion_MS2.10094.10094.4 0 −2.18643336 JL021317_021517_BAF45D_100B_(—) NP 10.30375 0.2634489 1.42E−11 //16 25//97 Fusion_MS2.09096.09096.4 −1 3.77142406 JL021317_021517_BAF45D_70B_(—) N 9.6365 0.20847621 //16 17//80 Fusion_MS2.13436.13436.4 −2 −3.89286119 JL021317_021517_BAF45D_100B_(—) NP 9.57375 0.2610999 3.00E−04 //16 31//129 Fusion_MS2.09104.09104.5 0 2.36097766 JL021317_021517_BAF45D_85B_(—) NP 9.20175 0.28136897 3.20E−09 1//17 32//121 Fusion_MS2.09699.09699.5 −2 10.5080719 JL021317_021517_BAF45D_70B_(—) N 9.1945 0.22044667 //16 15//80 Fusion_MS2.13474.13474.4 0 0.91760233 JL021317_021517_BAF45D_85B_(—) N 7.93625 0.25593789 //8 6//45 Fusion_MS2.08634.08634.5 0 2.6657288 JL021317_021517_BAF45D_100B_(—) NP 5.985 0.14160988 2.06E−06 //16 14//97 Fusion_MS2.09144.09144.4 −1 2.33875818 JL021317_021517_BAF45D_85B_(—) N 5.79725 0.155262 //8 7//36 Fusion_MS2.08657.08657.4 −2 3.54020715 JL021317_021517_BAF45D_100B_(—) N 4.91575 0.18392106 //8 7//36 Fusion_MS2.08112.08112.4 −2 −0.31669311 JL021317_021517_BAF45D_100B_(—) NP 4.90775 0.1592598 2.18E−04 //16 19//129 Fusion_MS2.09115.09115.6 0 0.66156539 JL021317_021517_BAF45D_100B_(—) NP 4.83025 0.1468228 1.11E−05 //16 18//129 Fusion_MS2.09121.09121.6 −1 1.96965815 JL021317_021517_hBAF45D_(—) NP 3.95425 0.14994975 3.89E−04 //17 17//121 Fusion_MS2.10109.10109.5 41 SMARCA2:1191- 4.4555 SMARCA2:1434 −2 −0.65549067 JL021317_021517_BAF45D_70B_(—) NP 4.4555 0.15558272 5.69E−06 //12 16//69 Fusion_MS2.13490.13490.4 42 SMARCA2:1451- 3.997 SMARCA2:1460 0 1.24269636 JL021317_021517_BAF45D_D_(—) N 3.997 0.21142555 //6 7//28 Fusion_MS2.04974.04974.4 −1 5.84260574 JL021317_021517_BAF45D_D_(—) N 3.6275 0.18768108 //6 7//28 Fusion_MS2.04904.04904.4 0 2.24567429 JL021317_021517_hBAF45D_(—) N 3.38425 0.18007556 3//7 8//24 Fusion_MS2.05239.05239.4 −1 16.7143062 JL021317_021517_BAF45D_100B_(—) N 3.3685 0.16674092 2//7 6//24 Fusion_MS2.05990.05990.4 0 1.30273315 JL021317_021517_BAF45D_10D_(—) N 3.11175 0.14831983 4//7 8//24 Fusion_MS2.05040.05040.4 −1 9.61007085 JL021317_021517_BAF45D_5D_(—) N 2.88225 0.17105341 1//7 6//24 Fusion_MS2.05802.05802.4 43 SMARCA2:516- 3.99125 SMARCA2:940 −1 −2.6756465 JL021317_021517_BAF45D_10D_(—) NP 3.99125 0.14870806 2.11E−04 //13 10//66 Fusion_MS2.11439.11439.4 0 −3.52755557 JL021317_021517_BAF45D_10D_(—) NP 3.68875 0.16221773 2.18E−08 1//13 12//82 Fusion_MS2.11427.11427.5 44 SMARCA2:521- 4.6925 SMARCA2:940 −2 −1.60128 JL021317_021517_BAF45D_10D_(—) NP 4.6925 0.18361637 9.54E−05 //13 12//66 Fusion_MS2.11038.11038.4 −1 1.88014869 JL021317_021517_BAF45D_10D_(—) N 4.148 0.17558415 //8 8//27 Fusion_MS2.11018.11018.4 0 −1.31167466 JL021317_021517_BAF45D_10D_(—) NP 3.65 0.14980197 1.95E−02 //13 9//82 Fusion_MS2.11023.11023.5 45 SMARCA2:770- 16.5905 SMARCA2:846 −3 0.31511057 JL021317_021517_BAF45D_D_(—) NP 16.5905 0.4409611 8.01E−12 2//16 33//123 Fusion_MS2.18061.18061.5 −1 −0.20412938 JL021317_021517_BAF45D_D_(—) NP 14.61425 0.39674363 2.95E−12 //16 29//94 Fusion_MS2.18084.18084.4 −1 −0.83935914 JL021317_021517_BAF45D_D_(—) NP 12.48075 0.40616203 5.42E−11 3//16 27//123 Fusion_MS2.18048.18048.6 −1 10.6749833 JL021317_021517_BAF45D_D_(—) NP 12.19475 0.34364961 9.60E−09 1//16 21//94 Fusion_MS2.18047.18047.4 −1 3.86263029 JL021317_021517_BAF45D_10D_(—) N 9.951 0.33196557 //11 10//73 Fusion_MS2.17939.17939.5 −2 16.2120125 JL021317_021517_BAF45D_D_(—) N 8.65625 0.24527861 1//11 14//73 Fusion_MS2.18065.18065.5 −2 4.00406259 JL021317_021517_BAF45D_10D_(—) N 8.617 0.3000296 1//11 9//73 Fusion_MS2.17925.17925.5 −2 3.22352088 JL021317_021517_BAF45D_D_(—) N 8.2665 0.27933971 //11 9//73 Fusion_MS2.16461.16461.5 −2 2.18657542 JL021317_021517_BAF45D_5D_(—) N 7.461 0.33118786 //11 8//58 Fusion_MS2.17829.17829.6 0 9.44840248 JL021317_021517_BAF45D_5D_(—) N 6.9685 0.22741291 //11 9//73 Fusion_MS2.17824.17824.5 Total unique intra crosslinks are: 540 Total counted intra crosslinks are: 2348 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 8.5495 1.69565217 K.RPGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 7.0945 1.52173913 K.RPGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 6.61075 1.2826087 K.RPGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 4.7655 1.5 R.M[147.04]PTTQETDGFQVK[3001.56]R.P Q92925:289 1 SMARCD2 4.012 1.07692308 R.M[147.04]PTTQETDGFQVK[3001.53]R.P Q92925:289 1 SMARCD2 6.0685 1.69230769 R.MPTTQETDGFQVK[3001.54]R.P Q92925:289 1 SMARCD2 5.28525 1.2173913 K.RPGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 6.4315 1.96153846 R.MPTTQETDGFQVK[3001.5]R.P Q92925:289 1 SMARCD2 4.70725 1.42307692 R.MPTTQETDGFQVK[3001.53]R.P Q92925:289 1 SMARCD2 4.579 1.42307692 R.MPTTQETDGFQVK[3001.51]R.P Q92925:289 1 SMARCD2 4.312 1.46153846 R.MPTTQETDGFQVK[3001.51]R.P Q92925:289 1 SMARCD2 4.23075 0.89130435 K.RPGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 2.66575 1.15384615 R.MPTTQETDGFQVK[3001.53]R.P Q92925:289 1 SMARCD2 2.63975 0.76923077 R.MPTTQETDGFQVK[3001.52]R.P Q92925:289 1 SMARCD2 1.64675 0.34782609 K.RPGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 8.19725 1.15384615 K.LAGLLQHPDPIVINHVISVDPNDQK[2626.34]K.T Q92925:401 1 SMARCD2 5.3765 0.86538462 K.LAGLLQHPDPIVINHVISVDPNDQK[2626.34]K.T Q92925:401 1 SMARCD2 1.96225 0.75 R.MPTTQETDGFQVK[3125.72]RPGDLNVK.C Q92925:289 1 SMARCD2 6.1525 2.6 R.K[2075.15]MADK[284.17]VLPQR.I Q92925:139 1 SMARCD2 6.6525 1.7 K.IHETIESINQLK[1391.8]TQR.D Q92925:451 1 SMARCD2 8.539 4 R.MEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 7.69175 2.72222222 R.MEIQEAIK[1135.71]K.P Q92925:185 1 SMARCD2 8.09 2.85 K.RMEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 7.7 2.66666667 R.MEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 7.057 2.6 K.RMEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 6.31525 2.77777778 R.MEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 5.97 2.66666667 R.MEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 5.6125 2.11111111 R.MEIQEAIK[1135.71]K.P Q92925:185 1 SMARCD2 5.04525 2.45 K.RMEIQEAIK[1135.71]K.P Q92925:185 1 SMARCD2 1.1215 1.33333333 R.K[1922.08]LR.I Q92925:193 Q6STE5:156 Q96GM5:181 3 SMARCD2 7.92075 3.1 K.RMEIQEAIK[1135.71]K.P Q92925:185 1 SMARCD2 4.202 2.33333333 R.MEIQEAIK[1135.71]K.P Q92925:185 1 SMARCD2 1.4875 1.42857143 K.K[1526.85]PLTQKR.K Q92925:186 1 SMARCD2 13.92225 1.57894737 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDKVASWELR.V Q92925:206 1 SMARCD2 12.49825 1.38157895 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDKVASWELR.V Q92925:206 1 SMARCD2 11.62075 1.53947368 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDKVASWELR.V Q92925:206 1 SMARCD2 7.50825 1.24193548 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDK.V Q92925:206 1 SMARCD2 6.75 1.08064516 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDK.V Q92925:206 1 SMARCD2 5.3335 0.93548387 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDK.V Q92925:206 1 SMARCD2 5.249 0.9516129 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDK.V Q92925:206 1 SMARCD2 4.718 0.70967742 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDK.V Q92925:206 1 SMARCD2 2.609 0.85294118 R.DLK[1391.8]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.9715 0.89473684 R.IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK[2626.34]VASWELR.V Q92925:226 1 SMARCD2 4.9985 0.83333333 K.AEGDSAGTAGTPGGTPAGDK[2626.34]VASWELR.V Q92925:226 1 SMARCD2 2.8845 0.44736842 R.IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK[2626.34]VASWELR.V Q92925:226 1 SMARCD2 10.5775 1.82692308 K.LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 1 SMARCD2 6.05575 1.32692308 K.LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 1 SMARCD2 3.677 1.7 R.VEGK[4114.21]LLDDPSK.Q Q92925:237 Q6STE5:189 2 SMARCD2 3.14525 1.1 R.VEGK[4114.23]LLDDPSK.Q Q92925:237 Q6STE5:189 2 SMARCD2 4.08775 1.65 R.K[1209.71]RMEIQEAIK.K Q92925:176 1 SMARCD2 3.497 1.88888889 R.HIFAK[1209.71]VQQR.R Q92925:514 1 SMARCD2 5.6955 1.03225807 R.EWTEQETLLLLEALEMYK[1773.95]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 2 SMARCC2 4.028 0.72580645 R.EWTEQETLLLLEALEMYK[1773.95]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 2 SMARCC2 4.68675 0.88709677 R.EWTEQETLLLLEALEMYK[1773.95]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 2 SMARCC2 5.0205 1.42857143 R.VASAAAK[4029.99]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.985 1.21428571 R.VASAAAK[4013.91]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 3.06325 0.61290323 R.EWTEQETLLLLEALEMYK[1773.95]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 2 SMARCC2 4.2175 0.75806452 R.EWTEQETLLLLEALEMYK[1773.95]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 2 SMARCC2 1.177 0.58333333 K.DDWNK[3996.02]VSEHVGSR.T Q92922:644 Q8TAQ2:622 2 SMARCC2 2.6235 0.43548387 R.EWTEQETLLLLEALEMYK[1773.95]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 2 SMARCC2 1.69675 0.27419355 R.EWTEQETLLLLEALEMYK[1773.95]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 2 SMARCC2 8.64275 1.60869565 K.DMDEPSPVPNVEEVTLPK[1225.66]TVNTK.K Q8TAQ2:359 1 SMARCC2 1.90675 1.57142857 R.LWLGK[1553.84]NYK.K Q8TAQ2:33 1 SMARCC2 4.81375 2.5 K.AK[897.53]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 1.40125 1.4 R.KTK[1388.79]VER.D Q8TAQ2:848 1 SMARCC2 1.61 2.1 R.KTK[1388.76]VER.D Q8TAQ2:848 1 SMARCC2 1.1705 1.6 R.KTK[1388.77]VER.D Q8TAQ2:848 1 SMARCC2 18.101 2.43478261 R.DIGEGNLSTAAAAALAAAAVK[1025.62]AK.H Q8TAQ2:872 1 SMARCC2 14.557 2.13043478 R.DIGEGNLSTAAAAALAAAAVK[897.53]AK.H Q8TAQ2:872 1 SMARCC2 14.5555 2.47826087 R.DIGEGNLSTAAAAALAAAAVK[897.53]AK.H Q8TAQ2:872 1 SMARCC2 2.14525 1.22727273 K.E[111.03]K[2371.16]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 3.8715 1.68181818 K.E[111.03]K[2371.18]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 12.2595 2.92105263 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 1.71425 1 K.E[111.03]K[2371.21]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 4.01375 1.68181818 K.E[111.03]K[2371.2]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 0.979 0.72727273 K.E[111.03]K[2371.17]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 1.55875 0.84210526 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 2.7755 0.95454546 R.TDMYTKK[1848.94]NVPSK.S Q8TAQ2:585 1 SMARCC2 2.61075 1.78571429 R.K[1832.96]VEEAAK.V Q8TAQ2:718 1 SMARCC2 7.84925 2.13333333 K.MK[937.56]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 3.55625 1.66666667 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.5925 1.66666667 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.2 1.61111111 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.1515 1.55555556 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 11.20275 2.56666667 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 7.53475 1.09615385 K.TK[1773.95]VERDIGEGNLSTAAAAALAAAAVK.A Q8TAQ2:848 1 SMARCC2 6.38575 1.83333333 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 5.94875 1.9 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 12.2205 3.3 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 11.00675 3.06666667 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 5.15125 1.78571429 R.VASAAAK[1990.07]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 7.95825 2 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 3.869 1.64285714 R.VASAAAK[1990.05]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 6.61275 1.52173913 K.SALEEFSKMK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 5.3185 1.4 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4 1.5 R.VASAAAK[1990.03]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 6.61 1.73333333 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.59675 0.78571429 R.VASAAAK[1974.09]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.72025 0.96428571 R.VASAAAK[1974.02]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.05375 1.39285714 R.VASAAAK[1990.03]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 10.97725 2.8 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 9.89225 2.46666667 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 8.66875 2.13333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 8.30075 1.93333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 7.5105 2.03333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 7.29825 1.73333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 6.68125 2.03333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.381 1.23333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 3.91675 1 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 8.2275 2 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 5.69 1.26086957 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 5.75175 1.34782609 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 5.5875 1.30434783 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 6.65425 1.63043478 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 4.2155 0.86956522 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 6.43175 1.2826087 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 5.41775 1.23913044 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 6.36075 1.45652174 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 4.2875 1.67857143 R.VASAAAK[3021.57]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 3.6775 1.35714286 R.VASAAAK[3021.53]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.2955 0.71428571 R.VASAAAK[2881.49]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.844 1.07142857 R.VASAAAK[2881.49]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.09 0.53571429 R.VASAAAK[2881.51]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.8895 0.5 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 9.393 2.66666667 R.VASAAAK[1773.95]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 8.441 2.5 R.VASAAAK[1773.95]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 9.52825 2.36666667 R.VASAAAK[1039.59]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 5.29125 1.76666667 R.VASAAAK[1039.59]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 10.09425 2.63333333 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 6.0725 1.96666667 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.989 1.36363636 K.EK[1832.94]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 8.28575 2.45833333 K.EK[1039.59]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 4.45675 1.5 K.EK[1025.62]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 4.85125 0.77777778 K.E[111.03]PK[2703.3]EGQEEVLK[284.17]EVVESEGER.K Q8TAQ2:828 1 SMARCC2 2.489 0.80555556 K.E[111.03]PK[2703.28]EGQEEVLK[284.17]EVVESEGER.K Q8TAQ2:828 1 SMARCC2 2.19775 0.59375 K.EGQEEVLK[2547.23]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 3.7145 1.94444444 K.AK[2122.26]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.7365 1.83333333 K.AK[2122.28]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.67825 1.72222222 K.AK[2122.25]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 1.91425 1.66666667 K.AK[2122.26]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 8.678 2.13333333 R.K[1388.78]IKSLVALLVETQMK.K Q92922:891 Q8TAQ2:883 2 SMARCC2 2.37825 1.61111111 K.AK[2122.29]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.25275 1.61111111 K.AK[2122.26]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.01225 1.61111111 K.AK[2138.28]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.04225 1.16666667 K.AK[2122.29]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 7.17125 3.15 K.AK[1388.78]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 6.6295 3.94444444 K.AK[1388.77]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 3.36075 1.77777778 K.AK[2122.27]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.83125 1.72222222 K.AK[2122.26]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 9.16125 2.63333333 R.KIK[1388.78]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 2 SMARCC2 3.061 1.94444444 K.AK[2122.27]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 3.01075 1.66666667 K.AK[2138.23]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 9.88875 2.63333333 R.KIK[1388.78]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 2 SMARCC2 2.73375 1.61111111 K.AK[2138.27]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 8.0435 2.4 R.KIK[1388.78]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 2 SMARCC2 2.88725 1.61111111 K.AK[2138.26]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.857 1.66666667 K.AK[2122.27]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.525 1.16666667 K.AK[2122.29]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.0215 1.22222222 K.AK[2138.25]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.5945 1.61111111 K.AK[1982.18]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 2.71925 1.61111111 K.AK[1982.18]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 5.711 1.26666667 R.KIK[1388.78]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 2 SMARCC2 2.5645 1.44444444 K.AK[1982.2]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 1.127 0.875 R.KK[1225.64]DGGPNVK.Y Q8TAQ2:6 1 SMARCC2 3.5225 1.83333333 K.K[1207.69]DSESAPVK.G Q8TAQ2:365 1 SMARCC2 1.0995 1 R.TDMYTK[1024.59]K.N Q8TAQ2:584 1 SMARCC2 2.72275 1.83333333 R.TDMYTK[1424.8]K.N Q8TAQ2:584 1 SMARCC2 3.691 1.75 K.SK[1832.95]AAASATR.E Q8TAQ2:592 1 SMARCC2 1.0435 1 R.TDMYTK[1808.99]K.N Q8TAQ2:584 1 SMARCC2 1.047 1 R.TDMYTK[1808.99]K.N Q8TAQ2:584 1 SMARCC2 3.432 1.8125 K.SK[1832.98]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.63025 1.8125 K.SK[1848.96]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.093 1.75 K.SK[1832.96]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.74275 1.375 K.SK[1832.98]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.07825 1.5625 K.SK[1151.58]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.566 1.875 K.SK[1848.95]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.4055 1.875 K.SK[1848.94]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.2375 1.8125 K.SK[1167.58]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.7335 1.3125 K.SK[1151.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.20025 1.125 K.SK[1849]AAASATR.E Q8TAQ2:592 1 SMARCC2 5.90075 2.5 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 5.69125 2.25 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 5.24075 2.2 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 4.79975 1.75 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 1.0515 1 K.E[111.03]PK[1369.69]EPR.E Q8TAQ2:773 1 SMARCC2 16.24375 4.2 K.MK[1127.63]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 13.8795 4.1 K.MK[1127.63]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.8915 1.5625 K.SK[1990.04]AAASATR.E Q8TAQ2:592 1 SMARCC2 4.4025 1.83333333 K.SK[1025.62]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.59825 1.8125 K.SK[1181.7]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.46825 1.66666667 K.SK[1025.62]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.0145 1.55555556 K.SK[1039.59]AAASATR.E Q8TAQ2:592 1 SMARCC2 18.5385 2.30357143 K.SLSSLVVQLLQFQEEVFGK[1079.6]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 11.859 1.69642857 K.SLSSLVVQLLQFQEEVFGK[1207.69]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 11.07525 1.44642857 K.SLSSLVVQLLQFQEEVFGK[1079.6]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 8.69325 1.16071429 K.SLSSLVVQLLQFQEEVFGK[1207.69]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 7.405 1.17857143 K.SLSSLVVQLLQFQEEVFGK[1207.69]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 3.3145 0.71666667 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 2.06925 0.88461539 K.TVNTK[3728.77]KDSESAPVK.G Q8TAQ2:364 1 SMARCC2 3.17825 0.61666667 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 1.5705 0.84615385 K.TVNTK[3712.78]KDSESAPVK.G Q8TAQ2:364 1 SMARCC2 2.7135 0.51666667 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 3.87825 0.68333333 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 1.698 0.84615385 K.TVNTK[3712.77]KDSESAPVK.G Q8TAQ2:364 1 SMARCC2 2.1965 0.55 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 1.54675 0.35 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 8.46275 1.94736842 R.EGGGAIEEEAKEK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 6.3815 1.36842105 R.EGGGAIEEEAKEK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.902 1.3125 K.EK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.20725 0.63333333 K.E[111.03]GQEEVLK[2207.08]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 2.36575 1.91666667 K.NVPSK[1025.62]SK.A Q8TAQ2:590 1 SMARCC2 0.73725 1 R.KTK[1024.59]VER.D Q8TAQ2:848 1 SMARCC2 3.704 1.0625 K.ESEKSDGDPIVDPEK[2547.23]EK.E Q8TAQ2:823 1 SMARCC2 2.5725 0.78125 K.ESEKSDGDPIVDPEK[2547.29]EK.E Q8TAQ2:823 1 SMARCC2 2.18775 0.78125 K.ESEKSDGDPIVDPEK[2547.25]EK.E Q8TAQ2:823 1 SMARCC2 14.15575 1.53571429 K.WILDTDTFNEWMNEEDYEVNDDK[847.53]NPVSR.R Q8TAQ2:263 1 SMARCC2 13.8465 1.80357143 K.WILDTDTFNEWMNEEDYEVNDDK[847.53]NPVSR.R Q8TAQ2:263 1 SMARCC2 12.8415 1.53571429 K.WILDTDTFNEWMNEEDYEVNDDK[847.53]NPVSR.R Q8TAQ2:263 1 SMARCC2 12.588 1.41071429 K.WILDTDTFNEWMNEEDYEVNDDK[847.53]NPVSR.R Q8TAQ2:263 1 SMARCC2 7.56925 2.05882353 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.064 0.83333333 R.K[2211.08]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 1.51825 0.91666667 R.K[2211.11]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 1.51275 1.83333333 R.K[2211.08]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 6.68475 1.94117647 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.5215 1.83333333 R.K[2211.12]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 6.439 1.70588235 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 6.2535 1.61764706 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 0.978 0.66666667 R.K[2211.09]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 5.77175 1.44117647 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.08425 1.61764706 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.1065 1.58823529 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.17125 1.08333333 R.K[2211.09]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 0.907 1.08333333 R.K[2211.12]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 9.581 2.82352941 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 8.25425 2.52941177 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.1115 1 K.TK[2339.19]VER.D Q8TAQ2:848 1 SMARCC2 7.18725 2.14705882 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 7.32275 2.14705882 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 7.1705 2.11764706 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 0.9145 1 R.KTK[2211.07]VER.D Q8TAQ2:848 1 SMARCC2 6.7745 1.73529412 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 6.457 1.76470588 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.954 1.79411765 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.27225 1.91176471 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.16425 1.5 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.19275 1.1 R.KTK[2193.09]VER.D Q8TAQ2:848 1 SMARCC2 0.925 1.1 R.KTK[2193.07]VER.D Q8TAQ2:848 1 SMARCC2 0.94425 1 R.KTK[2193.09]VER.D Q8TAQ2:848 1 SMARCC2 0.94875 1 R.KTK[2193.06]VER.D Q8TAQ2:848 1 SMARCC2 10.037 4.09090909 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 9.471 3.59090909 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 2.5265 2.66666667 R.K[1580.89]TKVER.D Q8TAQ2:846 1 SMARCC2 2.753 2.25 R.K[1580.9]TKVER.D Q8TAQ2:846 1 SMARCC2 7.72175 3.40909091 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 3.8335 2.66666667 R.K[1424.82]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 1.66375 1.83333333 R.K[1580.92]TKVER.D Q8TAQ2:846 1 SMARCC2 4.0675 3 R.K[1424.83]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 6.9215 2.27272727 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 5.38075 2.40909091 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 5.35375 2.27272727 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 5.092 2.22727273 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 4.0785 1.86363636 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 4.073 1.6 K.VEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 0.94875 1.16666667 R.K[1424.82]TKVER.D Q8TAQ2:846 1 SMARCC2 2.884 0.84615385 R.VEGQATDEK[1424.82]KEPK.E Q8TAQ2:769 1 SMARCC2 1.58325 2.2 R.KTK[1580.9]VER.D Q8TAQ2:848 1 SMARCC2 1.62475 2.2 R.KTK[1580.91]VER.D Q8TAQ2:848 1 SMARCC2 1.72375 2.1 R.KTK[1424.81]VER.D Q8TAQ2:848 1 SMARCC2 6.493 3.5 R.KVEEAAK[897.53]VTGK.A Q8TAQ2:724 1 SMARCC2 1.6975 1.9 R.KTK[1424.84]VER.D Q8TAQ2:848 1 SMARCC2 5.932 2.63636364 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 5.21925 2.5 R.KVEEAAK[897.53]VTGK.A Q8TAQ2:724 1 SMARCC2 1.147 1.375 K.TK[1580.89]VER.D Q8TAQ2:848 1 SMARCC2 3.88625 1.81818182 R.KVEEAAK[897.53]VTGK.A Q8TAQ2:724 1 SMARCC2 3.40175 1.5 R.KVEEAAK[897.53]VTGK.A Q8TAQ2:724 1 SMARCC2 2.432 1.33333333 R.K[1025.63]TKVER.D Q8TAQ2:846 1 SMARCC2 2.13425 1.41666667 R.K[1025.62]TKVER.D Q8TAQ2:846 1 SMARCC2 1.88575 1.58333333 R.K[1181.71]TKVER.D Q8TAQ2:846 1 SMARCC2 1.52225 1.08333333 R.K[1181.7]TKVER.D Q8TAQ2:846 1 SMARCC2 1.5015 1 R.K[1181.67]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 4.65225 2.1 K.AK[1025.62]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 4.22975 1.65 K.AK[1025.62]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 4.07275 1.45 K.AK[1025.62]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 0.96725 1.25 K.K[2269.17]GGNYK.K Q8TAQ2:292 1 SMARCC2 5.07225 1.22222222 K.ISAK[931.51]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 4.305 0.83333333 K.ISAK[931.51]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 3.1055 1.27777778 K.ISAK[1174.63]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 1.1955 1 K.GGNYK[284.17]K[2269.16]R.K Q8TAQ2:298 1 SMARCC2 1.0695 1.08333333 K.GGNYK[284.17]K[2269.12]R.K Q8TAQ2:298 1 SMARCC2 6.07725 1.55555556 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 6.633 1.36111111 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 5.3945 1.30555556 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 2.259 1.88888889 R.K[2269.13]K[284.17]DGGPNVK.Y Q8TAQ2:5 1 SMARCC2 9.0265 1.88888889 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 6.449 1.58333333 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 4.018 0.94444444 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 5.0815 1.30555556 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 2.731 0.80555556 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 0.988 1.2 R.K[4170.02]VHAK.W Q8TAQ2:236 1 SMARCC2 10.66725 1.55882353 R.HQGTVTEDK[847.53]NNASHVVYPVPGNLEEEEWVRPVMK.R Q8TAQ2:171 1 SMARCC2 9.626 1.11764706 R.HQGTVTEDK[847.53]NNASHVVYPVPGNLEEEEWVRPVMK.R Q8TAQ2:171 1 SMARCC2 7.52125 0.85294118 R.HQGTVTEDK[847.53]NNASHVVYPVPGNLEEEEWVRPVMK.R Q8TAQ2:171 1 SMARCC2 3.9475 0.64705882 R.HQGTVTEDK[847.53]NNASHVVYPVPGNLEEEEWVRPVMK.R Q8TAQ2:171 1 SMARCC2 2.99175 0.47058824 R.HQGTVTEDK[847.53]NNASHVVYPVPGNLEEEEWVRPVMK.R Q8TAQ2:171 1 SMARCC2 6.5025 2 K.M[147.04]K[2049.05]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 9.44225 1.60869565 K.SALEEFSK[897.53]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 0.927 1 K.TK[2865.48]VER.D Q8TAQ2:848 1 SMARCC2 9.41425 1.63043478 K.SALEEFSK[1388.78]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 2.4885 1.38888889 K.AK[2865.48]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 10.3055 1.7826087 K.SALEEFSK[1025.62]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 9.61825 1.60869565 K.SALEEFSK[1025.62]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 11.49825 2.36956522 K.SALEEFSK[1039.59]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 10.91425 1.80434783 K.SALEEFSK[1039.59]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 10.034 1.7826087 K.SALEEFSK[1039.59]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 11.58025 1.69230769 K.SLVQNNC[160.03]LSRPNIFLC[160.03]PEIEPK[1150.74]LLGK.L Q8TAQ2:151 1 SMARCC2 11.331 1.69230769 K.SLVQNNC[160.03]LSRPNIFLC[160.03]PEIEPK[1150.74]LLGK.L Q8TAQ2:151 1 SMARCC2 10.86575 1.48076923 K.SLVQNNC[160.03]LSRPNIFLC[160.03]PEIEPK[1150.74]LLGK.L Q8TAQ2:151 1 SMARCC2 2.8475 1.66666667 K.LK[3304.75]DIIK[284.17]R.H Q92922:185 Q8TAQ2:157 2 SMARCC2 8.35075 1.23076923 K.SLVQNNC[160.03]LSRPNIFLC[160.03]PEIEPK[1150.74]LLGK.L Q8TAQ2:151 1 SMARCC2 8.312 2.09375 R.PNIFLC[160.03]PEIEPK[1150.74]LLGK.L Q8TAQ2:151 1 SMARCC2 6.35575 1.15384615 K.SLVQNNC[160.03]LSRPNIFLC[160.03]PEIEPK[994.64]LLGK.L Q8TAQ2:151 1 SMARCC2 5.7305 1.75 R.PNIFLC[160.03]PEIEPK[1150.74]LLGK.L Q8TAQ2:151 1 SMARCC2 5.4205 1.03846154 K.SLVQNNC[160.03]LSRPNIFLC[160.03]PEIEPK[1150.74]LLGK.L Q8TAQ2:151 1 SMARCC2 18.60375 2.35714286 K.SLSSLVVQLLQFQEEVFGK[1207.69]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 16.60425 2.26785714 K.SLSSLVVQLLQFQEEVFGK[1207.69]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 11.59425 2.41071429 K.SLSSLVVQLLQFQEEVFGK[1207.69]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 8.152 1.125 K.SLSSLVVQLLQFQEEVFGK[1207.69]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 5.822 0.89285714 K.SLSSLVVQLLQFQEEVFGK[1207.69]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 0.9505 0.55555556 R.K[3363.87]KDGGPNVK.Y Q8TAQ2:5 1 SMARCC2 5.72375 0.83928571 K.SLSSLVVQLLQFQEEVFGK[1207.69]HVSNAPLTK.L Q8TAQ2:66 1 SMARCC2 0.23375 0.08333333 K.DEEKGK[1025.58]EGDSEK.E Q8TAQ2:802 1 SMARCC2 4.3715 2.16666667 K.TSEAPK[1615.77]K.D Q8TAQ2:795 1 SMARCC2 2.37075 1.21428571 K.FK[1570.91]SDQGWR.R Q8TAQ2:101 1 SMARCC2 2.48825 1 K.FK[847.53]SDQGWR.R Q8TAQ2:101 1 SMARCC2 21.03525 1.98611111 K.VTGK[1025.62]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 17.71125 1.68055556 K.VTGK[1025.62]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 19.85675 2.06944444 K.VTGK[897.53]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 18.33525 1.86111111 K.VTGK[1025.62]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 17.54775 1.65277778 K.VTGK[897.53]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 16.38625 1.69444444 K.VTGK[897.53]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 15.7535 1.45833333 K.VTGK[897.53]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 15.37475 1.58333333 K.VTGK[1025.62]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 13.45 1.375 K.VTGK[1025.62]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 1.037 1 K.TK[3957.81]VER.D Q8TAQ2:848 1 SMARCC2 12.81125 1.48611111 K.VTGK[1025.62]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 10.4885 1.98076923 K.VTGK[897.53]ADPAFGLESSGIAGTTSDEPER.I Q8TAQ2:728 1 SMARCC2 8.125 0.875 K.VTGK[897.53]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 6.9195 0.77777778 K.VTGK[897.53]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 3.4185 1.59375 K.AGGSLC[160.03]HILAAAYK[1553.85]FK.S Q8TAQ2:99 1 SMARCC2 3.7555 1.78125 K.AGGSLC[160.03]HILAAAYK[1553.85]FK.S Q8TAQ2:99 1 SMARCC2 15.61 4.43333333 K.MK[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 13.46075 3.8 K.MK[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 12.206 3.43333333 K.MK[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 11.03475 3.06666667 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.3 1.25 K.TK[1990.06]VER.D Q8TAQ2:848 1 SMARCC2 10.9725 2.93333333 K.MK[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 10.4115 2.96666667 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 9.243 2.63333333 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 8.8925 2.56666667 K.MK[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 8.66525 2.4 K.MK[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 14.48925 3.9 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 3.8485 1.77777778 K.AK[1990.05]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 14.055 3.7 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 3.8315 1.77777778 K.AK[1990.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 13.36225 3.36666667 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 12.576 3.06666667 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 12.0605 3.3 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 3.66875 1.88888889 K.AK[1990.04]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 11.493 3.13333333 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 3.2955 1.66666667 K.AK[1990.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 9.766 2.73333333 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 9.396 2.56666667 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4.26875 1.72222222 K.AK[1990.04]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 3.05525 1.22222222 K.AK[1990.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 7.126 2.03333333 K.MK[1516.87]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 12.066 3.16666667 K.MK[1424.82]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 13.48075 3.36666667 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 11.90775 3.7 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.45075 1.83333333 R.K[1974.06]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 9.64975 2.7 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 7.359 2.33333333 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 6.938 2.13333333 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 7.97675 2.36666667 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 7.724 2.2 K.MK[1025.62]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 5.34925 1.67857143 K.MK[2122.25]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 7.27625 2.42857143 K.MK[2122.28]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 5.73475 1.89285714 K.MK[2122.26]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.9055 1 K.MK[1966.19]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 6.16775 2.68181818 R.K[1974.05]VEEAAK[284.17]VTGK.A Q8TAQ2:718 1 SMARCC2 6.37775 2.90909091 R.K[1974.05]VEEAAK[284.17]VTGK.A Q8TAQ2:718 1 SMARCC2 15.41725 4 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 12.71125 3.06666667 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 12.34925 3.26666667 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 11.565 3.4 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.15075 1 R.K[1990.06]VEEAAK.V Q8TAQ2:718 1 SMARCC2 11.256 3.3 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 10.64325 3.16666667 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.023 1.57142857 R.K[1990.05]VEEAAK.V Q8TAQ2:718 1 SMARCC2 1.609 1.07142857 R.K[1990.05]VEEAAK.V Q8TAQ2:718 1 SMARCC2 10.2675 2.93333333 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 10.10325 2.43333333 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 10.42275 3.4 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.05875 1.28571429 R.K[1990.05]VEEAAK.V Q8TAQ2:718 1 SMARCC2 5.7555 1.5 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 18.73875 1.72368421 R.DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEK[1545.86]PR.K Q8TAQ2:233 1 SMARCC2 16.99675 1.67105263 R.DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEK[1545.86]PR.K Q8TAQ2:233 1 SMARCC2 16.185 1.60526316 R.DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEK[1545.86]PR.K Q8TAQ2:233 1 SMARCC2 14.979 1.42105263 R.DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEK[1545.86]PR.K Q8TAQ2:233 1 SMARCC2 11.16275 1.07894737 R.DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEK[1545.86]PR.K Q8TAQ2:233 1 SMARCC2 11.8255 0.97368421 R.DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEK[1545.86]PR.K Q8TAQ2:233 1 SMARCC2 9.21725 0.81578947 R.DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEK[1545.86]PR.K Q8TAQ2:233 1 SMARCC2 4.4 2.15 K.AK[1039.59]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 3.243 2.07142857 R.K[1181.7]VEEAAK.V Q8TAQ2:718 1 SMARCC2 3.61175 2.07142857 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 2.066 1.14285714 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 1.74625 1.5 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 1.01775 0.92857143 R.K[1181.67]VEEAAK.V Q8TAQ2:718 1 SMARCC2 18.84 1.70833333 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 16.65625 1.73611111 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 17.45225 1.69444444 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 9.885 1.47222222 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 1.358 1.71428571 R.K[3957.8]VEEAAK.V Q8TAQ2:718 1 SMARCC2 7.03575 1.15277778 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 3.1235 2 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 2.2565 1.57142857 R.K[1181.71]VEEAAK.V Q8TAQ2:718 1 SMARCC2 2.70075 1.57142857 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 1.9255 1.5 R.K[1181.69]VEEAAK.V Q8TAQ2:718 1 SMARCC2 1.9765 1.78571429 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 5.4095 1.4 R.LLEDSALSK[284.17]YDATK[2231.16]QK.R Q96GM5:228 1 SMARCD1 5.07025 1.23333333 R.LLEDSALSK[284.17]YDATK[2231.15]QK.R Q96GM5:228 1 SMARCD1 4.2015 1.06666667 R.LLEDSALSK[284.17]YDATK[2231.17]QK.R Q96GM5:228 1 SMARCD1 2.597 0.63333333 R.LLEDSALSK[284.17]YDATK[2231.16]QK.R Q96GM5:228 1 SMARCD1 2.381 1.85714286 R.K[1430.77]FSSFFK.S Q92925:248 Q6STE5:200 Q96GM5:232 3 SMARCD1 8.45925 2.02941177 R.EFVIC[160.03]DK[1525.8]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 7.68825 1.76470588 R.EFVIC[160.03]DK[1525.8]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 7.336 1.76470588 R.EFVIC[160.03]DK[1525.8]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 7.04375 1.61764706 R.EFVIC[160.03]DK[1525.8]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 6.26125 1.5 R.EFVIC[160.03]DK[1525.8]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.23 0.94444444 K.THK[2468.2]LQDPHER.E Q96GM5:327 1 SMARCD1 4.597 0.91176471 R.EFVIC[160.03]DK[1525.8]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 4.4505 1.05882353 R.EFVIC[160.03]DK[1525.8]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 3.695 1.05882353 R.EFVIC[160.03]DK[1525.8]YLQQIFESQR.M Q96GM5:341 1 SMARCD1 1.41225 1.25 R.K[1483.78]LDQTIMR.K Q6STE5:131 Q96GM5:156 2 SMARCD1 2.2375 1.66666667 R.NHNAK[1480.84]K[284.17]K.K Q96GM5:124 1 SMARCD1 1.618 1.66666667 R.NHNAK[1464.86]K[284.17]K.K Q96GM5:124 1 SMARCD1 1.1035 0.83333333 R.NHNAK[1464.86]K[284.17]K.K Q96GM5:124 1 SMARCD1 3.8115 1.83333333 K.MADK[976.55]ILPQR.I Q6STE5:106 Q96GM5:131 2 SMARCD1 2.65925 1.44444444 K.MADK[976.55]ILPQR.I Q6STE5:106 Q96GM5:131 2 SMARCD1 2.059 1.45 K.KMADK[976.55]ILPQR.I Q6STE5:106 Q96GM5:131 2 SMARCD1 8.381 1.27777778 R.IFISNTFNPAK[3196.77]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 6.43 1.03703704 R.IFISNTFNPAK[3196.77]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 6.44575 1.03703704 R.IFISNTFNPAK[3196.77]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 13.97625 1.81481482 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 13.8415 2.01851852 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 13.2685 1.77777778 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 13.67975 2.03703704 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 12.25225 1.74074074 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 12.624 1.92592593 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 12.7835 1.94444444 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 12.399 1.83333333 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 2.2785 1 R.TATTQETDGFQVK[3219.55]R.P Q96GM5:273 1 SMARCD1 12.4795 1.87037037 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 11.7955 1.42592593 R.IFISNTFNPAK[1846.94]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 11.72675 1.46774194 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 2.144 0.75 R.TATTQETDGFQVK[3219.65]RPGDVNVR.C Q96GM5:273 1 SMARCD1 3.42275 0.975 R.TATTQETDGFQVK[3219.67]RPGDVNVR.C Q96GM5:273 1 SMARCD1 11.36375 1.43548387 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 9.80575 1.40740741 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 10.69475 1.37096774 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 10.88275 1.7037037 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 10.29275 1.14516129 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 8.893 1.11290323 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 2.51725 0.8 R.TATTQETDGFQVK[3660.87]RPGDVNVR.C Q96GM5:273 1 SMARCD1 9.36075 1.19354839 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 10.30775 1.55555556 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 1.692 0.525 R.TATTQETDGFQVK[3219.53]RPGDVNVR.C Q96GM5:273 1 SMARCD1 9.85475 1.59259259 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 2.19075 1.075 R.TATTQETDGFQVK[3660.77]RPGDVNVR.C Q96GM5:273 1 SMARCD1 9.65575 1.35483871 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 8.70125 1.14516129 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 9.4815 1.51851852 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 1.7465 0.525 R.TATTQETDGFQVK[3660.73]RPGDVNVR.C Q96GM5:273 1 SMARCD1 8.81875 0.98387097 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 1.41875 0.575 R.TATTQETDGFQVK[3660.75]RPGDVNVR.C Q96GM5:273 1 SMARCD1 8.297 1.48148148 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 7.6565 0.93548387 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 7.32075 0.82258065 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 7.406 1.31481482 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 11.514 1.71153846 R.LHALLMPPEPIIINHVISVDPNDQK[2584.32]K.T Q96GM5:385 1 SMARCD1 8.075 1.13461539 R.LHALLMPPEPIIINHVISVDPNDQK[2584.32]K.T Q96GM5:385 1 SMARCD1 6.03675 0.78846154 R.LHALLMPPEPIIINHVISVDPNDQK[2584.32]K.T Q96GM5:385 1 SMARCD1 3.51625 0.48076923 R.LHALLMPPEPIIINHVISVDPNDQK[2584.32]K.T Q96GM5:385 1 SMARCD1 2.341 1.91666667 R.NHNAK[284.17]K[1464.85]K.K Q96GM5:125 1 SMARCD1 1.96475 1.33333333 R.NHNAK[284.17]K[1480.84]K.K Q96GM5:125 1 SMARCD1 2.29075 2.41666667 R.NHNAK[284.17]K[1336.74]K.K Q96GM5:125 1 SMARCD1 1.9775 1.16666667 R.NHNAK[284.17]K[1464.82]K.K Q96GM5:125 1 SMARCD1 1.414 1.58333333 R.NHNAK[284.17]K[1480.84]K.K Q96GM5:125 1 SMARCD1 2.5615 1.8 R.K[1260.71]MADK.V Q92925:139 Q6STE5:102 Q96GM5:127 3 SMARCD1 18.36525 3.86842105 R.K[1400.75]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 13.44375 2.23684211 R.K[1689.02]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 12.252 2.13157895 R.K[1689.02]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 13.98625 2.65789474 R.K[1336.75]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 13.3425 2.42105263 R.K[1269.71]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 13.136 2.39473684 R.K[1269.71]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 11.591 2.18421053 R.K[1269.71]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 12.42975 2.13157895 R.K[1483.78]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 0.8545 0.40476191 R.TATTQETDGFQVK[2510.38]RPGDVNVR.C Q96GM5:273 1 SMARCD1 0.78725 0.33333333 R.TATTQETDGFQVK[2510.38]RPGDVNVR.C Q96GM5:273 1 SMARCD1 2.65725 1.3125 R.M[147.04]K[1480.89]FSEIPQR.L Q96GM5:353 1 SMARCD1 2.764 1.3125 R.M[147.04]K[1464.9]FSEIPQR.L Q96GM5:353 1 SMARCD1 2.4285 1.3125 K.MADK[1416.7]ILPQR.I Q6STE5:106 Q96GM5:131 2 SMARCD1 2.3075 1.3125 K.MADK[1416.71]ILPQR.I Q6STE5:106 Q96GM5:131 2 SMARCD1 4.877 1.32142857 R.VASAAAK[4029.97]AALEEFSR.V Q92922:716 1 SMARCC1 4.6505 1.28571429 R.VASAAAK[4029.99]AALEEFSR.V Q92922:716 1 SMARCC1 3.813 0.9 R.VREEVPLELVEAHVK[4013.98]K.V Q92922:739 1 SMARCC1 4.2425 1.26666667 R.VREEVPLELVEAHVK[4013.99]K.V Q92922:739 1 SMARCC1 3.43 0.86666667 R.VREEVPLELVEAHVK[4013.93]K.V Q92922:739 1 SMARCC1 1.1455 1.125 R.KK[1216.68]SGK.K Q92922:342 1 SMARCC1 5.07125 1.6 K.KGQASLYGK[812.51]R.R Q92922:354 1 SMARCC1 12.12875 2 K.KK[998.55]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 11.797 3.5 R.VREEVPLELVEAHVK[998.55]K.V Q92922:739 1 SMARCC1 2.623 1.57142857 K.K[998.55]VQEAAR.A Q92922:740 1 SMARCC1 2.677 1.57142857 K.K[998.55]VQEAAR.A Q92922:740 1 SMARCC1 2.549 1.71428571 K.SK[1688.95]GASAGR.E Q92922:615 1 SMARCC1 1.17425 1.21428571 R.TDIYSK[998.55]K.T Q92922:608 1 SMARCC1 2.8795 2.35714286 R.TDIYSK[1066.61]K.T Q92922:608 1 SMARCC1 4.05825 3.25 R.TDIYSK[1567.88]K.T Q92922:608 1 SMARCC1 3.70725 3.83333333 R.TDIYSK[1567.88]K.T Q92922:608 1 SMARCC1 3.32575 3.41666667 R.TDIYSK[1567.9]K.T Q92922:608 1 SMARCC1 2.523 3.33333333 R.TDIYSK[1567.89]K.T Q92922:608 1 SMARCC1 2.52825 2.14285714 R.TDIYSK[912.56]K.T Q92922:608 1 SMARCC1 0.86475 1 R.TDIYSK[912.56]K.T Q92922:608 1 SMARCC1 10.67775 2.65625 R.VREEVPLELVEAHVK[1119.62]K.V Q92922:739 1 SMARCC1 11.86625 2.8125 R.VREEVPLELVEAHVK[1119.62]K.V Q92922:739 1 SMARCC1 12.91625 2.26086957 K.DMEDPTPVPNIEEVVLPK[1282.68]NVNLK.K Q92922:387 1 SMARCC1 1.04 0.91666667 K.LK[284.17]DIIK[3304.84]R.H Q92922:189 Q8TAQ2:161 2 SMARCC1 8.17875 1.171875 R.NVEMFMNIEK[1958.04]TLVQNNC[160.03]LTRPNIYLIPDIDLK.L Q92922:157 1 SMARCC1 7.62325 1.015625 R.NVEMFMNIEK[1958.04]TLVQNNC[160.03]LTRPNIYLIPDIDLK.L Q92922:157 1 SMARCC1 1.81725 0.66666667 K.AGGALC[160.03]HILGAAYK[4114.22]YK.N Q92922:127 1 SMARCC1 4.4605 1.375 K.AGGALC[160.03]HILGAAYK[1521.77]YK.N Q92922:127 1 SMARCC1 6.332 1.5 R.K[1879.91]HSPSPPPPTPTESR.K Q92922:326 1 SMARCC1 4.49675 1 R.K[1879.92]HSPSPPPPTPTESR.K Q92922:326 1 SMARCC1 4.26625 0.93333333 R.K[1879.98]HSPSPPPPTPTESR.K Q92922:326 1 SMARCC1 14.47125 1.93103448 K.WILDTDIFNEWMNEEDYEVDENRK[982.56]PVSFR.Q Q92922:292 1 SMARCC1 12.60775 1.5862069 K.WILDTDIFNEWMNEEDYEVDENRK[982.56]PVSFR.Q Q92922:292 1 SMARCC1 8.9475 1.13793103 K.WILDTDIFNEWMNEEDYEVDENRK[982.56]PVSFR.Q Q92922:292 1 SMARCC1 0.7505 0.88888889 R.DRK[998.59]ASANAR.K Q92922:317 1 SMARCC1 1.792 1.66666667 R.K[1906.98]PVSFR.Q Q92922:292 1 SMARCC1 1.879 1.5 R.HQGTFTDEK[998.55]SK.A Q92922:199 1 SMARCC1 2.052 1 R.HQGTFTDEK[1244.69]SK.A Q92922:199 1 SMARCC1 4.64175 1.59090909 R.HQGTFTDEK[980.6]SK.A Q92922:199 1 SMARCC1 2.75875 1.91666667 R.K[1542.79]PVSFR.Q Q92922:292 1 SMARCC1 4.83325 2.13636364 R.HQGTFTDEK[1282.68]SK.A Q92922:199 1 SMARCC1 12.606 1.63513514 K.QVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEK[1542.77]PWK.V Q92922:261 1 SMARCC1 0.92075 0.85 R.HQGTFTDEK[4674.16]SK.A Q92922:199 1 SMARCC1 5.7465 0.55128205 K.EKQVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEK[1542.77]PWK.V Q92922:261 1 SMARCC1 6.33875 1.90909091 R.HQGTFTDEK[1253.68]SK.A Q92922:199 1 SMARCC1 4.528 2.54545455 R.HQGTFTDEK[982.56]SK.A Q92922:199 1 SMARCC1 3.40175 1.5 R.HQGTFTDEK[982.56]SK.A Q92922:199 1 SMARCC1 4.5515 1.68181818 R.HQGTFTDEK[1253.68]SK.A Q92922:199 1 SMARCC1 2.37725 1.45454546 R.HQGTFTDEK[982.56]SK.A Q92922:199 1 SMARCC1 1.81525 0.875 K.RHQGTFTDEK[982.56]SK.A Q92922:199 1 SMARCC1 1.657 0.90909091 R.HQGTFTDEK[982.56]SK.A Q92922:199 1 SMARCC1 3.14225 1.13636364 R.HQGTFTDEK[1253.68]SK.A Q92922:199 1 SMARCC1 2.34625 1 R.HQGTFTDEK[1253.68]SK.A Q92922:199 1 SMARCC1 4.77575 1.68181818 R.HQGTFTDEK[1542.77]SK.A Q92922:199 1 SMARCC1 3.90825 1.95 R.HQGTFTDEK[1542.79]SK.A Q92922:199 1 SMARCC1 3.39225 2.36363636 R.HQGTFTDEK[1066.61]SK.A Q92922:199 1 SMARCC1 2.7085 1.81818182 R.HQGTFTDEK[1066.61]SK.A Q92922:199 1 SMARCC1 3.902 0.96428571 R.ISTK[1542.77]NEEPVRSPER.R Q92922:303 1 SMARCC1 3.23 0.89285714 R.ISTK[1542.77]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.4515 1.6 R.HQGTFTDEK[3283.62]SK.A Q92922:199 1 SMARCC1 5.18275 2 K.K[812.51]GQASLYGK.R Q92922:346 1 SMARCC1 4.6405 1.88888889 K.K[812.51]GQASLYGK.R Q92922:346 1 SMARCC1 4.23575 1.83333333 K.K[812.51]GQASLYGK.R Q92922:346 1 SMARCC1 2.65975 1 K.K[812.51]GQASLYGK.R Q92922:346 1 SMARCC1 3.5525 1.66666667 K.AK[2140.22]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC1 15.68725 2.34 K.K[2140.23]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 14.7705 2.16 K.K[2140.23]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 2.56975 1 R.VREEVPLELVEAHVK[2675.41]K.V Q92922:739 1 SMARCC1 2.1175 0.76666667 R.VREEVPLELVEAHVK[2675.41]K.V Q92922:739 1 SMARCC1 5.108 1.42857143 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 4.58725 1.39285714 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 3.8335 1.42857143 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 4.192 1.03571429 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 3.26925 1.55 R.ISTK[982.56]NEEPVR.S Q92922:303 1 SMARCC1 4.88075 1.75 R.ISTK[1253.68]NEEPVR.S Q92922:303 1 SMARCC1 2.75025 1.10714286 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.40425 1.92857143 R.K[1437.76]ASANAR.K Q92922:317 1 SMARCC1 2.755 0.96428571 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 3.854 1.03571429 R.ISTK[1253.68]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.269 1.1875 R.DRK[1907.01]ASANAR.K Q92922:317 1 SMARCC1 1.4085 1.71428571 R.K[1906.98]ASANAR.K Q92922:317 1 SMARCC1 2.70475 1.35 R.ISTK[1253.68]NEEPVR.S Q92922:303 1 SMARCC1 1.99075 1.1875 R.DRK[1907]ASANAR.K Q92922:317 1 SMARCC1 2.87225 0.82142857 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.21775 1.07142857 R.ISTK[1253.68]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.4735 0.75 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 1.9865 0.64285714 R.ISTK[1253.68]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.50075 0.96428571 R.ISTK[1253.68]NEEPVRSPER.R Q92922:303 1 SMARCC1 3.58725 1.25 R.ISTK[1253.68]NEEPVR.S Q92922:303 1 SMARCC1 2.07175 0.46428571 R.ISTK[1253.68]NEEPVRSPER.R Q92922:303 1 SMARCC1 1.20475 1.57142857 R.K[1437.75]ASANAR.K Q92922:317 1 SMARCC1 4.2675 1.07142857 R.ISTK[1038.57]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.9445 1.45 R.ISTK[1038.57]NEEPVR.S Q92922:303 1 SMARCC1 3.44075 0.85714286 R.ISTK[1194.67]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.39425 1 K.E[111.03]K[2292.2]PVDLQNFGLR.T Q92922:592 1 SMARCC1 2.0785 0.95454546 K.E[111.03]K[2308.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 11.45725 2.69444444 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 1.63225 0.95454546 K.E[111.03]K[2292.19]PVDLQNFGLR.T Q92922:592 1 SMARCC1 1.75975 0.90909091 K.E[111.03]K[2292.21]PVDLQNFGLR.T Q92922:592 1 SMARCC1 3.18325 0.95454546 K.E[111.03]K[2292.19]PVDLQNFGLR.T Q92922:592 1 SMARCC1 1.38625 0.90909091 K.E[111.03]K[2292.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 3.913 1.45454546 K.E[111.03]K[2292.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 1.439 1.04545455 K.E[111.03]K[2308.21]PVDLQNFGLR.T Q92922:592 1 SMARCC1 1.48025 0.72727273 K.E[111.03]K[2308.19]PVDLQNFGLR.T Q92922:592 1 SMARCC1 6.1125 1.33333333 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 4.9985 1.22222222 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 5.2555 1.13888889 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 6.76475 1.22222222 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 6.10625 1.30555556 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 3.78775 0.77777778 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 1.609 0.77272727 K.E[111.03]K[2705.39]PVDLQNFGLR.T Q92922:592 1 SMARCC1 2.27775 0.55555556 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 6.8075 2.54166667 K.EK[1066.61]PVDLQNFGLR.T Q92922:592 1 SMARCC1 3.8025 1.54545455 K.EK[1785.93]PVDLQNFGLR.T Q92922:592 1 SMARCC1 5.50175 1.59375 R.VREEVPLELVEAHVK[1680.92]K.V Q92922:739 1 SMARCC1 2.6435 1.28571429 R.VWLGK[1923.01]HYK.K Q92922:61 1 SMARCC1 2.30225 1.57142857 K.SK[1688.96]GASAGR.E Q92922:615 1 SMARCC1 2.4185 1.85714286 K.SK[1688.96]GASAGR.E Q92922:615 1 SMARCC1 2.594 1.78571429 K.SK[1688.97]GASAGR.E Q92922:615 1 SMARCC1 2.075 1.64285714 K.SK[1688.94]GASAGR.E Q92922:615 1 SMARCC1 18.9495 2.76 K.K[1029.53]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 17.6655 3.04 K.K[1314.68]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 15.9625 2.92 K.K[1314.68]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 15.068 2.32 K.K[1314.68]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 14.5005 2.24 K.K[1029.53]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 14.22475 2.42 K.K[1314.68]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 10.70575 1.98 K.K[1314.68]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 5.46125 1.9375 R.VREEVPLELVEAHVK[1785.96]K.V Q92922:739 1 SMARCC1 5.067 1.71875 R.VREEVPLELVEAHVK[1785.96]K.V Q92922:739 1 SMARCC1 7.2285 2.375 R.VREEVPLELVEAHVK[1785.96]K.V Q92922:739 1 SMARCC1 1.63675 0.625 R.VASAAAK[2695.47]AALEEFSRVR.E Q92922:716 1 SMARCC1 3.70175 1.125 R.VASAAAK[2695.51]AALEEFSRVR.E Q92922:716 1 SMARCC1 3.4445 0.9375 R.VASAAAK[2695.5]AALEEFSRVR.E Q92922:716 1 SMARCC1 3.41 0.96875 R.VASAAAK[2695.49]AALEEFSRVR.E Q92922:716 1 SMARCC1 1.621 0.59375 R.VASAAAK[2695.48]AALEEFSRVR.E Q92922:716 1 SMARCC1 1.533 0.5625 R.VASAAAK[2695.5]AALEEFSRVR.E Q92922:716 1 SMARCC1 1.85325 0.5625 R.VASAAAK[2695.46]AALEEFSRVR.E Q92922:716 1 SMARCC1 1.66575 0.5625 R.VASAAAK[2695.49]AALEEFSRVR.E Q92922:716 1 SMARCC1 3.1465 0.9375 R.VASAAAK[2695.5]AALEEFSRVR.E Q92922:716 1 SMARCC1 2.9835 1.34375 R.VASAAAK[2695.5]AALEEFSRVR.E Q92922:716 1 SMARCC1 1.02 0.53125 R.VASAAAK[2695.51]AALEEFSRVR.E Q92922:716 1 SMARCC1 0.684 0.34375 R.VREEVPLELVEAHVK[1785.96]K.V Q92922:739 1 SMARCC1 0.90925 0.91666667 R.ESDTGK[1785.97]K.K Q92922:854 1 SMARCC1 6.66275 2.2 R.VASAAAK[1314.68]AALEEFSR.V Q92922:716 1 SMARCC1 6.4445 1.76666667 R.VASAAAK[1314.68]AALEEFSR.V Q92922:716 1 SMARCC1 11.87775 3.7 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 1 SMARCC1 9.6005 2.66666667 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 1 SMARCC1 9.44 2.8 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 1 SMARCC1 8.87425 2.53333333 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 1 SMARCC1 8.4075 2.32142857 R.VASAAAK[1785.95]AALEEFSR.V Q92922:716 1 SMARCC1 8.12875 2.23333333 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 1 SMARCC1 7.956 2.4 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 1 SMARCC1 7.78075 2.25 R.VASAAAK[1785.97]AALEEFSR.V Q92922:716 1 SMARCC1 6.24675 1.76666667 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 1 SMARCC1 3.4685 1.10714286 R.VASAAAK[1785.95]AALEEFSR.V Q92922:716 1 SMARCC1 19.75625 2.74 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 13.757 2.16 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 13.6095 2.2 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 11.07325 1.9 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 11.885 1.72 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 11.5505 1.84 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 10.47975 1.6 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 9.66075 1.34 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 9.89375 1.82 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 10.64975 1.8 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 5.088 1.67857143 R.VASAAAK[2675.46]AALEEFSR.V Q92922:716 1 SMARCC1 9.428 1.38 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 9.60025 1.62 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 8.50875 1.52 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 9.4545 1.62 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 9.00525 1.46 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 8.35 1.64 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 6.261 0.96 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 3.32325 1.14285714 R.VASAAAK[2675.44]AALEEFSR.V Q92922:716 1 SMARCC1 4.21625 0.62 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 2.7755 1.32142857 R.VASAAAK[2675.43]AALEEFSR.V Q92922:716 1 SMARCC1 2.4325 1.5 K.AK[1785.97]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC1 1.95575 1.66666667 K.AK[1786]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC1 7.15725 2.3 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 6.64575 2.4 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 5.99425 2.06666667 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 5.502 2 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 5.87525 1.67857143 R.VASAAAK[2803.46]AALEEFSR.V Q92922:716 1 SMARCC1 5.34775 1.71428571 R.VASAAAK[2803.46]AALEEFSR.V Q92922:716 1 SMARCC1 4.16975 1.35714286 R.VASAAAK[2959.53]AALEEFSR.V Q92922:716 1 SMARCC1 9.62325 2.07692308 K.K[1785.96]KVEHEISEGNVATAAAAALASAATK.A Q92922:855 1 SMARCC1 8.51625 1.36538462 K.K[1785.96]KVEHEISEGNVATAAAAALASAATK.A Q92922:855 1 SMARCC1 3.87925 1.21428571 R.VASAAAK[2959.59]AALEEFSR.V Q92922:716 1 SMARCC1 6.75775 1.17307692 K.K[1785.96]KVEHEISEGNVATAAAAALASAATK.A Q92922:855 1 SMARCC1 4.07775 1.25 R.VASAAAK[2959.57]AALEEFSR.V Q92922:716 1 SMARCC1 8.16075 2.4 R.VASAAAK[1157.63]AALEEFSR.V Q92922:716 1 SMARCC1 7.9825 2.23333333 R.VASAAAK[1157.63]AALEEFSR.V Q92922:716 1 SMARCC1 2.086 1.5625 K.YK[982.56]NEQGWR.R Q92922:129 1 SMARCC1 1.11275 0.75 K.YK[2140.19]NEQGWRR.F Q92922:129 1 SMARCC1 1.8235 1.42857143 R.K[4931.34]ASANAR.K Q92922:317 1 SMARCC1 1.871 1.42857143 R.K[4931.35]ASANAR.K Q92922:317 1 SMARCC1 7.862 1.08974359 K.EK[982.56]QVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWK.V Q92922:227 1 SMARCC1 0.9275 0.5625 R.K[2803.48]DGGPATK.F Q92922:34 1 SMARCC1 6.1985 1.14 K.K[1194.67]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 19.17175 2.84 K.K[1066.61]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 18.5825 3.36 K.K[1066.61]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 18.64325 2.64 K.K[1066.61]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 16.639 2.86 K.K[1066.61]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 13.3675 1.9 K.K[1066.61]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 12.774 2.52 K.K[1066.61]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 5.791 1.2 K.K[1066.61]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 19.4805 2 R.ASGK[1066.61]VDPTYGLESSC[160.03]IAGTGPDEPEKLEGAEEEK.M Q92922:750 1 SMARCC1 13.22325 1.54411765 R.ASGK[1066.61]VDPTYGLESSC[160.03]IAGTGPDEPEKLEGAEEEK.M Q92922:750 1 SMARCC1 4.12975 2.42857143 K.K[1066.61]VQEAAR.A Q92922:740 1 SMARCC1 3.36375 1.92857143 K.K[1066.61]VQEAAR.A Q92922:740 1 SMARCC1 1.2025 1.22222222 R.DRK[951.61]ASANAR.K Q92922:317 1 SMARCC1 1.21375 0.92857143 K.K[1282.65]VQEAAR.A Q92922:740 1 SMARCC1 1.96 1.57142857 R.K[1528.89]ASANAR.K Q92922:317 1 SMARCC1 0.18775 0.16666667 R.DRK[1216.68]ASANAR.K Q92922:317 1 SMARCC1 0.208 0.27777778 R.DRK[1216.68]ASANAR.K Q92922:317 1 SMARCC1 1.09475 1.21428571 R.K[1528.86]ASANAR.K Q92922:317 1 SMARCC1 6.38975 3.22222222 K.GQASLYGK[982.56]R.R Q92922:354 1 SMARCC1 4.35425 2.5 K.GQASLYGK[982.56]R.R Q92922:354 1 SMARCC1 1.5005 0.88888889 R.DRK[1244.69]ASANAR.K Q92922:317 1 SMARCC1 1.51325 1.28571429 R.K[2955.45]ASANAR.K Q92922:317 1 SMARCC1 1.72125 1.35714286 R.K[2955.49]ASANAR.K Q92922:317 1 SMARCC1 1.564 1.28571429 R.K[2955.49]ASANAR.K Q92922:317 1 SMARCC1 13.22425 2.11363636 K.DGGPATK[982.56]FWESPETVSQLDSVR.V Q92922:41 1 SMARCC1 1.293 1.14285714 R.K[2955.5]ASANAR.K Q92922:317 1 SMARCC1 1.28 1.21428571 R.K[2955.42]ASANAR.K Q92922:317 1 SMARCC1 1.301 1.21428571 R.K[2955.44]ASANAR.K Q92922:317 1 SMARCC1 21.67625 2.57142857 K.TLAGLVVQLLQFQEDAFGK[982.56]HVTNPAFTK.L Q92922:94 1 SMARCC1 19.66225 2.30357143 K.TLAGLVVQLLQFQEDAFGK[982.56]HVTNPAFTK.L Q92922:94 1 SMARCC1 18.67125 2.25 K.TLAGLVVQLLQFQEDAFGK[982.56]HVTNPAFTK.L Q92922:94 1 SMARCC1 18.19975 2.16071429 K.TLAGLVVQLLQFQEDAFGK[982.56]HVTNPAFTK.L Q92922:94 1 SMARCC1 15.67575 1.83928571 K.TLAGLVVQLLQFQEDAFGK[982.56]HVTNPAFTK.L Q92922:94 1 SMARCC1 15.47875 1.875 K.TLAGLVVQLLQFQEDAFGK[982.56]HVTNPAFTK.L Q92922:94 1 SMARCC1 8.7235 1.109375 K.TLAGLVVQLLQFQEDAFGK[982.56]HVTNPAFTKLPAK.C Q92922:94 1 SMARCC1 1.37225 1 R.K[3747]ASANAR.K Q92922:317 1 SMARCC1 5.573 0.875 K.TLAGLVVQLLQFQEDAFGK[982.56]HVTNPAFTKLPAK.C Q92922:94 1 SMARCC1 9.1345 2.43333333 R.K[982.56]HSPSPPPPTPTESR.K Q92922:326 1 SMARCC1 8.7275 2.43333333 R.K[982.56]HSPSPPPPTPTESR.K Q92922:326 1 SMARCC1 9.384 2.2 R.K[1253.68]HSPSPPPPTPTESR.K Q92922:326 1 SMARCC1 5.90925 1.6 R.K[1253.68]HSPSPPPPTPTESR.K Q92922:326 1 SMARCC1 1.2085 1.14285714 R.K[2955.48]ASANAR.K Q92922:317 1 SMARCC1 4.42025 1.72222222 R.DRK[1194.67]ASANAR.K Q92922:317 1 SMARCC1 2.289 1.5 R.K[982.56]DGGPATK.F Q92922:34 1 SMARCC1 0.8425 0.5 R.RK[982.56]DGGPATK.F Q92922:34 1 SMARCC1 0.93525 0.66666667 R.RK[982.56]DGGPATK.F Q92922:34 1 SMARCC1 2.8175 1.5 K.K[982.56]VQEAAR.A Q92922:740 1 SMARCC1 1.67825 1.22222222 R.DRK[982.56]ASANAR.K Q92922:317 1 SMARCC1 13.4175 1.72 K.SK[982.56]ASHHIYPYSSSQDDEEWLRPVMR.K Q92922:201 1 SMARCC1 9.325 1.28 K.SK[982.56]ASHHIYPYSSSQDDEEWLRPVMR.K Q92922:201 1 SMARCC1 8.03375 1.425 R.EK[2019.04]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 6.9265 1.13793103 R.DDGSTLMEIDGDKGK[2795.41]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 6.7515 1.06896552 R.DDGSTLMEIDGDKGK[2795.41]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 5.162 1.2 R.EK[2019.04]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 6.31125 1.01724138 R.DDGSTLMEIDGDKGK[2795.41]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 4.9905 0.79310345 R.DDGSTLMEIDGDKGK[2795.41]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 2.4485 0.39655172 R.DDGSTLMEIDGDKGK[2795.41]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 6.48575 2.5 K.Q[111.03]EYEEGGK[2795.41]QC[160.03]VER.K O96019:421 1 ACTL6A 6.48275 2.45454546 K.Q[111.03]EYEEGGK[2795.4]QC[160.03]VER.K O96019:421 1 ACTL6A 11.8285 1.925 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 5.53825 2.04545455 K.Q[111.03]EYEEGGK[2795.38]QC[160.03]VER.K O96019:421 1 ACTL6A 5.79 2.18181818 K.Q[111.03]EYEEGGK[2811.38]QC[160.03]VER.K O96019:421 1 ACTL6A 6.5315 2.27272727 K.Q[111.03]EYEEGGK[2795.4]QC[160.03]VER.K O96019:421 1 ACTL6A 11.54175 1.925 R.EK[2004.96]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 3.6235 1.41666667 K.QEYEEGGK[2795.35]QC[160.03]VER.K O96019:421 1 ACTL6A 6.69625 2.27272727 K.Q[111.03]EYEEGGK[2795.4]QC[160.03]VER.K O96019:421 1 ACTL6A 9.5375 1.65 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 6.87775 2.77272727 K.Q[111.03]EYEEGGK[2795.38]QC[160.03]VER.K O96019:421 1 ACTL6A 7.26925 1.725 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 4.7105 1.77272727 K.Q[111.03]EYEEGGK[2795.42]QC[160.03]VER.K O96019:421 1 ACTL6A 9.215 1.675 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.97725 1.33333333 K.QEYEEGGK[2811.39]QC[160.03]VER.K O96019:421 1 ACTL6A 6.29625 1.375 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 6.02575 1.4 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 3.9445 0.97619048 K.REK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 5.45775 2.13636364 K.Q[111.03]EYEEGGK[2795.41]QC[160.03]VER.K O96019:421 1 ACTL6A 4.651 1.45454546 K.Q[111.03]EYEEGGK[2951.49]QC[160.03]VER.K O96019:421 1 ACTL6A 7.8585 1.275 R.EK[2004.96]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 3.88025 1.72727273 K.Q[111.03]EYEEGGK[2795.45]QC[160.03]VER.K O96019:421 1 ACTL6A 7.1135 1.475 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 3.01125 0.61904762 K.REK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 5.20675 1.95454546 K.Q[111.03]EYEEGGK[2795.42]QC[160.03]VER.K O96019:421 1 ACTL6A 4.8565 1.68181818 K.Q[111.03]EYEEGGK[2795.41]QC[160.03]VER.K O96019:421 1 ACTL6A 2.5925 1.18181818 K.Q[111.03]EYEEGGK[2795.4]QC[160.03]VER.K O96019:421 1 ACTL6A 2.242 1.29166667 K.QEYEEGGK[2811.43]QC[160.03]VER.K O96019:421 1 ACTL6A 4.6615 0.925 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 3.63925 1.31818182 K.Q[111.03]EYEEGGK[2951.48]QC[160.03]VER.K O96019:421 1 ACTL6A 1.661 0.77272727 K.Q[111.03]EYEEGGK[2795.38]QC[160.03]VER.K O96019:421 1 ACTL6A 2.008 1.04166667 K.QEYEEGGK[2811.42]QC[160.03]VER.K O96019:421 1 ACTL6A 3.79975 0.925 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.268 1.09090909 K.Q[111.03]EYEEGGK[2795.45]QC[160.03]VER.K O96019:421 1 ACTL6A 1.268 0.35714286 K.REK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.17725 1.04166667 K.QEYEEGGK[2811.43]QC[160.03]VER.K O96019:421 1 ACTL6A 3.90575 1.46428571 R.DDGSTLMEIDGDK[2795.35]GK.Q O96019:60 1 ACTL6A 2.94 0.69642857 K.VDFPTAIGMVVERDDGSTLMEIDGDK[2795.41]GK.Q O96019:60 1 ACTL6A 7.4635 1.20689655 R.DDGSTLMEIDGDK[2795.41]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 9.03975 1.5 R.EK[1845.87]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 4.047 1 R.EK[3395.68]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 8.16275 1.4 R.EK[1845.87]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.138 0.55357143 K.VDFPTAIGMVVERDDGSTLMEIDGDK[2795.41]GK.Q O96019:60 1 ACTL6A 7.518 1.325 R.EK[1845.87]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 3.44675 1.075 R.EK[1845.87]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 3.79 0.775 R.EK[1845.87]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 4.895 1.21052632 R.EK[3395.68]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.7385 0.85714286 R.DDGSTLMEIDGDK[2795.45]GK.Q O96019:60 1 ACTL6A 4.0645 0.63793103 R.DDGSTLMEIDGDK[2795.41]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 1.821 0.45 R.EK[1845.87]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 10.063 1.81578947 R.E[111.03]K[2951.5]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 8.291 1.68421053 R.E[111.03]K[2951.49]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 8.03325 1.73684211 R.E[111.03]K[2951.52]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 4.6375 0.68421053 R.E[111.03]K[2951.48]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 4.57525 0.60526316 R.E[111.03]K[2951.55]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.84925 0.60526316 R.E[111.03]K[2951.56]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.25125 0.55263158 R.EK[2951.55]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 3.093 0.86842105 R.E[111.03]K[2967.52]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.17825 0.71052632 R.E[111.03]K[2951.51]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.93325 0.63157895 R.E[111.03]K[2951.55]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 5.42425 2.08333333 R.LK[1538.81]LIANNTTVER.R O96019:379 1 ACTL6A 1.081 0.53846154 R.LK[1538.81]LIANNTTVERR.F O96019:379 1 ACTL6A 10.277 1.71428571 R.ENMEAISPLK[4833.36]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 14.8795 1.23255814 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 14.6565 1.20930233 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 8.04075 1.32142857 R.ENMEAISPLK[4833.42]NGM[147.04]VEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 11.88225 0.88372093 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 10.42225 0.90697674 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 12.19625 1.02325581 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 12.743 1 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 4.63925 0.76785714 R.ENMEAISPLK[4833.42]NGM[147.04]VEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 7.2905 1.08928571 R.ENMEAISPLK[4833.47]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 7.5025 1.28571429 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 7.46825 1.23214286 R.ENMEAISPLK[4833.43]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 10.04925 0.8372093 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 5.80425 0.91071429 R.ENMEAISPLK[4833.43]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 6.60525 1.14285714 R.ENMEAISPLK[4833.54]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 6.97075 0.89285714 R.ENMEAISPLK[4849.36]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 3.7185 0.73214286 R.ENMEAISPLK[4833.39]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 4.10175 0.69642857 R.ENMEAISPLK[4833.4]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 4.42775 0.58928571 R.ENMEAISPLK[4849.44]NGMVEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 3.2105 0.64285714 R.ENM[147.04]EAISPLK[4833.39]NGM[147.04]VEDWDSFQAILDHTYK.M O96019:89 1 ACTL6A 7.70625 0.60465116 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 5.09425 0.47674419 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 1 ACTL6A 2.16175 0.37878788 R.ENMEAISPLKNGMVEDWDSFQAILDHTYK[2785.4]MHVK.S O96019:108 1 ACTL6A 3.0765 0.36363636 R.ENMEAISPLKNGMVEDWDSFQAILDHTYK[2785.4]MHVK.S O96019:108 1 ACTL6A 2.57275 0.39393939 R.ENMEAISPLKNGMVEDWDSFQAILDHTYK[2785.4]MHVK.S O96019:108 1 ACTL6A 1.08225 0.24242424 R.ENMEAISPLKNGMVEDWDSFQAILDHTYK[2785.4]MHVK.S O96019:108 1 ACTL6A 8.875 5.3125 R.EGSPANWK[1519.9]R.K O96019:238 1 ACTL6A 4.864 2.05555556 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 7.0475 4 R.EGSPANWK[1519.92]R.K O96019:238 1 ACTL6A 4.896 1.94444444 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 5.573 4.3125 R.EGSPANWK[1519.91]R.K O96019:238 1 ACTL6A 3.94825 1.61111111 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 5.57775 2.8125 R.EGSPANWK[1519.89]R.K O96019:238 1 ACTL6A 4.52325 2.875 R.EGSPANWK[1363.79]R.K O96019:238 1 ACTL6A 3.38625 1.27777778 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 3.13025 1.66666667 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 4.6365 1.72222222 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 4.9495 2.26923077 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.615 1.69230769 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 2.8765 1.11111111 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 3.43325 1.38888889 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 3.63225 2.5 R.E[111.03]GSPANWK[1363.83]R.K O96019:238 1 ACTL6A 3.616 2.57142857 R.E[111.03]GSPANWK[1363.8]R.K O96019:238 1 ACTL6A 3.79725 2.21428571 R.E[111.03]GSPANWK[1363.81]R.K O96019:238 1 ACTL6A 3.54625 1.27777778 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 4.54 2.75 R.EGSPANWK[1519.91]R.K O96019:238 1 ACTL6A 4.17475 1.88461539 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.6915 2.42857143 R.E[111.03]GSPANWK[1363.79]R.K O96019:238 1 ACTL6A 1.962 1.33333333 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 1.3 1 R.EGSPANWK[1363.79]R.K O96019:238 1 ACTL6A 3.84375 2.5 R.EGSPANWK[1519.93]R.K O96019:238 1 ACTL6A 1.1325 1.57142857 R.E[111.03]GSPANWK[1519.89]R.K O96019:238 1 ACTL6A 3.9305 1.19230769 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.86 2.4375 R.EGSPANWK[1519.89]R.K O96019:238 1 ACTL6A 1.1185 0.8125 R.EGSPANWK[1519.88]R.K O96019:238 1 ACTL6A 3.33625 1.16666667 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 2.313 1.9375 R.EGSPANWK[1519.89]R.K O96019:238 1 ACTL6A 2.8395 1.16666667 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 1.472 2.57142857 R.E[111.03]GSPANWK[1363.81]R.K O96019:238 1 ACTL6A 2.822 1.38888889 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 6.72 3.6875 R.EGSPANWK[1519.89]R.K O96019:238 1 ACTL6A 6.249 3.71428571 R.E[111.03]GSPANWK[1363.81]R.K O96019:238 1 ACTL6A 2.601 1.38888889 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 6.0875 3.375 R.EGSPANWK[1519.89]R.K O96019:238 1 ACTL6A 5.53725 3.07142857 R.E[111.03]GSPANWK[1363.79]R.K O96019:238 1 ACTL6A 5.965 2.75 R.EGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 5.5815 2.53846154 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 5.984 2.6875 R.EGSPANWK[1363.8]R.K O96019:238 1 ACTL6A 4.56275 2.42857143 R.E[111.03]GSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.8505 3.28571429 R.E[111.03]GSPANWK[1363.81]R.K O96019:238 1 ACTL6A 5.18525 2.07692308 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 4.10075 2.77777778 R.EGSPANWK[1235.72]R.K O96019:238 1 ACTL6A 1.64625 0.84615385 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 2.14 1.125 R.K[284.17]EK[1764.92]LPQVTR.S O96019:242 1 ACTL6A 4.5765 1.53846154 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 2.57775 2 R.EGSPANWK[1363.79]R.K O96019:238 1 ACTL6A 3.0015 1.5 R.KEK[1746.9]LPQVTR.S O96019:242 1 ACTL6A 3.74925 1.5625 R.EGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 2.23275 1.71428571 R.E[111.03]GSPANWK[1363.82]R.K O96019:238 1 ACTL6A 1.529 0.77777778 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 0.9345 1.64285714 R.E[111.03]GSPANWK[1519.88]R.K O96019:238 1 ACTL6A 2.9005 1.57142857 R.E[111.03]GSPANWK[1363.84]R.K O96019:238 1 ACTL6A 1.63 1.38888889 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 3.5925 1.38888889 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 2.575 1.9375 R.EGSPANWK[1363.79]R.K O96019:238 1 ACTL6A 3.527 1.44444444 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 0.986 0.9375 R.EGSPANWK[1363.83]R.K O96019:238 1 ACTL6A 1.0845 1 R.EGSPANWK[1363.81]R.K O96019:238 1 ACTL6A 2.594 1.0625 R.EGSPANWK[1363.8]R.K O96019:238 1 ACTL6A 0.55025 0.38461539 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 2.4875 1.125 R.EGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 0.952 0.75 R.EGSPANWK[1235.72]RK.E O96019:238 1 ACTL6A 1.03525 1 R.EGSPANWK[1363.8]R.K O96019:238 1 ACTL6A 0.91025 0.75 R.EGSPANWK[1235.72]RK.E O96019:238 1 ACTL6A 1.15025 1.42857143 R.E[111.03]GSPANWK[1363.8]R.K O96019:238 1 ACTL6A 7.34525 1.72727273 K.MHVK[2747.33]SEASLHPVLMSEAPWNTR.A O96019:112 1 ACTL6A 7.75325 1.65909091 K.MHVK[2747.33]SEASLHPVLMSEAPWNTR.A O96019:112 1 ACTL6A 7.25625 1.5 K.MHVK[2747.33]SEASLHPVLMSEAPWNTR.A O96019:112 1 ACTL6A 4.41475 0.86363636 K.MHVK[2747.33]SEASLHPVLMSEAPWNTR.A O96019:112 1 ACTL6A 9.123 1.63636364 R.AGYAGEDC[160.03]PK[2801.41]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 6.935 1.43181818 R.AGYAGEDC[160.03]PK[2785.36]VDFPTAIGM[147.04]VVER.D O96019:34 1 ACTL6A 9.24225 1.72727273 R.AGYAGEDC[160.03]PK[2801.4]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 4.33225 0.81818182 K.MHVK[2747.33]SEASLHPVLMSEAPWNTR.A O96019:112 1 ACTL6A 4.8105 1.09090909 R.AGYAGEDC[160.03]PK[2801.38]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 2.678 0.56818182 K.MHVK[2747.33]SEASLHPVLMSEAPWNTR.A O96019:112 1 ACTL6A 3.7355 0.81818182 R.AGYAGEDC[160.03]PK[2785.37]VDFPTAIGM[147.04]VVER.D O96019:34 1 ACTL6A 2.4115 0.54545455 K.MHVK[2747.33]SEASLHPVLMSEAPWNTR.A O96019:112 1 ACTL6A 1.7405 0.22727273 R.ENMEAISPLK[2785.4]NGMVEDWDSFQAILDHTYKMHVK.S O96019:89 1 ACTL6A 2.0475 0.33333333 R.ENMEAISPLK[2785.4]NGMVEDWDSFQAILDHTYKMHVK.S O96019:89 1 ACTL6A 0.992 0.18181818 R.ENMEAISPLK[2785.4]NGMVEDWDSFQAILDHTYKMHVK.S O96019:89 1 ACTL6A 2.8405 1.5 R.KEK[1519.89]LPQVTR.S O96019:242 1 ACTL6A 1.895 0.375 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 2.25625 0.31944444 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 2.14325 0.375 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 1.6995 0.23611111 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 1.8075 0.52272727 R.AGYAGEDC[160.03]PK[3411.59]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 1.88475 0.29166667 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 0.66125 0.13888889 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 14.70875 2.34782609 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 13.299 2.08695652 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 14.58475 2.63043478 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 14.5215 2.52173913 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 13.17025 2.15217391 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 12.717 2.10869565 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 11.78475 1.84782609 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 1.14275 0.61111111 R.K[2972.53]EK[284.17]LPQVTR.S O96019:240 1 ACTL6A 10.69975 1.65217391 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 9.18425 1.58695652 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 6.1255 1.34782609 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 6.411 2.25 K.WVPVTDSKEK[1172.61]EK.S Q9BQE9:57 1 BCL7B 1.8405 0.875 K.WVPVTDSKEK[1172.61]EK.S Q9BQE9:57 1 BCL7B 1.66875 1.08333333 K.WVPVTDSKEK[1172.61]EK.S Q9BQE9:57 1 BCL7B 4.64 1.41666667 K.WVPVTDSK[1172.61]EKEK.S Q9BQE9:55 1 BCL7B 9.065 1.10714286 K.TFGQKPVK[3804.85]FQLEDDGEFYMIGSEVGNYLR.M Q12824:16 1 SMARCB1 10.80575 2.9 K.YK[988.57]AVSISTEPPTYLR.E Q12824:108 1 SMARCB1 1.6965 1.5 R.EQK[1990.07]AK[284.17]R.N Q12824:124 1 SMARCB1 1.10525 1.1 R.EQK[1990.06]AK[284.17]R.N Q12824:124 1 SMARCB1 1.621 2.8 R.GSLYK[1180.68]R.Y Q12824:45 1 SMARCB1 1.55525 2 R.GSLYK[1024.59]R.Y Q12824:45 1 SMARCB1 0.97575 1 R.EQK[3150.67]AK[284.17]R.N Q12824:124 1 SMARCB1 0.9035 1 R.EQK[3150.64]AK[284.17]R.N Q12824:124 1 SMARCB1 7.26875 2.13636364 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 7.49975 2.27272727 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 0.9615 0.85714286 K.K[1598.82]IRDQDR.N Q12824:364 1 SMARCB1 7.065 1.86363636 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 6.429 2.13636364 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 6.564 1.68181818 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 6.322 1.68181818 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 6.23525 1.72727273 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 5.7705 1.86363636 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 0.962 1.33333333 K.K[1598.83]IR.D Q12824:364 1 SMARCB1 5.7 1.5 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 5.5955 1.5 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 5.028 1.45454546 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 4.84925 1.5 R.LDMEIDGQK[1195.67]LR.D Q12824:199 1 SMARCB1 7.0035 1.85714286 K.LTK[1125.68]AVATYHANTER.E P51532:502 1 SMARCA4 6.2525 1.71428571 K.LTK[1125.68]AVATYHANTER.E P51532:502 1 SMARCA4 1.44525 1.21428571 R.SVTGK[2225.16]IQK.L P51532:496 1 SMARCA4 4.1335 0.82352941 K.LTK[1125.68]AVATYHANTEREQK.K P51532:502 1 SMARCA4 11.6685 2.65625 K.K[811.49]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 1.27325 1.625 K.K[1228.69]DKR.L P51532:546 1 SMARCA4 6.927 1.40909091 R.HIIENAK[2030.14]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 6.30725 1.73529412 K.VIHVESGK[1698.86]ILTGTDAPK.A P51532:626 1 SMARCA4 5.7865 1.47058824 K.VIHVESGK[1698.86]ILTGTDAPK.A P51532:626 1 SMARCA4 4.78075 1.14705882 K.VIHVESGK[1698.86]ILTGTDAPK.A P51532:626 1 SMARCA4 8.594 1.97058824 K.KK[2030.14]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 7.5925 1.58823529 K.KK[2030.14]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 1.418 1.14285714 R.KEK[998.58]AQDR.L P51532:1604 1 SMARCA4 2.9735 2.0625 K.YK[851.56]DSSSGR.Q P51532:1473 1 SMARCA4 2.8095 1.875 K.YK[851.56]DSSSGR.Q P51532:1473 1 SMARCA4 2.941 1.375 K.YK[982.53]DSSSGR.Q P51532:1473 1 SMARCA4 1.0565 1.75 K.K[284.17]IK[1164.56]ER.I P51532:1511 P51531:1453 2 SMARCA4 2.93775 1.85 K.VSYK[1164.58]GSPAAR.R P51532:835 1 SMARCA4 1.52375 1.25 K.IK[1251.72]LGR.K P51532:1598 1 SMARCA4 1.59525 2.125 R.NHK[1295.71]YR.S P51532:1518 P51531:1460 2 SMARCA4 1.04275 1.07142857 R.IRNHK[1139.63]YR.S P51532:1518 P51531:1460 2 SMARCA4 0.57775 0.42857143 R.IRNHK[1139.63]YR.S P51532:1518 P51531:1460 2 SMARCA4 1.97775 1.1 K.VSYK[1251.72]GSPAAR.R P51532:835 1 SMARCA4 6.87225 2.18181818 R.K[742.43]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 3.79325 1.59090909 R.K[742.43]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 9.312 2.3125 R.K[742.43]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 6.6085 1.53125 R.K[742.43]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.586 1.4 R.QK[284.17]K[1931.94]SSR.K P51532:1408 1 SMARCA4 5.6145 1.44117647 R.GRPPAEK[742.43]LSPNPPNLTK.K P51532:1450 1 SMARCA4 4.19925 0.60294118 R.K[1828.99]IC[160.03]NHPYMFQHIEESFSEHLGFTGGIVQGLDLYR.A P51532:1044 1 SMARCA4 1.99825 0.69230769 R.LTC[160.03]EEEEEK[1828.99]MFGR.G P51532:1365 1 SMARCA4 7.264 1.93333333 K.AVATYHANTEREQK[1009.62]K.E P51532:516 1 SMARCA4 6.913 1.5 K.AVATYHANTEREQK[1009.62]K.E P51532:516 1 SMARCA4 1.8255 1.125 R.EQK[1137.71]KENER.I P51532:516 1 SMARCA4 2.0035 1.3125 R.EQK[1009.62]KENER.I P51532:516 1 SMARCA4 1.5475 1.375 R.EQK[1009.62]KENER.I P51532:516 1 SMARCA4 3.37075 0.73333333 K.AVATYHANTEREQK[811.49]K.E P51532:516 1 SMARCA4 1.0765 0.75 K.ENERIEK[2011.05]ER.M P51532:524 1 SMARCA4 7.6305 1.63333333 K.AVATYHANTEREQK[939.54]K.E P51532:516 1 SMARCA4 7.359 2.03333333 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 6.97075 1.56666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 6.75475 1.7 K.AVATYHANTEREQK[939.54]K.E P51532:516 1 SMARCA4 6.709 1.76666667 K.AVATYHANTEREQK[939.54]K.E P51532:516 1 SMARCA4 6.3115 1.46666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 6.43225 1.5 K.AVATYHANTEREQK[939.54]K.E P51532:516 1 SMARCA4 6.31075 1.4 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 6.0125 1.43333333 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 6.0335 1.36666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 5.01125 1.5 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 4.737 1.56666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 0.9935 0.5625 K.ENERIEK[2011.04]ER.M P51532:524 1 SMARCA4 2.0145 0.86666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 1.26875 0.56666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 1.02875 0.56666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 6.273 1.40625 R.GQPLPDHLQMAVQGK[1480.7]R.P P51532:207 1 SMARCA4 5.17675 1.125 R.GQPLPDHLQMAVQGK[1480.7]R.P P51532:207 1 SMARCA4 2.661 1.38888889 R.YNQMK[2056.08]GMGMR.S P51532:94 1 SMARCA4 2.6235 1.44444444 R.YNQMK[2056.07]GMGMR.S P51532:94 1 SMARCA4 1.841 0.94444444 R.YNQM[147.04]K[2040.09]GMGMR.S P51532:94 1 SMARCA4 2.80475 0.9375 R.GQPLPDHLQMAVQGK[1480.7]R.P P51532:207 1 SMARCA4 1.85675 1.5 R.YNQM[147.04]K[2056.06]GMGMR.S P51532:94 1 SMARCA4 0.96625 1.375 R.IEK[2151.07]ER.M P51532:524 P51531:500 2 SMARCA4 1.12125 0.77777778 K.ENERIEK[1009.62]ER.M P51532:524 1 SMARCA4 0.47325 0.5 K.ENERIEK[1137.71]ER.M P51532:524 1 SMARCA4 0.51825 0.44444444 K.ENERIEK[1137.71]ER.M P51532:524 1 SMARCA4 0.46175 0.38888889 K.ENERIEK[1137.71]ER.M P51532:524 1 SMARCA4 0.45325 0.44444444 K.ENERIEK[1137.71]ER.M P51532:524 1 SMARCA4 0.13375 0.16666667 K.ENERIEK[1137.71]ER.M P51532:524 1 SMARCA4 0.2875 0.27777778 K.ENERIEK[1137.71]ER.M P51532:524 1 SMARCA4 1.5795 1.33333333 K.ENERIEK[1009.62]ER.M P51532:524 1 SMARCA4 1.7625 0.8 R.QHK[2011.09]AAQVAKEK.K P51532:572 1 SMARCA4 9.11025 2.34375 R.LC[160.03]TVNSVEEK[1300.71]ILAAAK.Y P51532:1213 P51531:1183 2 SMARCA4 8.49 2.46875 R.LC[160.03]TVNSVEEK[1300.71]ILAAAK.Y P51532:1213 P51531:1183 2 SMARCA4 1.273 0.66666667 K.VSYK[2011.08]GSPAAR.R P51532:835 1 SMARCA4 10.74875 1.5 R.GMLLK[1717.93]TFNEPGSEYFIFLLSTR.A P51532:1140 1 SMARCA4 8.702 1.36363636 R.GMLLK[1717.93]TFNEPGSEYFIFLLSTR.A P51532:1140 1 SMARCA4 4.3735 1.5 R.K[2828.55]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 14.193 2.34090909 R.GMLLK[1300.71]TFNEPGSEYFIFLLSTR.A P51532:1140 1 SMARCA4 2.091 1.11111111 K.VSYK[2844.44]GSPAAR.R P51532:835 1 SMARCA4 1.16125 0.72222222 K.VSYK[2844.44]GSPAAR.R P51532:835 1 SMARCA4 1.4095 0.72222222 K.VSYK[2844.45]GSPAAR.R P51532:835 1 SMARCA4 1.505 0.94444444 K.VSYK[2844.45]GSPAAR.R P51532:835 1 SMARCA4 0.91675 0.55555556 K.VSYK[3299.68]GSPAAR.R P51532:835 1 SMARCA4 1.4425 1.75 R.KEK[1234.8]AQDR.L P51532:1604 1 SMARCA4 1.52125 1.75 R.LK[1234.8]GGR.R P51532:1610 1 SMARCA4 1.422 1.75 R.LK[1234.79]GGR.R P51532:1610 1 SMARCA4 3.97725 2.16666667 K.VK[1295.71]IK[284.17]LGR.K P51532:1596 1 SMARCA4 0.9565 2 K.VK[1295.71]IK.L P51532:1596 P51531:1538 2 SMARCA4 2.7485 0.75 R.GQPLPDHLQMAVQGK[1560.85]R.P P51532:207 1 SMARCA4 1.222 0.34375 R.GQPLPDHLQMAVQGK[1560.85]R.P P51532:207 1 SMARCA4 6.8725 2.40909091 R.AQIMAYK[1480.7]MLAR.G P51532:188 1 SMARCA4 2.50025 1.55555556 R.YNQMK[1576.84]GMGMR.S P51532:94 1 SMARCA4 12.2795 2.275 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 11.95375 2.075 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 12.6975 2.125 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 0.91775 0.75 R.LTC[160.03]EEEEEK[2698.29]MFGR.G P51532:1365 1 SMARCA4 12.31575 2 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 11.93 1.925 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 2.369 0.83333333 R.LTC[160.03]EEEEEK[2682.36]MFGR.G P51532:1365 1 SMARCA4 11.89375 1.975 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 0.98875 0.75 R.LTC[160.03]EEEEEK[2682.28]M[147.04]FGR.G P51532:1365 1 SMARCA4 11.62425 2 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 1.16975 0.70833333 R.LTC[160.03]EEEEEK[2698.29]MFGR.G P51532:1365 1 SMARCA4 2.29425 1.08333333 R.LTC[160.03]EEEEEK[2698.32]MFGR.G P51532:1365 1 SMARCA4 10.5695 1.825 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 10.3045 1.7 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 1.03575 0.83333333 R.LTC[160.03]EEEEEK[2698.28]MFGR.G P51532:1365 1 SMARCA4 1.61225 0.875 R.LTC[160.03]EEEEEK[2698.29]IFGR.G P51531:1302 1 SMARCA4 7.907 1.675 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 1.01275 0.70833333 R.LTC[160.03]EEEEEK[2698.29]M[147.04]FGR.G P51532:1365 1 SMARCA4 1.114 0.70833333 R.LTC[160.03]EEEEEK[2698.31]MFGR.G P51532:1365 1 SMARCA4 9.15225 1.6 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 9.29575 1.55 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 2.11375 0.83333333 R.LTC[160.03]EEEEEK[2682.37]MFGR.G P51532:1365 1 SMARCA4 0.95175 0.54166667 R.LTC[160.03]EEEEEK[2698.27]MFGR.G P51532:1365 1 SMARCA4 1.1215 0.70833333 R.LTC[160.03]EEEEEK[2698.3]MFGR.G P51532:1365 1 SMARCA4 8.15675 1.475 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 0.91225 0.54166667 R.LTC[160.03]EEEEEK[2682.29]MFGR.G P51532:1365 1 SMARCA4 1.10225 0.58333333 R.LTC[160.03]EEEEEK[2682.27]MFGR.G P51532:1365 1 SMARCA4 1.70775 0.875 R.LTC[160.03]EEEEEK[2698.28]MFGR.G P51532:1365 1 SMARCA4 8.06275 1.475 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 1.39775 0.75 R.LTC[160.03]EEEEEK[2698.3]MFGR.G P51532:1365 1 SMARCA4 7.08925 1.25 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 1.90725 1.125 R.LTC[160.03]EEEEEK[2682.27]MFGR.G P51532:1365 1 SMARCA4 0.97125 0.58333333 R.LTC[160.03]EEEEEK[2698.33]MFGR.G P51532:1365 1 SMARCA4 0.98125 0.54166667 R.LTC[160.03]EEEEEK[2698.25]MFGR.G P51532:1365 1 SMARCA4 0.97425 0.625 R.LTC[160.03]EEEEEK[2682.25]MFGR.G P51532:1365 1 SMARCA4 5.7795 1.05 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 1.25875 0.75 R.LTC[160.03]EEEEEK[2698.27]MFGR.G P51532:1365 1 SMARCA4 2.47175 1.04166667 R.LTC[160.03]EEEEEK[2682.3]MFGR.G P51532:1365 1 SMARCA4 1.07425 0.75 R.LTC[160.03]EEEEEK[2698.37]MFGR.G P51532:1365 1 SMARCA4 1.24475 0.70833333 R.LTC[160.03]EEEEEK[2698.27]MFGR.G P51532:1365 1 SMARCA4 5.655 1.025 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 1.94675 0.79166667 R.LTC[160.03]EEEEEK[2682.36]MFGR.G P51532:1365 1 SMARCA4 1.44525 0.875 R.LTC[160.03]EEEEEK[2698.35]MFGR.G P51532:1365 1 SMARCA4 4.6175 0.9 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 0.9855 0.66666667 R.LTC[160.03]EEEEEK[2698.35]MFGR.G P51532:1365 1 SMARCA4 1.77325 0.5 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA4 5.35325 1.25 K.VIQAGMFDQK[1971.99]SSSHER.R P51532:1237 P51531:1207 2 SMARCA4 6.46025 2.0625 K.VIQAGMFDQK[1931.95]SSSHER.R P51532:1237 P51531:1207 2 SMARCA4 4.31025 1.0625 R.K[2101.02]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 3.55725 1.1875 K.VIQAGMFDQK[795.5]SSSHER.R P51532:1237 P51531:1207 2 SMARCA4 11.804 3.0625 K.VIQAGMFDQK[1300.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA4 7.22125 2.0625 K.VIQAGMFDQK[1300.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA4 5.09175 2.0625 K.VIQAGMFDQK[1300.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA4 4.56175 1.05882353 K.VIQAGMFDQK[1300.71]SSSHERR.A P51532:1237 P51531:1207 2 SMARCA4 2.28575 1.33333333 K.VSYK[2101.03]GSPAAR.R P51532:835 1 SMARCA4 0.94375 1.875 R.LK[1222.79]GGR.R P51532:1610 1 SMARCA4 1.74475 2.125 R.SVK[1295.71]VK.I P51532:1594 P51531:1536 2 SMARCA4 8.995 2.03125 R.K[1048.61]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 7.507 1.80769231 R.LTC[160.03]EEEEEK[1048.61]MFGR.G P51532:1365 1 SMARCA4 8.48025 3.17857143 R.HRK[1048.61]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 3.1095 1.46428571 R.HRK[1048.61]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 1.96675 1.7 R.GFK[1139.62]YLR.L P51532:1122 1 SMARCA4 9.31675 2.86363636 R.K[1048.61]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 8.636 4.05 R.LDGTTK[1048.61]AEDR.G P51532:1131 1 SMARCA4 6.91475 3.3 R.LDGTTK[1048.61]AEDR.G P51532:1131 1 SMARCA4 5.244 2.9 R.LDGTTK[1048.61]AEDR.G P51532:1131 1 SMARCA4 5.50675 1.5 R.GRPPAEK[1048.61]LSPNPPNLTK.K P51532:1450 1 SMARCA4 1.74425 2.375 R.NHK[1048.61]YR.S P51532:1518 P51531:1460 2 SMARCA4 5.59575 1.35294118 K.KK[1698.86]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 7.247 1.78125 K.K[1698.86]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 5.75875 1.53125 K.K[1698.86]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 12.985 2 R.HIIENAK[2151.07]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 4.4495 1.15909091 R.HIIENAK[2022.97]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 5.24375 1.20454546 R.HIIENAK[2151.07]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 1.705 0.9375 K.TIQTIALITYLMEHK[1767]R.I P51532:800 P51531:770 2 SMARCA4 8.18475 1.53125 R.K[938.59]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 7.578 1.40625 R.K[938.59]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 7.95625 1.6875 R.K[938.59]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 9.819 2.53125 R.K[825.53]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.347 1.14285714 R.K[1931.95]EK[284.17]AQDR.L P51532:1602 1 SMARCA4 5.7935 2.65625 R.K[1300.71]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 3.088 1.11764706 R.GRPPAEK[1931.95]LSPNPPNLTK.K P51532:1450 1 SMARCA4 6.563 1.5 R.K[1164.58]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 9.8525 2.375 R.K[982.53]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 8.89325 2.15625 R.K[982.53]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 8.0845 2 R.K[1251.72]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 4.60425 1.55882353 K.VIHVESGK[1931.95]ILTGTDAPK.A P51532:626 1 SMARCA4 10.31625 2.21875 R.K[998.58]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 8.70525 1.90625 R.K[998.58]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 9.47725 2.21875 R.K[795.5]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 8.1595 1.84375 R.K[795.5]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 7.93925 1.84375 R.K[795.5]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 6.39975 1.59375 R.K[951.6]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 9.302 2.21875 R.K[851.56]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 6.75575 2.71875 R.K[1717.93]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 6.649 2.59375 R.K[1717.93]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.307 0.625 R.K[1717.93]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 9.07225 2.84615385 R.LTC[160.03]EEEEEK[1300.71]MFGR.G P51532:1365 1 SMARCA4 8.70325 3 R.LTC[160.03]EEEEEK[1300.71]MFGR.G P51532:1365 1 SMARCA4 9.7855 2.5 R.LTC[160.03]EEEEEK[982.53]MFGR.G P51532:1365 1 SMARCA4 7.59475 1.92307692 R.LTC[160.03]EEEEEK[1251.72]MFGR.G P51532:1365 1 SMARCA4 1.6065 0.69230769 R.LTC[160.03]EEEEEK[982.53]MFGR.G P51532:1365 1 SMARCA4 1.5665 0.82142857 R.HRK[1922.88]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 2.657 0.96875 R.K[1922.88]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.7375 0.53125 R.K[1938.84]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 6.2655 1.375 R.K[1938.87]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 5.57325 1.375 R.K[1922.88]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 9.18125 2.65384615 R.LTC[160.03]EEEEEK[795.5]MFGR.G P51532:1365 1 SMARCA4 1.05025 1.83333333 K.KDK[2151.07]R.L P51532:548 1 SMARCA4 10.26675 2.3125 K.K[811.49]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 8.824 3.27272727 R.K[795.5]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 8.1155 3.04545455 R.K[795.5]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 7.573 3.04545455 R.K[851.56]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 4.59475 1.26470588 K.VIHVESGK[1717.93]ILTGTDAPK.A P51532:626 1 SMARCA4 9.27375 3.18181818 R.K[1300.71]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 6.737 2.18181818 R.K[1300.71]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 7.385 2.63636364 R.K[1300.71]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 1.1325 1.875 R.LK[1295.71]GGR.R P51532:1610 1 SMARCA4 1.71375 1.21428571 R.KEK[951.6]AQDR.L P51532:1604 1 SMARCA4 3.06 1.5625 K.QQK[1125.66]IEQER.K P51532:461 P51531:437 2 SMARCA4 3.4815 1.75 K.QQK[1125.66]IEQER.K P51532:461 P51531:437 2 SMARCA4 2.066 1.55555556 K.QQK[1125.66]IEQERK.R P51532:461 P51531:437 2 SMARCA4 1.262 1.41666667 R.ITEK[1323.72]LEK.Q P51532:455 1 SMARCA4 5.859 1.90909091 R.WK[1245.72]YMIVDEGHR.M P51532:876 P51531:846 2 SMARCA4 13.327 2.20454546 R.HIIENAK[2151.07]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 9.84925 1.79545455 R.HIIENAK[2151.07]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 8.76025 2 K.K[2736.33]KIPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 5.5475 1.35294118 K.K[2736.37]K[284.17]IPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 3.221 0.70588235 K.K[2736.34]K[284.17]IPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 3.98925 1.94444444 R.SRDK[1251.72]DDESK.K P51532:1433 1 SMARCA4 2.7405 2.11111111 R.SRDK[1251.72]DDESK.K P51532:1433 1 SMARCA4 0.43275 0.35714286 R.IRNHK[1101.52]YR.S P51532:1518 P51531:1460 2 SMARCA4 13.29475 2.88235294 K.KK[1009.62]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 8.8125 1.78125 K.K[1137.71]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 5.99775 1.5 K.K[1009.62]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 9.4985 2.52941177 K.K[1137.71]KIPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 10.058 2.52941177 K.K[1137.71]KIPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 9.1605 2.17647059 K.K[1009.62]KIPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 7.8555 1.97058824 K.K[1137.71]KIPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 8.07975 1.91176471 K.K[1009.62]KIPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 5.10775 1.61538462 R.LTC[160.03]EEEEEK[821.52]MFGR.G P51532:1365 1 SMARCA4 4.44775 1.42307692 R.LTC[160.03]EEEEEK[821.52]MFGR.G P51532:1365 1 SMARCA4 4.64025 1.0625 R.K[821.52]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 4.382 1.03125 R.K[821.52]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 10.87775 2.92857143 R.HRK[821.52]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 2.45175 1.07142857 R.HRK[821.52]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 2.27875 1.03571429 R.HRK[821.52]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 9.69075 3 R.LTC[160.03]EEEEEK[1370.7]MFGR.G P51532:1365 1 SMARCA4 8.9165 2.46153846 R.LTC[160.03]EEEEEK[1370.7]MFGR.G P51532:1365 1 SMARCA4 2.40025 1.5 R.LDGTTK[1938.86]AEDR.G P51532:1131 1 SMARCA4 4.259 1.23076923 R.LTC[160.03]EEEEEK[1370.7]MFGR.G P51532:1365 1 SMARCA4 6.59575 2.15625 R.K[1370.7]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 8.08625 2.71875 R.K[1370.7]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 4.563 1.34375 R.K[1370.7]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 4.467 1.28125 R.K[1370.7]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 4.8305 1.46875 R.K[1802.95]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 4.82725 1.85 R.LDGTTK[951.6]AEDR.G P51532:1131 1 SMARCA4 4.40125 2.3 R.LDGTTK[795.5]AEDR.G P51532:1131 1 SMARCA4 3.016 1.7 R.LDGTTK[795.5]AEDR.G P51532:1131 1 SMARCA4 2.79825 1.9 R.LDGTTK[795.5]AEDR.G P51532:1131 1 SMARCA4 3.85925 1.25 R.HRK[1370.7]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 4.76225 1.72222222 R.LDGTTK[1971.96]AEDR.G P51532:1131 1 SMARCA4 1.8215 1 R.HRK[1370.7]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 1.576 0.57142857 R.HRK[1370.7]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 9.1195 3.04545455 R.K[1370.7]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 3.3855 1.85 R.LDGTTK[851.56]AEDR.G P51532:1131 1 SMARCA4 2.0955 1.5 R.K[1370.72]EK[284.17]AQDR.L P51532:1602 1 SMARCA4 4.41925 1.53846154 K.YLRLDGTTK[742.43]AEDR.G P51532:1131 1 SMARCA4 1.32875 1.5 R.QK[1370.71]K[284.17]SSR.K P51532:1407 1 SMARCA4 5.68275 3.25 R.LDGTTK[1300.71]AEDR.G P51532:1131 1 SMARCA4 4.80325 2.4 R.LDGTTK[1300.71]AEDR.G P51532:1131 1 SMARCA4 3.58775 1.57692308 K.YLRLDGTTK[1300.71]AEDR.G P51532:1131 1 SMARCA4 1.58275 1.15 R.LDGTTK[1300.71]AEDR.G P51532:1131 1 SMARCA4 1.7885 1.03846154 K.YLRLDGTTK[1300.71]AEDR.G P51532:1131 1 SMARCA4 1.98925 1.05555556 R.LDGTTK[2828.48]AEDR.G P51532:1131 1 SMARCA4 1.75025 1.05555556 R.LDGTTK[2844.46]AEDR.G P51532:1131 1 SMARCA4 1.76275 1.11111111 R.LDGTTK[2844.48]AEDR.G P51532:1131 1 SMARCA4 1.3655 0.77777778 R.LDGTTK[2844.51]AEDR.G P51532:1131 1 SMARCA4 1.1885 0.72222222 R.LDGTTK[2844.48]AEDR.G P51532:1131 1 SMARCA4 3.514 1.7 R.LDGTTK[1251.72]AEDR.G P51532:1131 1 SMARCA4 2.59375 1.88888889 K.IVDAVIK[799.5]YK.D P51532:1471 1 SMARCA4 1.24425 1.625 R.LK[1295.71]GGR.R P51532:1610 1 SMARCA4 0.994 1.75 R.LK[1295.71]GGR.R P51532:1610 1 SMARCA4 1.047 1.25 R.LK[1295.7]GGR.R P51532:1610 1 SMARCA4 1.138 1.625 R.LK[1295.69]GGR.R P51532:1610 1 SMARCA4 7.934 1.76470588 R.GRPPAEK[851.56]LSPNPPNLTK.K P51532:1450 1 SMARCA4 4.60425 1.44117647 R.GRPPAEK[851.56]LSPNPPNLTK.K P51532:1450 1 SMARCA4 11.0405 2.91176471 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 10.2315 2.47058824 R.GRPPAEK[1251.72]LSPNPPNLTK.K P51532:1450 1 SMARCA4 10.1375 2.29411765 R.GRPPAEK[1251.72]LSPNPPNLTK.K P51532:1450 1 SMARCA4 9.3255 2.82352941 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 8.00125 2.14705882 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 8.1195 2.41176471 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 7.2095 2.29411765 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 6.79225 1.47058824 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 6.69975 1.85294118 R.GRPPAEK[1251.72]LSPNPPNLTK.K P51532:1450 1 SMARCA4 5.94425 1.5 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 5.75075 1.55882353 R.GRPPAEK[1251.72]LSPNPPNLTK.K P51532:1450 1 SMARCA4 3.86725 1.44117647 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 3.63125 1.38235294 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 3.045 1.17647059 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 2.55825 0.67647059 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 2.729 1.11764706 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 2.371 0.70588235 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 6.1145 1.61764706 R.GRPPAEK[795.5]LSPNPPNLTK.K P51532:1450 1 SMARCA4 0.908 1.5 R.LK[2081.14]GGR.R P51532:1610 1 SMARCA4 7.6945 1.76470588 R.GRPPAEK[998.58]LSPNPPNLTK.K P51532:1450 1 SMARCA4 6.07625 2.11764706 R.GRPPAEK[998.58]LSPNPPNLTK.K P51532:1450 1 SMARCA4 5.42 1.58823529 R.GRPPAEK[998.58]LSPNPPNLTK.K P51532:1450 1 SMARCA4 2.056 0.76470588 R.GRPPAEK[799.5]LSPNPPNLTK.K P51532:1450 1 SMARCA4 7.693 2.53571429 R.HRK[851.56]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 8.196 2.35714286 R.HRK[851.56]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 6.87675 2.10714286 R.HRK[851.56]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 7.64775 2.22727273 R.K[1971.96]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 7.807 2.68181818 R.K[1971.98]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 8.913 2.5 R.HRK[795.5]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 3.79625 1.25 R.K[795.5]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 3.57075 1.67857143 R.HRK[1931.95]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 0.44125 0.32142857 R.HRK[1931.95]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 0.656 0.17857143 R.HRK[1931.95]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 1.9435 0.6875 R.K[1678.83]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 12.076 3.35714286 R.HRK[982.53]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 11.588 3.28571429 R.HRK[1251.72]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 1.38775 1.25 R.NHK[1971.99]YR.S P51532:1518 P51531:1460 2 SMARCA4 4.61975 2.07142857 R.HRK[1300.71]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 6.637 1.32352941 R.GRPPAEK[1971.99]LSPNPPNLTK.K P51532:1450 1 SMARCA4 1.403 1.375 R.SVK[1971.98]VK.I P51532:1594 P51531:1536 2 SMARCA4 2.1455 1.45 K.VSYK[795.5]GSPAAR.R P51532:835 1 SMARCA4 15.2505 2.38461539 R.AK[795.5]PVVSDDDSEEEQEEDRSGSGSEED. P51532:1623 1 SMARCA4 10.528 1.90384615 R.AK[795.5]PVVSDDDSEEEQEEDRSGSGSEED. P51532:1623 1 SMARCA4 7.5505 1.91176471 K.VIHVESGK[795.5]ILTGTDAPK.A P51532:626 1 SMARCA4 0.945 1.5 R.LK[1698.85]GGR.R P51532:1610 1 SMARCA4 0.986 1.5 R.LK[1698.85]GGR.R P51532:1610 1 SMARCA4 1.46625 2.25 R.KEK[1234.8]AQDR.L P51532:1604 1 SMARCA4 1.56875 1.625 K.IK[1295.73]LGR.K P51532:1598 1 SMARCA4 1.53525 1.25 K.IK[1139.63]LGR.K P51532:1598 1 SMARCA4 1.31975 1.5 R.KEK[851.56]AQDR.L P51532:1604 1 SMARCA4 3.06275 2.16666667 K.VK[284.17]IK[1295.71]LGR.K P51532:1598 1 SMARCA4 1.92225 1.625 K.IK[1295.7]LGR.K P51532:1598 1 SMARCA4 1.809 1.75 K.IK[1295.7]LGR.K P51532:1598 1 SMARCA4 1.16675 1.625 K.IK[1139.63]LGR.K P51532:1598 1 SMARCA4 1.2135 1.5 K.IK[1295.71]LGR.K P51532:1598 1 SMARCA4 1.38075 1.21428571 R.K[851.56]EKAQDR.L P51532:1602 1 SMARCA4 7.63325 3 K.KIVDAVIK[810.5]YK.D P51532:1471 1 SMARCA4 7.146 2.83333333 K.IVDAVIK[810.5]YK.D P51532:1471 1 SMARCA4 4.39575 1.88888889 K.IVDAVIK[938.59]YK.D P51532:1471 1 SMARCA4 6.811 3.16666667 K.IVDAVIK[795.5]YK.D P51532:1471 1 SMARCA4 18.42125 3.11363636 R.HIIENAK[1657.06]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 14.713 2.61363636 R.HIIENAK[1657.06]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 9.79325 1.81818182 R.HIIENAK[1657.06]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 14.23925 2.56818182 R.HIIENAK[1698.86]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 8.964 1.84090909 R.HIIENAK[1698.86]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 8.6665 1.90909091 R.HIIENAK[1698.86]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 2.71375 1.45 R.WK[2736.36]YM[147.04]IVDEGHR.M P51532:876 P51531:846 2 SMARCA4 9.60375 1.81818182 R.HIIENAK[1698.86]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 2.527 1.55 R.WK[2736.32]YM[147.04]IVDEGHR.M P51532:876 P51531:846 2 SMARCA4 2.21375 0.5 R.HIIENAK[1698.86]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 7.22425 1.38636364 R.HIIENAK[2196.23]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 1.592 2 R.IEK[1325.69]ER.M P51532:524 P51531:500 2 SMARCA4 1.173 1.375 R.IEK[1481.77]ER.M P51532:524 P51531:500 2 SMARCA4 3.808 3.21428571 R.KLIDQK[940.5]K.D P51532:545 P51531:521 2 SMARCA4 2.85325 1.6875 K.K[1009.62]ENERIEK.E P51532:517 1 SMARCA4 3.383 0.84375 R.K[1272.71]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.33275 0.77777778 K.VSYK[1996.17]GSPAAR.R P51532:835 1 SMARCA4 2.50125 1.35 K.VSYK[1272.71]GSPAAR.R P51532:835 1 SMARCA4 7.82125 3.40909091 R.K[1264.69]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 6.38075 2.40909091 R.K[1264.69]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 6.354 1.875 R.K[1264.69]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 0.60925 0.375 R.EEARNPK[998.58]R.K P51532:1332 1 SMARCA4 0.24475 0.25 R.EEARNPK[995.64]R.K P51532:1332 1 SMARCA4 1.4355 1.3 R.QK[1931.95]K[284.17]SSR.K P51532:1407 1 SMARCA4 1.72625 1.8 R.QK[1931.95]K[284.17]SSR.K P51532:1407 1 SMARCA4 1.1855 1 R.QK[1931.97]K[284.17]SSR.K P51532:1407 1 SMARCA4 1.296 1.1 R.QK[998.58]KSSR.K P51532:1407 1 SMARCA4 8.43125 2.77777778 K.VMATIEK[1082.63]VR.R Q8WUZ0:27 1 BCL7C 12.09175 2.93333333 R.IFK[883.49]WVPVVDPQEEER.R Q8WUZ0:47 1 BCL7C 2.1055 1.33333333 R.AK[1311.76]DDIK[284.17]K.V Q9BQE9:15 Q8WUZ0:15 2 BCL7C 5.83675 2.77777778 K.VMATIEK[1082.63]VR.R Q8WUZ0:27 1 BCL7C 1.754 1.41666667 R.AK[1327.73]DDIKK.V Q9BQE9:15 Q8WUZ0:15 2 BCL7C 1.79 1.41666667 R.AK[1327.77]DDIKK.V Q9BQE9:15 Q8WUZ0:15 2 BCL7C 8.82025 2.66666667 R.IFK[1082.63]WVPVVDPQEEER.R Q8WUZ0:47 1 BCL7C 8.2725 2.66666667 R.IFK[1082.63]WVPVVDPQEEER.R Q8WUZ0:47 1 BCL7C 7.52 2.46666667 R.IFK[1082.63]WVPVVDPQEEER.R Q8WUZ0:47 1 BCL7C 3.60525 1.2 R.IFK[1311.76]WVPVVDPQEEER.R Q8WUZ0:47 1 BCL7C 8.9475 3.04545455 K.K[855.49]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 2 BCL7A 7.8625 2.86363636 K.K[855.49]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 2 BCL7A 2.34625 1.5 R.AK[983.58]DDIKR.V Q4VC05:15 1 BCL7A 5.112 2.27272727 R.IYK[1110.64]WVPVTEPK.V Q4VC05:47 1 BCL7A 1.32075 1.5 R.AK[1624.93]DDIK[284.17]R.V Q4VC05:15 1 BCL7A 3.998 2.18181818 R.IYK[1110.64]WVPVTEPK.V Q4VC05:47 1 BCL7A 3.268 1.59090909 R.IYK[1110.64]WVPVTEPK.V Q4VC05:47 1 BCL7A 3.40825 1.81818182 R.IYK[1110.64]WVPVTEPK.V Q4VC05:47 1 BCL7A 2.7795 1.41666667 R.AK[1281.75]DDIK[284.17]R.V Q4VC05:15 1 BCL7A 2.7705 1.41666667 R.AK[1281.75]DDIK[284.17]R.V Q4VC05:15 1 BCL7A 2.64525 1.58333333 R.AK[1281.75]DDIK[284.17]R.V Q4VC05:15 1 BCL7A 9.258 4.11111111 R.VMAAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 6.861 3.33333333 R.VMAAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 2.85925 1.58333333 R.AK[1297.74]DDIK[284.17]R.V Q4VC05:15 1 BCL7A 1.92225 1.41666667 R.AK[1297.74]DDIKR.V Q4VC05:15 1 BCL7A 7.3895 3.66666667 R.VMAAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 6.0825 2.38888889 R.VMAAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 5.9155 2.77777778 R.VMAAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 6.6095 3.05555556 R.VMAAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 5.20275 2.27777778 R.VMAAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 2.331 1.33333333 R.AK[1297.74]DDIKR.V Q4VC05:15 1 BCL7A 3.89575 2.11111111 R.VMAAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 3.90375 1.68181818 K.K[1110.64]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 2 BCL7A 1.634 1.35714286 R.AK[983.58]DDIKR.V Q4VC05:15 1 BCL7A 4.9315 2.59090909 R.IYK[1526.85]WVPVTEPK.V Q4VC05:47 1 BCL7A 2.9745 1.40909091 R.IYK[1526.85]WVPVTEPK.V Q4VC05:47 1 BCL7A 2.71025 1.04545455 R.IYK[1526.85]WVPVTEPK.V Q4VC05:47 1 BCL7A 3.1705 1.40909091 R.IYK[1526.85]WVPVTEPK.V Q4VC05:47 1 BCL7A 1.20575 0.54545455 R.IYK[1526.85]WVPVTEPK.V Q4VC05:47 1 BCL7A 5.386 1.90909091 K.K[1225.67]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 2 BCL7A 5.208 2 K.K[983.53]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 2 BCL7A 4.8495 2.17857143 K.WVPVTEPK[1526.85]VDDKNK.N Q4VC05:55 1 BCL7A 1.758 1.03571429 K.WVPVTEPK[1526.85]VDDKNK.N Q4VC05:55 1 BCL7A 7.69625 2.77777778 R.VMAAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 7.7635 2.55555556 R.VMAAIEK[1225.67]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 0.90375 0.78571429 K.VDDK[1409.85]NKNK.K Q4VC05:59 1 BCL7A 4.75425 1.5 R.VMAAIEK[1225.67]VRK.W Q9BQE9:27 Q4VC05:27 2 BCL7A 3.6905 1.83333333 R.VMAAIEK[983.53]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 5.20325 1.95454546 K.K[1281.75]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 2 BCL7A 5.2285 1.54545455 K.K[1281.75]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 2 BCL7A 1.86775 1.625 R.VM[147.04]AAIEK[1526.84]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 5.9495 2.22222222 R.VMAAIEK[983.58]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 3.06275 1.44444444 R.VMAAIEK[855.49]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 4.191 1.45454546 R.IYK[1281.75]WVPVTEPK.V Q4VC05:47 1 BCL7A 4.86625 3.25 R.VM[147.04]AAIEK[1624.93]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 3.12925 2.3125 R.VM[147.04]AAIEK[1624.9]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 1.8165 0.77272727 R.IYK[1281.75]WVPVTEPK.V Q4VC05:47 1 BCL7A 5.535 2.27777778 R.VMAAIEK[969.55]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 2.04375 1.8 R.K[1297.74]WEKK.W Q9BQE9:30 Q4VC05:30 2 BCL7A 8.565 3.77777778 R.VMAAIEK[983.58]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 1.93825 1.75 R.K[1297.74]WEK.K Q9BQE9:30 Q4VC05:30 2 BCL7A 8.37625 3.83333333 R.VMAAIEK[855.49]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 6.796 2.94444444 R.VMAAIEK[855.49]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 6.611 3 R.VMAAIEK[855.49]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 1.4995 1.5 R.K[1297.74]WEK.K Q9BQE9:30 Q4VC05:30 2 BCL7A 6.04725 2.77777778 R.VMAAIEK[983.58]VR.K Q9BQE9:27 Q4VC05:27 2 BCL7A 2.33725 1.0625 K.IK[2610.31]IIAPPER.K Q562R1:329 P60709:328 2 ACTBL2 3.9685 0.5 K.SIIATIDDVLSARPGALPEDANPGPQTESSK[1872.02]FPFGIQQAK.S Q8NFD5:1889 1 ARID1B 3.119 1.85 K.FDKLPIK[1369.77]IVK.K Q8NFD5:1777 1 ARID1B 2.648 1.9 K.FDKLPIK[1369.77]IVK.K Q8NFD5:1777 1 ARID1B 6.052 2.77777778 K.K[1622.01]NNLFVVDR.S Q8NFD5:1781 1 ARID1B 1.7515 1.2 K.FDKLPIK[1369.77]IVK.K Q8NFD5:1777 1 ARID1B 0.96825 0.85 K.FDKLPIK[1369.77]IVK.K Q8NFD5:1777 1 ARID1B 2.057 2.66666667 K.LPIK[1369.75]IVK.K Q8NFD5:1777 1 ARID1B 2.04125 1.1 K.FDKLPIK[1369.77]IVK.K Q8NFD5:1777 1 ARID1B 2.84625 1.75 K.FDKLPIK[1369.77]IVK.K Q8NFD5:1777 1 ARID1B 7.908 3.19230769 K.ITK[1081.63]VYELGNEPER.K Q8NFD5:1046 1 ARID1B 4.21 1.42857143 R.K[1812.96]LWVDRYLTFMEER.G Q8NFD5:1057 1 ARID1B 6.889 2.65384615 K.ITK[1081.63]VYELGNEPER.K Q8NFD5:1046 1 ARID1B 3.6805 1.15384615 K.ITK[1081.63]VYELGNEPER.K Q8NFD5:1046 1 ARID1B 4.84075 1.5 K.ITK[2389.35]VYELGNEPER.K Q8NFD5:1046 1 ARID1B 7.676 2.10714286 K.ITK[1153.69]VYELGNEPERK.L Q8NFD5:1046 1 ARID1B 5.2195 1.61538462 K.ITK[1153.69]VYELGNEPER.K Q8NFD5:1046 1 ARID1B 1.71525 0.625 K.ITK[2389.33]VYELGNEPER.K Q8NFD5:1046 1 ARID1B 2.636 0.92307692 R.MPYEPNK[2560.22]DPFGGM[147.04]R.K Q8NFD5:1266 1 ARID1B 3.30975 1.03846154 R.MPYEPNK[2560.24]DPFGGM[147.04]R.K Q8NFD5:1266 1 ARID1B 9.477 1.76190476 R.SSTISVHDPFSDVSDSSFPK[1624.79]R.N Q8NFD5:1237 1 ARID1B 5.41275 0.90476191 R.SSTISVHDPFSDVSDSSFPK[1624.79]R.N Q8NFD5:1237 1 ARID1B 1.05 0.72222222 K.Q[111.03]ASKFDK[1710.01]LPIK.I Q8NFD5:1773 1 ARID1B 2.4745 1.20833333 K.FPFGIQQAK[1519.84]SHR.N Q8NFD5:1898 1 ARID1B 1.6895 0.83333333 K.FPFGIQQAK[1519.84]SHR.N Q8NFD5:1898 1 ARID1B 5.71775 2.33333333 K.FPFGIQQAK[1491.83]SHR.N Q8NFD5:1898 1 ARID1B 6.1525 1.06666667 R.PGALPEDANPGPQTESSKFPFGIQQAK[1491.83]SHR.N Q8NFD5:1898 1 ARID1B 4.1745 1.83333333 K.FPFGIQQAK[1491.83]SHR.N Q8NFD5:1898 1 ARID1B 2.65025 1.875 K.FPFGIQQAK[1491.83]SHR.N Q8NFD5:1898 1 ARID1B 3.36725 0.55 R.PGALPEDANPGPQTESSKFPFGIQQAK[1491.83]SHR.N Q8NFD5:1898 1 ARID1B 15.14525 1.72972973 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1038.56]R.H Q8NFD5:1360 1 ARID1B 13.1895 1.64864865 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1038.56]R.H Q8NFD5:1360 1 ARID1B 13.358 1.32432432 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1038.56]R.H Q8NFD5:1360 1 ARID1B 13.15425 1.51388889 R.HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1038.56]R.H Q8NFD5:1360 1 ARID1B 10.72275 1.36111111 R.HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1038.56]R.H Q8NFD5:1360 1 ARID1B 7.0015 0.85135135 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1038.56]R.H Q8NFD5:1360 1 ARID1B 1.1785 1.33333333 R.K[4426.16]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 2 ARID1B 14.51325 1.5 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.79]R.H Q8NFD5:1360 1 ARID1B 13.757 1.2027027 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.79]R.H Q8NFD5:1360 1 ARID1B 12.53025 1.35135135 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.79]R.H Q8NFD5:1360 1 ARID1B 12.46925 1.2027027 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.79]R.H Q8NFD5:1360 1 ARID1B 12.21675 1.31081081 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.79]R.H Q8NFD5:1360 1 ARID1B 1.454 0.81818182 R.HMDGM[147.04]YGPPAK[4426.13]R.H Q8NFD5:1372 1 ARID1B 1.67125 0.81818182 R.HMDGM[147.04]YGPPAK[4426.12]R.H Q8NFD5:1372 1 ARID1B 1.2065 0.54545455 R.HMDGMYGPPAK[4426.12]R.H Q8NFD5:1372 1 ARID1B 1.45525 0.81818182 R.HMDGMYGPPAK[4426.13]R.H Q8NFD5:1372 1 ARID1B 1.10375 0.63636364 R.HM[147.04]DGM[147.04]YGPPAK[4426.14]R.H Q8NFD5:1372 1 ARID1B 9.493 1.05405405 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.79]R.H Q8NFD5:1360 1 ARID1B 2.2885 1.09090909 R.HMDGMYGPPAK[4270.04]R.H Q8NFD5:1372 1 ARID1B 1.3145 0.86363636 R.HMDGM[147.04]YGPPAK[4426.2]R.H Q8NFD5:1372 1 ARID1B 1.37175 0.77272727 R.HMDGMYGPPAK[4426.16]R.H Q8NFD5:1372 1 ARID1B 7.53975 0.81944444 R.HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.79]R.H Q8NFD5:1360 1 ARID1B 0.94675 0.63636364 R.HM[147.04]DGM[147.04]YGPPAK[4426.12]R.H Q8NFD5:1372 1 ARID1B 6.553 0.78378378 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.79]R.H Q8NFD5:1360 1 ARID1B 1.27175 0.63636364 R.HM[147.04]DGM[147.04]YGPPAK[4270.06]R.H Q8NFD5:1372 1 ARID1B 4.124 0.47222222 R.HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.79]R.H Q8NFD5:1360 1 ARID1B 9.37175 3.83333333 R.HMDGMYGPPAK[1038.56]R.H Q8NFD5:1372 1 ARID1B 7.3225 3.04166667 R.HMDGMYGPPAK[1038.56]R.H Q8NFD5:1372 1 ARID1B 6.8035 2.75 R.HMDGMYGPPAK[1038.56]R.H Q8NFD5:1372 1 ARID1B 2.71425 1.5 R.K[1640.77]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 2 ARID1B 2.56325 1.5 R.K[1656.78]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 2 ARID1B 1.6455 1 R.K[1640.77]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 2 ARID1B 2.2775 1.5 R.K[1640.76]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 2 ARID1B 1.70875 1.41666667 R.K[1640.75]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 2 ARID1B 0.91975 0.55555556 R.GEEPPPEVFSTGDTKK[3334.76]QPK.L Q8NFD5:1161 1 ARID1B 1.29975 0.80769231 K.RAPQTYEK[2574.23]EEDEDK.G Q8NFD5:1984 1 ARID1B 11.20975 1.94444444 K.GVAC[160.03]SK[1846.85]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 1 ARID1B 11.2975 1.91666667 K.GVAC[160.03]SK[1846.85]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 1 ARID1B 0.9745 0.57692308 K.RAPQTYEK[2574.17]EEDEDK.G Q8NFD5:1984 1 ARID1B 0.93025 0.61538462 K.RAPQTYEK[2574.22]EEDEDK.G Q8NFD5:1984 1 ARID1B 3.22775 0.91666667 R.APQTYEK[2574.22]EEDEDK.G Q8NFD5:1984 1 ARID1B 1.06625 0.57692308 K.RAPQTYEK[2574.26]EEDEDK.G Q8NFD5:1984 1 ARID1B 3.8395 1.33333333 R.APQTYEK[2574.22]EEDEDK.G Q8NFD5:1984 1 ARID1B 2.447 0.73076923 K.RAPQTYEK[2574.22]EEDEDK.G Q8NFD5:1984 1 ARID1B 2.45825 0.58333333 K.GVAC[160.03]SK[1846.85]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 1 ARID1B 1.30225 0.61538462 K.RAPQTYEK[2574.23]EEDEDK.G Q8NFD5:1984 1 ARID1B 1.2875 0.53846154 K.RAPQTYEK[2574.18]EEDEDK.G Q8NFD5:1984 1 ARID1B 1.838 0.44444444 K.GVAC[160.03]SK[1846.85]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 1 ARID1B 3.0605 0.75 K.GVAC[160.03]SK[1846.85]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 1 ARID1B 2.84175 0.875 R.APQTYEK[2574.25]EEDEDK.G Q8NFD5:1984 1 ARID1B 0.3445 0.26923077 K.SHRNIK[1369.77]LLEDEPR.S Q8NFD5:1904 1 ARID1B 4.1185 2 R.QEK[1491.83]FYATLVR.Y Q8NFD5:2097 1 ARID1B 3.20325 1.6 R.QEK[1491.83]FYATLVR.Y Q8NFD5:2097 1 ARID1B 2.55925 1.2 R.QEK[1491.83]FYATLVR.Y Q8NFD5:2097 1 ARID1B 1.04725 0.85 R.QEK[1491.83]FYATLVR.Y Q8NFD5:2097 1 ARID1B 3.729 1.39285714 R.MPYEPNK[1081.63]DPFGGMR.K Q8NFD5:1266 1 ARID1B 13.8955 2.6 R.K[1081.63]AQEAAAAVMQAAANSAQSR.Q Q8NFD5:928 1 ARID1B 12.6495 1.57142857 K.C[160.03]LIDIFGILMEYEVGDPSQK[940.53]ALDHNAAR.K Q8NFD5:1696 1 ARID1B 2.8225 0.85 R.SRDETPLC[160.03]TIAHWQDSLAK[2348.27]R.C Q8NFD5:1930 1 ARID1B 8.1135 1.77777778 R.EITFPPGSVEASQPVLK[2649.33]QR.R Q8NFD5:1608 1 ARID1B 6.80825 1.41666667 R.EITFPPGSVEASQPVLK[2649.3]QR.R Q8NFD5:1608 1 ARID1B 3.58075 1.175 R.SRDETPLC[160.03]TIAHWQDSLAK[2348.27]R.C Q8NFD5:1930 1 ARID1B 2.7695 0.875 R.SRDETPLC[160.03]TIAHWQDSLAK[2348.27]R.C Q8NFD5:1930 1 ARID1B 2.1455 0.775 R.SRDETPLC[160.03]TIAHWQDSLAK[2348.27]R.C Q8NFD5:1930 1 ARID1B 1.2705 0.375 R.SRDETPLC[160.03]TIAHWQDSLAK[2348.27]R.C Q8NFD5:1930 1 ARID1B 5.58675 1.85714286 R.MPYEPNK[1038.56]DPFGGMR.K Q8NFD5:1266 1 ARID1B 10.101 1.21621622 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1903.9]R.H Q8NFD5:1360 1 ARID1B 8.775 1.01351351 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1903.9]R.H Q8NFD5:1360 1 ARID1B 6.34025 1.89285714 R.MPYEPNK[1624.79]DPFGGMR.K Q8NFD5:1266 1 ARID1B 5.49925 1.75 R.MPYEPNK[1624.79]DPFGGMR.K Q8NFD5:1266 1 ARID1B 2.081 1.18181818 R.HMDGMYGPPAK[1919.89]R.H Q8NFD5:1372 1 ARID1B 12.926 2.425 R.K[1903.9]AQEAAAAVMQAAANSAQSR.Q Q8NFD5:928 1 ARID1B 11.151 2.25 R.K[1903.9]AQEAAAAVMQAAANSAQSR.Q Q8NFD5:928 1 ARID1B 8.84925 2.02777778 K.INK[284.17]K[2646.3]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 12.468 2.5 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 4.90225 1.22222222 K.INKK[2646.23]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 6.12525 1.6875 K.K[2662.28]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 9.71575 2.28571429 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 8.29325 1.76190476 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 7.267 2.03125 K.K[2662.28]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 7.48 1.90625 K.K[2662.25]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 8.8455 1.85714286 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 7.213 1.61904762 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 8.6925 1.5952381 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 7.82025 1.45238095 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 4.11675 1.03125 K.K[2646.37]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 5.94225 1.52380952 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 7.90275 1.42857143 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 4.93775 1.40476191 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 4.0095 1.25 K.K[2646.26]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 3.973 1.0625 K.K[2662.3]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 3.0795 0.90625 K.K[2662.32]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 3.706 0.75 K.K[2646.28]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 5.071 1.23809524 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 2.1605 0.625 K.K[2646.35]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 2.284 0.64285714 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 1.33875 1.41666667 R.TDPLEK[2239.23]R.G Q92785:130 1 DPF2 3.69575 1 R.AHPPEDPRLSFPSIK[1123.62]PDTDQTLK.K Q92785:99 1 DPF2 1.422 1.66666667 R.TDPLEK[2083.15]R.G Q92785:130 1 DPF2 1.03175 0.83333333 R.TDPLEK[2083.15]R.G Q92785:130 1 DPF2 1.07525 0.91666667 R.TDPLEK[1955.07]R.G Q92785:130 1 DPF2 0.9765 0.58333333 R.TDPLEK[2083.14]R.G Q92785:130 1 DPF2 1.626 1.35 K.SKGK[1123.62]GVGSAR.K Q92785:188 1 DPF2 2.455 1.71428571 R.TDPLEK[996.57]R.G Q92785:130 1 DPF2 1.892 2.14285714 R.TDPLEK[996.57]R.G Q92785:130 1 DPF2 8.087 1.76190476 K.K[1123.62]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 6.4005 2.1875 K.K[1123.62]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 15.95575 2.16176471 K.NRPGLSYHYAHSHLAEEEGEDK[1123.62]EDSQPPTPVSQR.S Q92785:241 1 DPF2 14.658 1.83823529 K.NRPGLSYHYAHSHLAEEEGEDK[1123.62]EDSQPPTPVSQR.S Q92785:241 1 DPF2 12.443 3.40625 K.K[996.57]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 10.0705 2.8125 K.K[996.57]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 1.91925 1.5 K.GK[2599.26]GVGSAR.K Q92785:188 1 DPF2 9.29125 2.21875 K.K[1211.7]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 15.122 1.95588235 K.NRPGLSYHYAHSHLAEEEGEDK[996.57]EDSQPPTPVSQR.S Q92785:241 1 DPF2 11.54175 1.57352941 K.NRPGLSYHYAHSHLAEEEGEDK[996.57]EDSQPPTPVSQR.S Q92785:241 1 DPF2 1.973 1.42857143 K.GK[4125.94]GVGSAR.K Q92785:188 1 DPF2 4.92875 0.76470588 K.NRPGLSYHYAHSHLAEEEGEDK[996.57]EDSQPPTPVSQR.S Q92785:241 1 DPF2 1.45 0.92857143 K.GK[2646.27]GVGSAR.K Q92785:188 1 DPF2 5.10675 2.13636364 R.KK[996.57]LDASILEDR.D Q92785:196 1 DPF2 1.3145 0.88888889 K.SKGK[1552.89]GVGSAR.K Q92785:188 1 DPF2 8.3945 2.81818182 R.K[996.57]KLDASILEDR.D Q92785:195 1 DPF2 5.50575 1.90909091 R.K[996.57]KLDASILEDR.D Q92785:195 1 DPF2 3.60525 1.8 R.KK[1903.92]LDASILEDR.D Q92785:196 1 DPF2 1.373 0.95 R.KK[1903.92]LDASILEDR.D Q92785:196 1 DPF2 1.217 0.90909091 R.K[1903.87]K[284.17]LDASILEDR.D Q92785:195 1 DPF2 6.08975 2.1875 R.LSFPSIKPDTDQTLK[1123.62]K.E Q92785:107 1 DPF2 3.2075 1.21875 R.LSFPSIKPDTDQTLK[1123.62]K.E Q92785:107 1 DPF2 2.55275 1.25 R.LSFPSIKPDTDQTLK[1123.62]K.E Q92785:107 1 DPF2 7.4275 1.12 K.PDTDQTLK[2081.14]KEGLISQDGSSLEALLR.T Q92785:107 1 DPF2 5.86775 1.04 K.PDTDQTLK[2081.14]KEGLISQDGSSLEALLR.T Q92785:107 1 DPF2 4.666 1.11764706 K.K[2979.64]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.8465 0.82142857 R.LSFPSIK[3135.66]PDTDQTLK.K Q92785:99 1 DPF2 1.35175 0.92857143 R.LSFPSIK[2979.52]PDTDQTLK.K Q92785:99 1 DPF2 1.9115 0.63043478 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 1.61475 0.57142857 R.LSFPSIK[3135.63]PDTDQTLK.K Q92785:99 1 DPF2 1.5725 0.82142857 R.LSFPSIK[3135.67]PDTDQTLK.K Q92785:99 1 DPF2 6.40925 1.02083333 K.KGPDGLALPNNYC[160.03]DFC[160.03]LGDSK[2087.96]INK.K Q92785:281 1 DPF2 6.7005 1.1875 K.KGPDGLALPNNYC[160.03]DFC[160.03]LGDSK[2087.96]INK.K Q92785:281 1 DPF2 4.27475 0.89130435 K.GPDGLALPNNYC[160.03]DFC[160.03]LGDSK[2087.96]INK.K Q92785:281 1 DPF2 4.80825 0.9375 K.KGPDGLALPNNYC[160.03]DFC[160.03]LGDSK[2087.96]INK.K Q92785:281 1 DPF2 1.248 0.35416667 K.KGPDGLALPNNYC[160.03]DFC[160.03]LGDSK[2087.96]INK.K Q92785:281 1 DPF2 22.1055 2.70588235 K.NRPGLSYHYAHSHLAEEEGEDK[1100.57]EDSQPPTPVSQR.S Q92785:241 1 DPF2 18.74525 2.33823529 K.NRPGLSYHYAHSHLAEEEGEDK[1100.57]EDSQPPTPVSQR.S Q92785:241 1 DPF2 1.06425 1.33333333 R.SEEQK[4125.91]SK.K Q92785:258 1 DPF2 0.993 1.14285714 R.SEEQK[4125.96]SK[284.17]K.G Q92785:258 1 DPF2 10.50425 1.16176471 K.NRPGLSYHYAHSHLAEEEGEDK[1100.57]EDSQPPTPVSQR.S Q92785:241 1 DPF2 3.7065 0.41176471 K.NRPGLSYHYAHSHLAEEEGEDK[3201.59]EDSQPPTPVSQR.S Q92785:241 1 DPF2 1.681 0.14705882 K.NRPGLSYHYAHSHLAEEEGEDK[3201.59]EDSQPPTPVSQR.S Q92785:241 1 DPF2 2.68725 0.41176471 K.NRPGLSYHYAHSHLAEEEGEDK[2606.21]EDSQPPTPVSQR.S Q92785:241 1 DPF2 6.21025 0.73529412 K.NRPGLSYHYAHSHLAEEEGEDK[2087.96]EDSQPPTPVSQR.S Q92785:241 1 DPF2 16.93875 2.61904762 R.SGHPSC[160.03]LQFTPVMMAAVK[1100.57]TYR.W Q92785:318 1 DPF2 13.0445 2.38095238 R.SGHPSC[160.03]LQFTPVMMAAVK[1100.57]TYR.W Q92785:318 1 DPF2 7.3195 1.23809524 R.SGHPSC[160.03]LQFTPVMMAAVK[1100.57]TYR.W Q92785:318 1 DPF2 16.662 3.04761905 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 14.23325 2.61904762 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 12.24525 2.21428571 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 11.37225 2 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 10.3035 2.02380952 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 10.264 1.90476191 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 0.9425 1 R.SEEQK[2606.2]SK.K Q92785:258 1 DPF2 9.1445 1.80952381 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 0.924 1.08333333 R.SEEQK[2606.16]SK.K Q92785:258 1 DPF2 6.1975 1.47619048 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 0.9315 1 R.SEEQK[2606.15]SK.K Q92785:258 1 DPF2 3.5325 1.33333333 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 1.789 0.375 R.ILEPDDFLDDLDDEDYEEDTPK[2646.31]RR.G Q92785:178 1 DPF2 1.57125 0.39130435 R.ILEPDDFLDDLDDEDYEEDTPK[2646.31]R.R Q92785:178 1 DPF2 1.30175 0.3125 R.ILEPDDFLDDLDDEDYEEDTPK[2646.31]RR.G Q92785:178 1 DPF2 12.70375 2.0625 R.ILEPDDFLDDLDDEDYEEDTPK[996.57]RR.G Q92785:178 1 DPF2 12.623 2.02083333 R.ILEPDDFLDDLDDEDYEEDTPK[996.57]RR.G Q92785:178 1 DPF2 11.06725 1.9375 R.ILEPDDFLDDLDDEDYEEDTPK[1211.7]RR.G Q92785:178 1 DPF2 10.8175 1.64583333 R.ILEPDDFLDDLDDEDYEEDTPK[996.57]RR.G Q92785:178 1 DPF2 8.9275 1.47916667 R.ILEPDDFLDDLDDEDYEEDTPK[996.57]RR.G Q92785:178 1 DPF2 1.109 0.92857143 K.GK[3062.34]GVGSAR.K Q92785:188 1 DPF2 6.25675 0.91304348 R.ILEPDDFLDDLDDEDYEEDTPK[996.57]R.R Q92785:178 1 DPF2 17.06975 2.72916667 R.ILEPDDFLDDLDDEDYEEDTPK[684.42]RR.G Q92785:178 1 DPF2 1.99325 1.11111111 K.SK[3218.49]GK[284.17]GVGSAR.K Q92785:186 1 DPF2 1.01825 0.72222222 K.SK[3218.47]GK[284.17]GVGSAR.K Q92785:186 1 DPF2 9.73025 1.54166667 R.ILEPDDFLDDLDDEDYEEDTPK[1552.88]RR.G Q92785:178 1 DPF2 6.14025 0.91666667 R.ILEPDDFLDDLDDEDYEEDTPK[1552.88]RR.G Q92785:178 1 DPF2 4.0025 1.5 R.K[3218.46]K[284.17]LDASILEDR.D Q92785:195 1 DPF2 21.159 3.73913044 R.ILEPDDFLDDLDDEDYEEDTPK[810.51]R.R Q92785:178 1 DPF2 16.82375 2.63043478 R.ILEPDDFLDDLDDEDYEEDTPK[810.51]R.R Q92785:178 1 DPF2 17.17325 2.86956522 R.ILEPDDFLDDLDDEDYEEDTPK[810.51]R.R Q92785:178 1 DPF2 14.55825 2.39130435 R.ILEPDDFLDDLDDEDYEEDTPK[810.51]R.R Q92785:178 1 DPF2 12.86475 1.9375 R.ILEPDDFLDDLDDEDYEEDTPK[869.53]RR.G Q92785:178 1 DPF2 10.61375 1.60416667 R.ILEPDDFLDDLDDEDYEEDTPK[869.53]RR.G Q92785:178 1 DPF2 4.799 0.875 R.ILEPDDFLDDLDDEDYEEDTPK[1955.06]RR.G Q92785:178 1 DPF2 4.61575 0.83333333 R.ILEPDDFLDDLDDEDYEEDTPK[1955.06]RR.G Q92785:178 1 DPF2 11.91325 1.5 R.ILEPDDFLDDLDDEDYEEDTPK[1100.57]R.R Q92785:178 1 DPF2 11.94575 2.55882353 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 12.323 2.67647059 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 11.843 2.38235294 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 11.82925 2.44117647 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 12.23075 2.67647059 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 11.766 2.23529412 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 10.687 2.05882353 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 11.52325 2.29411765 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 10.49225 2.08823529 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 12.291 2.55882353 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 3.99925 1.19565217 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 12.42825 2.52941177 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 11.83325 2.5 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 2.8305 0.69565217 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 3.13825 0.93478261 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 9.13525 2.02941177 K.K[2239.26]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.9395 1.07142857 R.LSFPSIK[2081.18]PDTDQTLK.K Q92785:99 1 DPF2 7.55475 1.5 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 7.5885 1.61764706 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 3.5675 1.06521739 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 1.77275 0.5 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 1.829 0.56521739 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 7.16325 1.47058824 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.476 0.71428571 R.LSFPSIK[2081.19]PDTDQTLK.K Q92785:99 1 DPF2 1.453 0.41304348 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 2.86175 0.89130435 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 1.5315 0.64285714 R.LSFPSIK[2081.18]PDTDQTLK.K Q92785:99 1 DPF2 5.39 1.11764706 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 2.6515 0.76086957 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 0.929 0.2173913 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 1.23925 0.32608696 R.AHPPEDPRLSFPSIK[2081.14]PDTDQTLK.K Q92785:99 1 DPF2 7.8195 1.70588235 K.K[2081.14]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.65025 0.41666667 R.ILEPDDFLDDLDDEDYEEDTPK[2081.14]RR.G Q92785:178 1 DPF2 16.747 3.70588235 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 16.3765 3.76470588 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 15.3585 3.17647059 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 14.7305 3.02941177 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 14.67575 2.91176471 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 14.609 2.97058824 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 13.61275 2.91176471 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 13.4275 2.76470588 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.132 1.25 R.TDPLEK[2081.13]R.G Q92785:130 1 DPF2 11.824 2.38235294 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.03175 1.5 K.RPMK[1285.67]QK.R Q6STE5:152 1 SMARCD3 1.036 1.5 R.K[1465.8]LR.I Q92925:193 Q6STE5:156 Q96GM5:181 3 SMARCD3 10.35775 1.51851852 R.LYISNTFNPAK[2597.34]PDAEDSDGSIASWELR.V Q6STE5:169 1 SMARCD3 1.2 0.85714286 R.K[2464.21]PLDLYR.L O14497:1047 1 ARID1A 4.74 1.275 R.YLAFTEEK[1169.68]AMGMTNLPAVGR.K O14497:1034 1 ARID1A 3.97325 1.5 K.ITK[1434.72]LYELGGEPERK.M O14497:1010 1 ARID1A 8.8505 3.60714286 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 7.73375 2.21428571 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 7.99025 2.25 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 7.14675 1.96428571 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 7.382 3.17857143 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 6.91225 2.76923077 K.ITK[1169.68]LYELGGEPER.K O14497:1010 1 ARID1A 6.37225 1.82142857 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 6.351 2.42857143 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 6.218 1.75 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 5.6905 2.34615385 K.ITK[1169.68]LYELGGEPER.K O14497:1010 1 ARID1A 6.257 2.21428571 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 5.773 1.46428571 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 5.76625 1.75 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 5.046 2 K.ITK[1169.68]LYELGGEPER.K O14497:1010 1 ARID1A 4.96975 1.26923077 K.ITK[1169.68]LYELGGEPER.K O14497:1010 1 ARID1A 3.96275 1.15384615 K.ITK[1169.68]LYELGGEPER.K O14497:1010 1 ARID1A 4.289 1.07692308 K.ITK[1169.68]LYELGGEPER.K O14497:1010 1 ARID1A 6.93925 2.5 K.ITK[1099.58]LYELGGEPER.K O14497:1010 1 ARID1A 6.2275 2.07692308 K.ITK[1099.58]LYELGGEPER.K O14497:1010 1 ARID1A 1.6365 1.5 R.K[1769.96]M[147.04]WVDR.Y O14497:1021 1 ARID1A 4.231 1.38461539 K.ITK[1099.58]LYELGGEPER.K O14497:1010 1 ARID1A 12.1765 1.94444444 R.K[1504.83]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 10.59825 2.14814815 R.K[1504.83]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 8.16625 1.14814815 R.K[3673.81]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 17.514 2.37037037 R.K[1657.98]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 16.9135 1.90740741 R.K[1786.07]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 15.216 1.96296296 R.K[1657.98]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.116 0.65 K.LILLHHK[3220.59]HPER.K O14497:2020 1 ARID1A 14.31575 1.96296296 R.K[1657.98]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 0.95425 0.55 K.LILLHHK[3220.57]HPER.K O14497:2020 1 ARID1A 1.38475 0.77272727 K.LILLHHK[3064.49]HPERK.Q O14497:2020 1 ARID1A 11.92275 1.7037037 R.K[1330.7]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 6.25025 0.96296296 R.K[1330.7]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 3.4105 0.72413793 R.NIK[2655.37]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 0.9585 0.54166667 K.LILLHHK[1330.7]HPERK.Q O14497:2020 1 ARID1A 1.901 0.95454546 K.LILLHHK[1330.7]HPER.K O14497:2020 1 ARID1A 7.7585 1.475 R.RC[160.03]LIEIFGILK[3999.02]EYEVGDPGQR.T O14497:1732 1 ARID1A 6.72725 1.55263158 R.C[160.03]LIEIFGILK[3998.93]EYEVGDPGQR.T O14497:1732 1 ARID1A 4.46975 0.76470588 R.IGGGDTTEHIQTHFESK[2601.35]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 5.0115 0.69117647 R.IGGGDTTEHIQTHFESK[2601.35]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 3.50475 0.66176471 R.IGGGDTTEHIQTHFESK[2601.35]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 12.39925 2.27586207 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 3.58825 1.38888889 R.LEK[3673.85]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 10.4975 1.77586207 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 9.999 1.39655172 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 3.037 1.38888889 R.LEK[3673.8]LYSTMVR.F O14497:2146 1 ARID1A 9.007 1.34482759 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 8.554 1.20689655 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 2.79475 1.38888889 R.LEK[3673.85]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 2.57275 1.11111111 R.LEK[3673.84]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 7.779 1.13793103 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 6.99375 0.98275862 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 6.11825 0.9137931 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 5.41825 2.20833333 R.NIK[1504.83]ILEDEPHSK.D O14497:1953 1 ARID1A 5.55775 0.9137931 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 1.5035 0.72222222 R.LEK[3673.85]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 4.498 1.66666667 R.NIK[1504.83]ILEDEPHSK.D O14497:1953 1 ARID1A 4.581 0.81034483 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 3.498 1.61111111 R.LEK[3829.93]LYSTMVR.F O14497:2146 1 ARID1A 5.67725 0.82758621 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 4.11925 1.66666667 R.NIK[1504.83]ILEDEPHSK.D O14497:1953 1 ARID1A 4.3295 0.74137931 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 3.773 0.56896552 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 16.5155 2.32758621 R.NIK[1786.07]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 12.87225 1.72413793 R.NIK[1786.07]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 11.57125 1.65517241 R.NIK[1657.98]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 4.95625 1.875 K.LILLHHK[1687.91]HPERK.Q O14497:2020 1 ARID1A 5.4085 2.3 K.LILLHHK[1687.9]HPER.K O14497:2020 1 ARID1A 5.18825 2.15 K.LILLHHK[1687.9]HPER.K O14497:2020 1 ARID1A 3.00825 1.13636364 R.NIK[1786.08]ILEDEPHSK.D O14497:1953 1 ARID1A 3.32225 1.5 R.NIK[1657.98]ILEDEPHSK.D O14497:1953 1 ARID1A 2.92975 1.41666667 K.LILLHHK[1687.91]HPERK.Q O14497:2020 1 ARID1A 6.794 0.84482759 R.NIK[1657.98]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 6.79725 0.86206897 R.NIK[1786.07]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 8.2985 2.3 K.DKPASENSEEK[1111.66]LISK.F O14497:1804 1 ARID1A 7.86825 1.9 K.DKPASENSEEK[1111.66]LISK.F O14497:1804 1 ARID1A 7.09525 1.4 K.DKPASENSEEK[1111.66]LISK.F O14497:1804 1 ARID1A 8.6205 1.68 R.K[1169.68]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 7.9665 1.22 R.K[1169.68]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 16.25475 2.40476191 R.SNSVGIQDAFNDGSDSTFQK[1169.68]R.N O14497:1201 1 ARID1A 9.23025 2.96428571 R.MSYEPNK[1169.68]DPYGSMR.K O14497:1230 1 ARID1A 8.11 2.42857143 R.MSYEPNK[1169.68]DPYGSMR.K O14497:1230 1 ARID1A 1.471 1.71428571 R.K[1955.91]PLDLYR.L O14497:1047 1 ARID1A 5.21425 2.09090909 K.K[1169.68]SSSSTTTNEK.I O14497:997 1 ARID1A 4.47375 1.5 K.K[1169.68]SSSSTTTNEK.I O14497:997 1 ARID1A 4.08525 1.54545455 K.K[1169.68]SSSSTTTNEK.I O14497:997 1 ARID1A 4.23425 1.54545455 K.K[1169.68]SSSSTTTNEK.I O14497:997 1 ARID1A 4.6875 0.96296296 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[2655.37]R.I O14497:1905 1 ARID1A 2.85775 0.78571429 K.SSEAIK[3064.52]ESSKFPFGISPAQSHR.N O14497:1934 1 ARID1A 1.9875 1.1 K.LILLHHK[3220.56]HPER.K O14497:2020 1 ARID1A 13.1855 2.37037037 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1657.98]R.I O14497:1905 1 ARID1A 1.79475 0.85 K.LILLHHK[3220.56]HPER.K O14497:2020 1 ARID1A 12.051 1.64814815 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1657.98]R.I O14497:1905 1 ARID1A 1.47875 0.65 K.LILLHHK[3064.51]HPER.K O14497:2020 1 ARID1A 9.441 1.55555556 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1657.98]R.I O14497:1905 1 ARID1A 1.56275 0.85 K.LILLHHK[3220.59]HPER.K O14497:2020 1 ARID1A 1.34 0.72727273 K.LILLHHK[3220.61]HPERK.Q O14497:2020 1 ARID1A 0.9705 0.72727273 K.LILLHHK[3220.59]HPERK.Q O14497:2020 1 ARID1A 1.799 0.85 K.LILLHHK[3220.62]HPER.K O14497:2020 1 ARID1A 1.04925 0.59090909 K.LILLHHK[3220.57]HPERK.Q O14497:2020 1 ARID1A 3.20075 0.44444444 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1657.98]R.I O14497:1905 1 ARID1A 7.2285 1.30769231 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[3673.88]R.I O14497:1905 1 ARID1A 6.085 1.01923077 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[3673.79]R.I O14497:1905 1 ARID1A 2.06125 0.51923077 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[3673.9]R.I O14497:1905 1 ARID1A 1.864 0.94444444 R.LEK[3220.54]LYSTMVR.F O14497:2146 1 ARID1A 14.27275 1.94444444 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1888.96]R.I O14497:1905 1 ARID1A 13.48875 1.96296296 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1888.96]R.I O14497:1905 1 ARID1A 6.93 1.24074074 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[2320.16]R.I O14497:1905 1 ARID1A 1.413 0.56666667 R.SSTLTEDGAK[3220.59]SSEAIK.E O14497:1928 1 ARID1A 6.59675 1.06 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 1.5315 0.61538462 R.MSYEPNK[2778.2]DPYGSMR.K O14497:1230 1 ARID1A 2.92775 1.38461539 R.MSYEPNK[2762.18]DPYGSMR.K O14497:1230 1 ARID1A 4.56925 0.78 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 5.10975 0.86 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 1.8305 0.80769231 R.MSYEPNK[2778.24]DPYGSMR.K O14497:1230 1 ARID1A 2.2425 1.07692308 R.MSYEPNK[2778.19]DPYGSMR.K O14497:1230 1 ARID1A 2.7845 1.07692308 R.MSYEPNK[2778.19]DPYGSM[147.04]R.K O14497:1230 1 ARID1A 1.51775 0.65384615 R.MSYEPNK[2762.19]DPYGSMR.K O14497:1230 1 ARID1A 1.971 0.76923077 R.MSYEPNK[2778.22]DPYGSM[147.04]R.K O14497:1230 1 ARID1A 1.9185 0.65384615 R.M[147.04]SYEPNK[2762.19]DPYGSMR.K O14497:1230 1 ARID1A 2.753 1.26923077 R.MSYEPNK[2778.27]DPYGSM[147.04]R.K O14497:1230 1 ARID1A 1.46175 0.73076923 R.MSYEPNK[2778.19]DPYGSMR.K O14497:1230 1 ARID1A 1.70675 0.61538462 R.MSYEPNK[2778.24]DPYGSM[147.04]R.K O14497:1230 1 ARID1A 2.2555 0.96153846 R.M[147.04]SYEPNK[2762.19]DPYGSMR.K O14497:1230 1 ARID1A 3.643 0.96 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 2.20425 1.41666667 R.K[1939.86]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 2 ARID1A 2.38525 1.07142857 R.MSYEPNK[1782.93]DPYGSMR.K O14497:1230 1 ARID1A 0.969 0.35714286 R.MSYEPNK[1782.93]DPYGSMR.K O14497:1230 1 ARID1A 4.158 0.95 R.DITFPPGSVEATQPVLK[2355.23]QRR.R O14497:1654 1 ARID1A 1.59925 0.96153846 K.NDPFVVDC[160.03]SDK[3999.11]LGR.V O14497:1830 1 ARID1A 1.674 1.04545455 K.LILLHHK[3673.8]HPERK.Q O14497:2020 1 ARID1A 6.80575 1.05769231 K.ILEDEPHSK[1657.98]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 1 ARID1A 2.8505 1.44444444 R.LEK[3829.89]LYSTMVR.F O14497:2146 1 ARID1A 7.06825 1.01724138 R.NIKILEDEPHSK[1504.83]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 1 ARID1A 5.68075 0.86206897 R.NIKILEDEPHSK[1504.83]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 1 ARID1A 1.30475 1 R.LEK[3673.8]LYSTMVR.F O14497:2146 1 ARID1A 3.4465 1.81818182 K.LILLHHK[1342.75]HPER.K O14497:2020 1 ARID1A 5.45 1.29166667 R.LTMK[1955.01]DIGTPEAWR.V O14497:1662 1 ARID1A 7.54025 2.09375 K.ESSK[1888.96]FPFGISPAQSHR.N O14497:1938 1 ARID1A 7.672 1.9375 K.ESSK[1888.96]FPFGISPAQSHR.N O14497:1938 1 ARID1A 7.39525 2.03333333 R.SSTLTEDGAK[2022.03]SSEAIK.E O14497:1928 1 ARID1A 4.82975 1.6 R.SSTLTEDGAK[2040.05]SSEAIK.E O14497:1928 1 ARID1A 7.8015 2.1875 K.ESSK[1888.96]FPFGISPAQSHR.N O14497:1938 1 ARID1A 5.408 1.6 R.SSTLTEDGAK[2022.02]SSEAIK.E O14497:1928 1 ARID1A 3.33575 1.1 R.SSTLTEDGAK[2022.02]SSEAIK.E O14497:1928 1 ARID1A 6.94 1.8125 K.ESSK[1888.96]FPFGISPAQSHR.N O14497:1938 1 ARID1A 4.6905 1.5 R.SSTLTEDGAK[2022.05]SSEAIK.E O14497:1928 1 ARID1A 2.7795 0.71875 K.ESSK[1888.96]FPFGISPAQSHR.N O14497:1938 1 ARID1A 1.8135 0.375 K.ESSK[1888.96]FPFGISPAQSHR.N O14497:1938 1 ARID1A 1.69425 0.6875 K.ESSK[1888.96]FPFGISPAQSHR.N O14497:1938 1 ARID1A 8.678 1.5952381 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 9.069 1.54761905 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 8.68825 1.69047619 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 6.0415 1.38095238 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 1.72425 0.57692308 R.MSYEPNK[2538.15]DPYGSMR.K O14497:1230 1 ARID1A 5.63125 1.11904762 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 5.66775 1 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 3.20075 1.03846154 R.M[147.04]SYEPNK[2538.19]DPYGSMR.K O14497:1230 1 ARID1A 1.183 0.35714286 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 1.23925 0.54761905 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 2.00375 0.675 R.SNSVGIQDAFNDGSDSTFQK[2762.17]R.N O14497:1201 1 ARID1A 3.391 0.58 R.K[2538.2]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 9.24 2.05 R.YLAFTEEK[1099.58]AMGMTNLPAVGR.K O14497:1034 1 ARID1A 2.30175 1.5 R.K[1099.58]PLDLYR.L O14497:1047 1 ARID1A 0.914 0.63636364 K.LILLHHK[2864.56]HPERK.Q O14497:2020 1 ARID1A 1.119 0.8 K.LILLHHK[2864.49]HPER.K O14497:2020 1 ARID1A 5.56725 0.9375 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 4.35625 0.83333333 R.SLSFVPGNDFEMSK[1786.07]HPGLLLILGK.L O14497:2003 1 ARID1A 0.91425 0.65 K.LILLHHK[2864.55]HPER.K O14497:2020 1 ARID1A 4.947 1.08333333 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 4.35275 0.9375 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 3.043 0.70833333 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 3.3115 0.75 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 2.8535 0.625 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 1.483 0.81818182 K.LILLHHK[2864.5]HPERK.Q O14497:2020 1 ARID1A 2.6135 0.66666667 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 2.70225 0.625 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 1.82075 0.41666667 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 2.19125 0.4375 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 0.93025 0.25 R.SLSFVPGNDFEMSK[1657.98]HPGLLLILGK.L O14497:2003 1 ARID1A 1.5115 0.85 K.LTPATK[1298.67]MNNK.A O14497:980 1 ARID1A 2.555 1.66666667 R.K[1776.94]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 2 ARID1A 7.528 2.07692308 K.SSSSTTTNEK[1099.58]ITK.L O14497:1007 1 ARID1A 6.79575 1.73076923 K.SSSSTTTNEK[1099.58]ITK.L O14497:1007 1 ARID1A 8.862 2.34375 K.ESSK[1504.83]FPFGISPAQSHR.N O14497:1938 1 ARID1A 3.15925 1.77777778 R.LEK[2040.04]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 6.4325 1.59375 K.ESSK[1786.07]FPFGISPAQSHR.N O14497:1938 1 ARID1A 10.59 1.89130435 R.FSK[1657.98]VSSPAPMEGGEEEEELLGPK.L O14497:1752 1 ARID1A 9.6875 1.67391304 R.FSK[1657.98]VSSPAPMEGGEEEEELLGPK.L O14497:1752 1 ARID1A 8.8275 1.67391304 R.FSK[1657.98]VSSPAPMEGGEEEEELLGPK.L O14497:1752 1 ARID1A 6.28875 0.76666667 R.TLLDPGRFSK[1657.98]VSSPAPMEGGEEEEELLGPK.L O14497:1752 1 ARID1A 5.2235 0.73333333 R.TLLDPGRFSK[1657.98]VSSPAPMEGGEEEEELLGPK.L O14497:1752 1 ARID1A 5.6255 0.68518519 R.K[3999.05]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 0.80625 0.11764706 R.IGGGDTTEHIQTHFESK[3064.51]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 0.373 0.04411765 R.IGGGDTTEHIQTHFESK[3064.51]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 1 ARID1A 13.5845 2.08333333 R.GEMK[1152.63]AAAGQESEGPAVGPPQPLGK.E O14497:51 1 ARID1A 11.21325 1.8125 R.GEMK[2507.24]AAAGQESEGPAVGPPQPLGK.E O14497:51 1 ARID1A 2.42725 0.63636364 K.K[2571.3]AEQQQREEAGGEAAAAAAAER.G O14497:26 1 ARID1A 6.183 1.10416667 R.GEMK[2507.24]AAAGQESEGPAVGPPQPLGK.E O14497:51 1 ARID1A 10.67425 1.6875 R.GEMK[1152.63]AAAGQESEGPAVGPPQPLGK.E O14497:51 1 ARID1A 5.21625 1.22727273 K.K[2587.31]AEQQQREEAGGEAAAAAAAER.G O14497:26 1 ARID1A 8.4625 1.16666667 R.EEAGGEAAAAAAAERGEMK[1152.63]AAAGQESEGPAVGPPQPLGK.E O14497:51 1 ARID1A 7.294 1.04166667 R.GEMK[1152.63]AAAGQESEGPAVGPPQPLGK.E O14497:51 1 ARID1A 1.028 1.5 R.K[2560.4]C[160.03]F. Q562R1:374 P60709:373 2 ACTB 1.28525 1.625 R.K[2560.39]C[160.03]F. Q562R1:374 P60709:373 2 ACTB 0.9025 1.5 R.K[2560.39]C[160.03]F. Q562R1:374 P60709:373 2 ACTB 1.1805 1.5 R.K[2560.4]C[160.03]F. Q562R1:374 P60709:373 2 ACTB 0.988 1.5 R.K[2560.38]C[160.03]F. Q562R1:374 P60709:373 2 ACTB 1.10975 1.625 R.K[2560.42]C[160.03]F. Q562R1:374 P60709:373 2 ACTB 10.5795 1.83333333 R.VAPEEHPVLLTEAPLNPK[1394.81]ANR.E P60709:113 1 ACTB 6.62 1.28571429 R.VAPEEHPVLLTEAPLNPK[1394.81]ANR.E P60709:113 1 ACTB 7.12875 0.85483871 R.EK[2560.4]MTQIMFETFNTPAMYVAIQAVLSLYASGR.T P60709:118 1 ACTB 3.24125 1.83333333 K.IK[2624.32]IIAPPERK.Y Q562R1:329 P60709:328 2 ACTB 2.6075 1.0625 K.IK[2624.33]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.768 1.33333333 K.IK[2624.29]IIAPPERK.Y Q562R1:329 P60709:328 2 ACTB 2.49175 1.16666667 K.IK[2624.33]IIAPPERK.Y Q562R1:329 P60709:328 2 ACTB 2.489 1.0625 K.IK[2608.28]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.62875 1.0625 K.IK[2624.32]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 4.19125 1.10526316 K.EITALAPSTMK[284.17]IK[2608.33]IIAPPER.K P60709:328 1 ACTB 2.4485 1.125 K.IK[2624.31]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.703 1.5 K.IK[2624.3]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.56125 1.0625 K.IK[2624.33]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 3.91225 0.97368421 K.EITALAPSTMK[284.17]IK[2624.28]IIAPPER.K P60709:328 1 ACTB 3.75575 0.92105263 K.EITALAPSTMK[284.17]IK[2608.29]IIAPPER.K P60709:328 1 ACTB 4.33825 1.02631579 K.EITALAPSTMK[284.17]IK[2624.31]IIAPPER.K P60709:328 1 ACTB 3.88625 0.97368421 K.EITALAPSTMK[284.17]IK[2624.36]IIAPPER.K P60709:328 1 ACTB 3.86775 0.86111111 K.E[111.03]ITALAPSTM[147.04]K[284.17]IK[2608.35]IIAPPER.K P60709:328 1 ACTB 1.9545 0.8125 K.IK[2624.31]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.666 1.5 K.IK[2624.32]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.422 1.0625 K.IK[2624.3]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.56125 0.60526316 K.EITALAPSTMK[284.17]IK[2608.34]IIAPPER.K P60709:328 1 ACTB 1.21275 0.625 K.IK[2624.31]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 1.775 1.11111111 K.IK[2624.29]IIAPPERK.Y Q562R1:329 P60709:328 2 ACTB 2.409 1.0625 K.IK[2608.27]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.3815 1.5 K.IK[2624.32]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 3.78875 0.94444444 K.E[111.03]ITALAPSTM[147.04]K[284.17]IK[2624.29]IIAPPER.K P60709:328 1 ACTB 2.2285 1 K.IK[2624.27]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 3.41075 0.81578947 K.EITALAPSTMK[284.17]IK[2624.32]IIAPPER.K P60709:328 1 ACTB 3.744 0.97368421 K.EITALAPSTMK[284.17]IK[2608.25]IIAPPER.K P60709:328 1 ACTB 1.71575 0.8125 K.IK[2608.35]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.10025 1.0625 K.IK[2624.27]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 2.20075 1.0625 K.IK[2608.36]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 3.153 0.66666667 K.E[111.03]ITALAPSTM[147.04]K[284.17]IK[2608.32]IIAPPER.K P60709:328 1 ACTB 2.378 1.0625 K.IK[2624.3]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 1.85025 0.875 K.IK[2608.27]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 3.47775 0.86111111 K.E[111.03]ITALAPSTM[147.04]K[284.17]IK[2608.37]IIAPPER.K P60709:328 1 ACTB 2.43925 1.5625 K.IK[2608.36]IIAPPER.K Q562R1:329 P60709:328 2 ACTB 6.07875 1.52631579 K.EITALAPSTMK[2608.32]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.284 1 K.EITALAPSTMK[2608.3]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.82325 1.18421053 K.EITALAPSTMK[2608.32]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.7325 1.23684211 K.EITALAPSTMK[2608.28]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.89425 1.2631579 K.EITALAPSTMK[2608.35]IK[284.17]IIAPPER.K P60709:326 1 ACTB 10.618 1.86363636 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 4.34375 0.97222222 K.E[111.03]ITALAPSTM[147.04]K[2608.35]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.7215 1.18421053 K.EITALAPSTMK[2608.29]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.84525 1.10526316 K.EITALAPSTMK[2608.34]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.997 1.18421053 K.EITALAPSTMK[2608.34]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.4385 0.97368421 K.EITALAPSTMK[2608.29]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.09475 0.92105263 K.EITALAPSTMK[2608.4]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.535 0.97222222 K.E[111.03]ITALAPSTM[147.04]K[2608.33]IK[284.17]IIAPPER.K P60709:326 1 ACTB 2.41925 0.875 K.EITALAPSTM[147.04]K[2624.31]IK.I P60709:326 1 ACTB 10.1795 1.52272727 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 4.10375 0.97222222 K.E[111.03]ITALAPSTM[147.04]K[2608.34]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.991 1.13157895 K.EITALAPSTMK[2608.35]IK[284.17]IIAPPER.K P60709:326 1 ACTB 9.741 1.5 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 4.14875 0.94736842 K.EITALAPSTMK[2608.3]IK[284.17]IIAPPER.K P60709:326 1 ACTB 9.22325 1.45454546 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 9.13825 1.52272727 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 4.4545 1 K.EITALAPSTMK[2608.33]IK[284.17]IIAPPER.K P60709:326 1 ACTB 2.201 0.91666667 K.EITALAPSTMK[2608.37]IK.I P60709:326 1 ACTB 4.177 1.02777778 K.E[111.03]ITALAPSTM[147.04]K[2608.33]IK[284.17]IIAPPER.K P60709:326 1 ACTB 4.2545 0.86842105 K.EITALAPSTMK[2608.28]IK[284.17]IIAPPER.K P60709:326 1 ACTB 1.961 0.83333333 K.EITALAPSTMK[2608.26]IK.I P60709:326 1 ACTB 8.413 1.38636364 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 4.41375 1 K.EITALAPSTMK[2608.34]IK[284.17]IIAPPER.K P60709:326 1 ACTB 2.365 0.83333333 K.EITALAPSTMK[2608.32]IK.I P60709:326 1 ACTB 7.562 1.15909091 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 7.1135 1.09090909 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 2.18 0.875 K.EITALAPSTMK[2608.29]IK.I P60709:326 1 ACTB 2.1945 0.875 K.EITALAPSTM[147.04]K[2608.31]IK.I P60709:326 1 ACTB 4.0555 0.97368421 K.EITALAPSTMK[2608.36]IK[284.17]IIAPPER.K P60709:326 1 ACTB 5.37675 0.93181818 R.K[2616.46]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 3.57825 0.89473684 K.EITALAPSTMK[2624.28]IK[284.17]IIAPPER.K P60709:326 1 ACTB 3.873 0.92105263 K.EITALAPSTMK[2608.28]IK[284.17]IIAPPER.K P60709:326 1 ACTB 2.7565 0.63157895 K.EITALAPSTMK[2608.33]IK[284.17]IIAPPER.K P60709:326 1 ACTB 2.415 0.875 K.EITALAPSTMK[2608.29]IK.I P60709:326 1 ACTB 2.0165 0.83333333 K.EITALAPSTMK[2608.33]IK.I P60709:326 1 ACTB 2.39575 0.875 K.EITALAPSTMK[2608.27]IK.I P60709:326 1 ACTB 3.67375 0.7631579 K.EITALAPSTMK[2608.29]IK[284.17]IIAPPER.K P60709:326 1 ACTB 5.20575 0.65909091 R.K[2616.43]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 6.466 1.20454546 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 2.48575 0.55263158 K.EITALAPSTMK[2608.32]IK[284.17]IIAPPER.K P60709:326 1 ACTB 3.33575 0.84210526 K.EITALAPSTMK[2608.31]IK[284.17]IIAPPER.K P60709:326 1 ACTB 2.15975 0.875 K.EITALAPSTM[147.04]K[2608.31]IK.I P60709:326 1 ACTB 3.235 0.81578947 K.EITALAPSTMK[2608.38]IK[284.17]IIAPPER.K P60709:326 1 ACTB 2.31025 0.65789474 K.EITALAPSTMK[2608.29]IK[284.17]IIAPPER.K P60709:326 1 ACTB 0.955 0.54545455 K.E[111.03]ITALAPSTM[147.04]K[2608.28]IK.I P60709:326 1 ACTB 1.8315 0.625 K.EITALAPSTM[147.04]K[2608.28]IK.I P60709:326 1 ACTB 2.7815 0.7631579 K.EITALAPSTMK[2624.35]IK[284.17]IIAPPER.K P60709:326 1 ACTB 2.58825 1.45454546 K.DSYVGDEAQSK[2853.5]R.G P60709:61 1 ACTB 3.6315 0.70454546 R.HQGVMVGMGQK[2944.51]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 3.6385 0.93181818 R.HQGVMVGM[147.04]GQK[2928.4]DSYVGDEAQSKR.G P60709:50 1 ACTB 2.4905 0.52272727 R.HQGVMVGMGQK[284.17]DSYVGDEAQSK[2944.51]R.G P60709:61 1 ACTB 10.6995 1.54545455 R.HQGVM[147.04]VGM[147.04]GQK[4334.07]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 11.8515 1.56818182 R.HQGVMVGM[147.04]GQK[4334.26]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 10.26425 1.75 R.HQGVMVGMGQK[4350.23]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 10.231 1.59090909 R.HQGVM[147.04]VGMGQK[4350.25]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 11.626 1.72727273 R.HQGVMVGMGQK[4350.23]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 9.1935 1.52272727 R.HQGVMVGM[147.04]GQK[4350.18]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 9.5795 1.56818182 R.HQGVMVGMGQK[4350.23]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 9.479 1.45454546 R.HQGVM[147.04]VGMGQK[4350.25]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 7.943 1.36363636 R.HQGVM[147.04]VGM[147.04]GQK[4334.17]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 7.029 1.76190476 R.GILTLK[2944.42]YPIEHGIVTNWDDMEK.I P60709:68 1 ACTB 10.798 1.61363636 R.HQGVMVGM[147.04]GQK[4350.22]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 9.6205 1.5 R.HQGVMVGMGQK[4506.31]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 3.67925 0.80952381 R.GILTLK[2928.46]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 11.1075 1.68181818 R.HQGVMVGM[147.04]GQK[4350.23]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 8.465 1.70454546 R.HQGVMVGMGQK[4506.28]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 8.5925 1.29545455 R.HQGVMVGM[147.04]GQK[4350.23]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 6.362 1.02272727 R.HQGVM[147.04]VGM[147.04]GQK[4334.26]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 9.90175 1.47727273 R.HQGVMVGM[147.04]GQK[4350.33]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 2.123 0.61904762 R.GILTLK[2928.44]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 8.84125 1.27272727 R.HQGVM[147.04]VGM[147.04]GQK[4350.23]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 3.682 0.88095238 R.GILTLK[2944.44]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 4.40825 1.19047619 R.GILTLK[2960.4]YPIEHGIVTNWDDMEK.I P60709:68 1 ACTB 8.894 1.70454546 R.HQGVMVGM[147.04]GQK[2837.49]DSYVGDEAQSKR.G P60709:50 1 ACTB 9.26225 1.63636364 R.HQGVMVGM[147.04]GQK[2837.53]DSYVGDEAQSKR.G P60709:50 1 ACTB 2.55475 0.64285714 R.GILTLK[2928.43]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 3.67775 0.83333333 R.GILTLK[2928.43]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 5.58625 0.97727273 R.HQGVMVGMGQK[4350.22]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 7.2785 1.29545455 R.HQGVMVGMGQK[4506.28]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 4.153 0.90476191 R.GILTLK[2944.46]YPIEHGIVTNWDDMEK.I P60709:68 1 ACTB 8.08525 1.43181818 R.HQGVM[147.04]VGM[147.04]GQK[4350.21]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 10.3805 2.06818182 R.HQGVMVGMGQK[2853.48]DSYVGDEAQSKR.G P60709:50 1 ACTB 3.72475 0.88095238 R.GILTLK[2960.4]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 7.1975 1.40909091 R.HQGVMVGMGQK[4506.4]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 6.211 1.02272727 R.HQGVMVGMGQK[4506.21]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 4.121 1.04761905 R.GILTLK[2928.42]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 5.01825 0.84090909 R.HQGVMVGM[147.04]GQK[4350.23]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 3.933 0.95238095 R.GILTLK[2960.41]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 3.92825 1.07142857 R.GILTLK[2944.43]YPIEHGIVTNWDDMEK.I P60709:68 1 ACTB 2.711 0.69047619 R.GILTLK[2928.4]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 7.2115 1.47727273 R.HQGVMVGM[147.04]GQK[2837.54]DSYVGDEAQSKR.G P60709:50 1 ACTB 6.03125 0.90909091 R.HQGVM[147.04]VGM[147.04]GQK[4350.19]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 3.14425 0.71428571 R.GILTLK[2944.39]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 2.09225 0.57142857 R.GILTLK[2944.46]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 4.2105 0.70454546 R.HQGVMVGMGQK[4350.21]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 1.73975 0.52380952 R.GILTLK[2944.41]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 2.2175 0.61904762 R.GILTLK[2944.42]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 2.86375 0.61904762 R.GILTLK[2944.38]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 2.8805 0.64285714 R.GILTLK[2928.45]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 3.7725 0.72727273 R.HQGVMVGMGQK[4350.21]DSYVGDEAQSK[284.17]R.G P60709:50 1 ACTB 4.48925 1.09090909 R.HQGVMVGM[147.04]GQK[2837.43]DSYVGDEAQSKR.G P60709:50 1 ACTB 3.3725 0.80952381 R.GILTLK[2960.38]YPIEHGIVTNWDDMEK.I P60709:68 1 ACTB 3.6875 0.85714286 R.GILTLK[2928.45]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 2.184 0.57142857 R.GILTLK[2928.49]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 2.0425 0.52380952 R.GILTLK[2928.5]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 3.29975 0.90476191 R.GILTLK[2960.45]YPIEHGIVTNWDDMEK.I P60709:68 1 ACTB 4.16225 1 R.GILTLK[2944.41]YPIEHGIVTNWDDMEK.I P60709:68 1 ACTB 5.1215 0.90909091 R.HQGVMVGM[147.04]GQK[2853.55]DSYVGDEAQSKR.G P60709:50 1 ACTB 3.2145 1 R.GILTLK[2944.49]YPIEHGIVTNWDDMEK.I P60709:68 1 ACTB 2.3535 0.57142857 R.GILTLK[2928.4]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 2.77875 0.73809524 R.GILTLK[2944.46]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 1.9905 0.5952381 R.GILTLK[2944.43]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 2.54775 0.69047619 R.GILTLK[2960.39]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 3.284 0.77272727 R.HQGVMVGM[147.04]GQK[2853.47]DSYVGDEAQSKR.G P60709:50 1 ACTB 1.6395 0.52380952 R.GILTLK[2928.48]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 1.96475 0.73809524 R.GILTLK[2944.49]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 1 ACTB 9.40175 2.60714286 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 9.09825 2.60714286 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 9.03975 2.60714286 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 8.69475 2.39285714 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 0.965 0.8 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 1 SMARCE1 4.53825 1.89285714 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 0.2635 0.19230769 K.VWDQVK[1660.98]ASNPDLK.L Q969G3:85 1 SMARCE1 11.9765 3.45833333 R.K[1090.62]LEAELLQIEER.H Q969G3:240 1 SMARCE1 1.0255 1.2 R.HQEK[1735.97]K[284.17]R.K Q969G3:255 1 SMARCE1 9.7695 2.91666667 R.K[934.52]LEAELLQIEER.H Q969G3:240 1 SMARCE1 12.38525 3.45833333 R.K[1090.62]LEAELLQIEER.H Q969G3:240 1 SMARCE1 1.51325 1.3 R.MQVLK[2249.14]R.Q Q969G3:228 1 SMARCE1 4.7345 1.57692308 K.LWEIGK[1039.62]IIGGMWR.D Q969G3:98 1 SMARCE1 4.1975 1.5 K.LWEIGK[1039.62]IIGGMWR.D Q969G3:98 1 SMARCE1 2.507 1.8 R.MQVLK[1246.7]R.Q Q969G3:228 1 SMARCE1 1.314 1.8 R.MQVLK[1701.85]R.Q Q969G3:228 1 SMARCE1 2.489 1.7 R.MQVLK[1110.61]R.Q Q969G3:228 1 SMARCE1 0.9595 0.66666667 R.K[1039.62]RQEER.E Q969G3:298 1 SMARCE1 11.318 3.54166667 R.K[1039.62]LEAELLQIEER.H Q969G3:240 1 SMARCE1 8.6845 2.66666667 R.K[1039.62]LEAELLQIEER.H Q969G3:240 1 SMARCE1 8.44925 2.375 R.K[1039.62]LEAELLQIEER.H Q969G3:240 1 SMARCE1 0.9625 1.8 R.MQVLK[1735.96]R.Q Q969G3:228 1 SMARCE1 1.87775 1.14285714 R.K[1090.62]FLESTDSFNNELK.R Q969G3:258 1 SMARCE1 2.0195 0.83333333 R.VTASSGITIPKPPK[1609.84]PPDK.P Q969G3:64 1 SMARCE1 5.719 1.65625 K.AYHNSPAYLAYINAK[4053.77]SR.A Q969G3:146 1 SMARCE1 7.46125 1.38235294 K.AYHNSPAYLAYINAK[1110.61]SR.A Q969G3:146 1 SMARCE1 11.13975 2.29411765 K.AYHNSPAYLAYINAK[1039.62]SR.A Q969G3:146 1 SMARCE1 9.987 2.23529412 K.AYHNSPAYLAYINAK[1039.62]SR.A Q969G3:146 1 SMARCE1 3.881 1.19565217 K.IEYNESMK[2511.15]AYHNSPAYLAYINAK.S Q969G3:131 1 SMARCE1 3.946 1.06521739 K.IEYNESMK[2511.15]AYHNSPAYLAYINAK.S Q969G3:131 1 SMARCE1 18.63025 2.88 R.LC[160.03]GLK[2093.08]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 11.6835 2.89285714 K.FLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 8.55925 1.58 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 4.5505 1.59090909 R.LC[160.03]GLK[1964.98]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 14.7595 2.38 R.LC[160.03]GLK[2093.08]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 8.431 1.68 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 4.735 1.54545455 R.LC[160.03]GLK[1964.97]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 9.7685 3.83333333 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 9.198 1.5 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 9.3875 1.7 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 4.1055 1.54545455 R.LC[160.03]GLK[1964.98]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 7.43725 1.24 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 4.8015 1.81818182 R.LC[160.03]GLK[2249.17]VEVDMEK.I Q969G3:277 1 SMARCE1 11.659 1.66 R.LC[160.03]GLK[2093.08]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 6.38 2.93333333 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 8.52475 2.25 K.FLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 5.095 1.68181818 R.LC[160.03]GLK[1964.99]VEVDMEK.I Q969G3:277 1 SMARCE1 11.65325 1.82 R.LC[160.03]GLK[2093.08]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 4.777 1.72727273 R.LC[160.03]GLK[1964.95]VEVDMEK.I Q969G3:277 1 SMARCE1 4.6565 1.34615385 K.FLESTDSFNNELK[3066.59]R.L Q969G3:271 1 SMARCE1 6.33725 2.5 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 6.08275 1.64285714 K.FLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 7.503 2.32142857 K.FLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 3.3465 1.18181818 R.LC[160.03]GLK[2093.05]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.28825 1.22727273 R.LC[160.03]GLK[1964.99]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 5.953 2.13333333 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 1.21525 0.57692308 K.FLESTDSFNNELK[3082.55]R.L Q969G3:271 1 SMARCE1 5.6855 1.86363636 R.LC[160.03]GLK[2093.06]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.925 1.54545455 R.LC[160.03]GLK[1964.97]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.48975 1.27272727 R.LC[160.03]GLK[2093.07]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 4.597 1.63333333 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 7.8305 1.2 R.LC[160.03]GLK[2093.08]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 2.60325 1.04545455 R.LC[160.03]GLK[1964.97]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.39275 1.18181818 R.LC[160.03]GLK[2093.07]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.42275 1.17857143 K.FLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 2.32625 1.2 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 6.42475 1.1 R.LC[160.03]GLK[2093.08]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 3.62625 1.22727273 R.LC[160.03]GLK[2093.07]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 2.6545 1.04545455 R.LC[160.03]GLK[2249.18]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 1.92975 0.83333333 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 2.60675 0.92857143 K.FLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 3.789 1.63636364 R.LC[160.03]GLK[1964.96]VEVDMEK.I Q969G3:277 1 SMARCE1 3.175 1.36363636 R.LC[160.03]GLK[2249.11]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 1.55575 0.77272727 R.LC[160.03]GLK[1965]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 5.37175 1.77272727 R.LC[160.03]GLK[2093.04]VEVDMEK.I Q969G3:277 1 SMARCE1 3.2665 1.18181818 R.LC[160.03]GLK[2093.04]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 1.551 0.76666667 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 2.16325 0.95454546 R.LC[160.03]GLK[2093.08]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 1.23075 0.83333333 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 4.66 1.27272727 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 1 SMARCE1 3.3815 1.45454546 R.LC[160.03]GLK[2249.18]VEVDMEK.I Q969G3:277 1 SMARCE1 3.67325 1.68181818 R.LC[160.03]GLK[1964.97]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.60425 1.22727273 R.LC[160.03]GLK[1964.98]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 2.79275 1.18181818 R.LC[160.03]GLK[1965.01]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 1.844 0.90909091 R.LC[160.03]GLK[1965]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 2.4975 0.95454546 R.LC[160.03]GLK[1964.94]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 0.54275 0.21428571 K.FLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 9.6355 2.23333333 R.KFLESTDSFNNELK[1110.61]R.L Q969G3:271 1 SMARCE1 5.10675 0.97368421 K.VEVDMEK[2536.33]IAAEIAQAEEQAR.K Q969G3:284 1 SMARCE1 5.336 1.21052632 K.VEVDMEK[2536.23]IAAEIAQAEEQAR.K Q969G3:284 1 SMARCE1 3.326 1 K.VEVDMEK[2536.31]IAAEIAQAEEQAR.K Q969G3:284 1 SMARCE1 1.4435 0.70833333 R.Q[111.03]EEREK[3222.61]EAAEQAER.S Q969G3:305 1 SMARCE1 2.23775 0.91666667 R.Q[111.03]EEREK[3222.74]EAAEQAER.S Q969G3:305 1 SMARCE1 0.9095 0.9 R.MQVLK[4053.77]R.Q Q969G3:228 1 SMARCE1 6.574 2.5 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 6.49125 2.65 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 5.93675 2.15 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 15.79675 3.07142857 K.FLESTDSFNNELK[934.52]R.L Q969G3:271 1 SMARCE1 1.05025 1 R.HQEK[2093.1]K[284.17]R.K Q969G3:255 1 SMARCE1 1.253 1 R.HQEK[2249.16]K[284.17]R.K Q969G3:255 1 SMARCE1 15.70225 4.46666667 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 15.89625 4.13333333 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 2.26925 2.1 R.HQEK[2093.05]K[284.17]R.K Q969G3:255 1 SMARCE1 1.444 2 R.HQEK[2093.07]K.R Q969G3:255 1 SMARCE1 1.893 2.5 R.HQEK[2093.06]K[284.17]R.K Q969G3:255 1 SMARCE1 1.0415 1.2 R.HQEK[2249.15]K[284.17]R.K Q969G3:255 1 SMARCE1 10.8435 2.36666667 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 10.40625 3 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 0.954 0.9 R.HQEK[2093.09]K[284.17]R.K Q969G3:255 1 SMARCE1 9.38 3.03571429 R.K[1090.62]FLESTDSFNNELK.R Q969G3:258 1 SMARCE1 8.9695 2.13333333 R.K[934.52]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 8.44575 2.73333333 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 1.348 1.2 R.HQEK[2093.1]KR.K Q969G3:255 1 SMARCE1 6.4305 2.76666667 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 5.0555 2.3 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 5.5595 2.16666667 R.K[934.52]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 4.845 1.7 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 3.7465 1.73333333 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 3.58275 1.63333333 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 1.1755 1.3 R.HQEK[2093.04]KR.K Q969G3:255 1 SMARCE1 1.88625 0.73076923 R.QEEREK[3066.55]EAAEQAER.S Q969G3:305 1 SMARCE1 1.7645 0.73076923 R.QEEREK[3066.61]EAAEQAER.S Q969G3:305 1 SMARCE1 8.049 1.22 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 2.2515 0.92307692 R.QEEREK[3082.59]EAAEQAER.S Q969G3:305 1 SMARCE1 1.043 0.53846154 R.QEEREK[3222.56]EAAEQAER.S Q969G3:305 1 SMARCE1 3.16625 2.5 R.K[1094.67]PVDFK.K P51532:1503 P51531:1445 2 SMARCA2 1.6965 1.41666667 R.K[1094.67]PVDFK.K P51532:1503 P51531:1445 2 SMARCA2 1.65125 1.41666667 R.K[2304.22]PVDFK.K P51532:1503 P51531:1445 2 SMARCA2 1.539 2.875 R.NHK[1282.75]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.36125 1.5 R.IRNHK[1282.75]YR.S P51532:1518 P51531:1460 2 SMARCA2 2.34775 2.21428571 R.IRNHK[998.58]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.002 0.85714286 R.IRNHK[1126.68]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.87875 1.64285714 R.IRNHK[998.58]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.448 2.5 R.NHK[1126.67]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.1575 1.57142857 R.IRNHK[998.58]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.595 1.64285714 R.IRNHK[998.58]YR.S P51532:1518 P51531:1460 2 SMARCA2 2.15875 1.33333333 R.K[1251.7]PVDFK.K P51532:1503 P51531:1445 2 SMARCA2 0.60375 0.5 R.IRNHK[998.58]YR.S P51532:1518 P51531:1460 2 SMARCA2 0.30575 0.21428571 R.IRNHK[1126.68]YR.S P51532:1518 P51531:1460 2 SMARCA2 0.288 0.35714286 R.IRNHK[998.58]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.19625 1.5 K.IK[1251.72]ER.I P51532:1511 P51531:1453 2 SMARCA2 1.3425 1.875 R.IEK[1137.71]ER.M P51532:524 P51531:500 2 SMARCA2 1.27925 2.125 R.IEK[1293.78]ER.M P51532:524 P51531:500 2 SMARCA2 1.27875 2 R.IEK[1293.8]ER.M P51532:524 P51531:500 2 SMARCA2 1.57725 1.875 R.IEK[1137.71]ER.M P51532:524 P51531:500 2 SMARCA2 1.5005 1 R.KLIDQK[939.54]K.D P51532:545 P51531:521 2 SMARCA2 1.54975 1.875 R.IEK[1657.05]ER.M P51532:524 P51531:500 2 SMARCA2 9.039 1.875 R.LMEEDELPSWIIK[821.52]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA2 8.671 1.7 R.LMEEDELPSWIIK[821.52]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA2 7.675 2.36363636 R.K[821.52]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 1.5275 0.625 R.LTC[160.03]EEEEEK[2104.05]IFGR.G P51531:1302 1 SMARCA2 1.56425 0.58333333 R.LTC[160.03]EEEEEK[2104.1]IFGR.G P51531:1302 1 SMARCA2 5.00425 1.90909091 R.K[2682.27]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 6.2075 1.3 R.LMEEDELPSWIIK[1717.93]DDAEVER.L P51532:1349 P51531:1286 2 SMARCA2 1.577 0.875 R.LTC[160.03]EEEEEK[2682.28]IFGR.G P51531:1302 1 SMARCA2 1.15875 0.58333333 R.LTC[160.03]EEEEEK[2682.3]IFGR.G P51531:1302 1 SMARCA2 0.90475 0.79166667 R.LTC[160.03]EEEEEK[2682.26]IFGR.G P51531:1302 1 SMARCA2 2.21725 0.83333333 R.LTC[160.03]EEEEEK[2682.28]IFGR.G P51531:1302 1 SMARCA2 1.05225 0.70833333 R.LTC[160.03]EEEEEK[2682.37]IFGR.G P51531:1302 1 SMARCA2 1.31225 0.70833333 R.LTC[160.03]EEEEEK[2698.32]IFGR.G P51531:1302 1 SMARCA2 1.40125 0.66666667 R.LTC[160.03]EEEEEK[2682.34]IFGR.G P51531:1302 1 SMARCA2 1.43875 0.75 R.LTC[160.03]EEEEEK[2698.27]IFGR.G P51531:1302 1 SMARCA2 0.91275 0.70833333 R.LTC[160.03]EEEEEK[2682.27]IFGR.G P51531:1302 1 SMARCA2 1.1905 0.75 R.LTC[160.03]EEEEEK[2682.27]IFGR.G P51531:1302 1 SMARCA2 1.8795 0.625 R.LTC[160.03]EEEEEK[2682.25]IFGR.G P51531:1302 1 SMARCA2 1.34975 0.58333333 R.LTC[160.03]EEEEEK[2682.29]IFGR.G P51531:1302 1 SMARCA2 1.30675 0.79166667 R.LTC[160.03]EEEEEK[2698.26]IFGR.G P51531:1302 1 SMARCA2 5.4105 2.125 K.VIQAGMFDQK[1717.93]SSSHER.R P51532:1237 P51531:1207 2 SMARCA2 4.98175 1.45454546 R.K[2241.11]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 0.71075 0.3125 K.HQEYLNSILQHAK[1259.63]DFK.E P51532:484 P51531:460 2 SMARCA2 0.4845 0.21875 K.HQEYLNSILQHAK[1259.63]DFK.E P51532:484 P51531:460 2 SMARCA2 1.73925 1.7 K.LIDQK[2034.06]K.D P51532:545 P51531:521 2 SMARCA2 2.23625 1.91666667 R.KLIDQK[1312.67]K.D P51532:545 P51531:521 2 SMARCA2 1.96125 1.125 R.EQK[1280.75]KETER.I P51531:492 1 SMARCA2 7.861 1.8 K.AVATWHANTEREQK[1454.77]K.E P51531:492 1 SMARCA2 4.92075 1.2 K.AVATWHANTEREQK[1454.77]K.E P51531:492 1 SMARCA2 4.716 1.13333333 K.AVATWHANTEREQK[1454.77]K.E P51531:492 1 SMARCA2 2.99075 0.83333333 R.DVDYSDALTEK[1798.98]QWLR.A P51531:1323 1 SMARCA2 3.32325 1.45 K.ISYK[908.61]GTPAMR.R P51531:805 1 SMARCA2 3.27925 1.35 K.ISYK[908.61]GTPAMR.R P51531:805 1 SMARCA2 13.47275 2.97222222 K.NHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 13.183 2.77777778 K.NHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 12.224 2.83333333 K.NHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 12.97375 2.75 K.NHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 9.63975 2.55 R.MKNHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 10.97225 2.75 K.NHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 2.8975 1.625 K.DK[2453.27]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 9.09825 2.325 R.MKNHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 3.62875 1.625 K.DK[2868.46]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 9.37275 2.38888889 K.NHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 2.77975 1.1875 K.DK[2453.25]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 3.218 1.875 K.DK[2453.3]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 9.258 1.55555556 K.NHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 1.798 1.41666667 K.DK[2868.48]HILAK.I P51532:867 P51531:837 2 SMARCA2 2.583 1.125 K.DK[2868.48]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 3.4405 1.875 K.DK[2453.3]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 1.453 1.33333333 K.DK[2868.43]HILAK.I P51532:867 P51531:837 2 SMARCA2 2.87075 1.5625 K.DK[2868.46]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 3.499 2.66666667 K.DK[2728.39]HILAK.I P51532:867 P51531:837 2 SMARCA2 1.3835 1 K.DK[2884.47]HILAK.I P51532:867 P51531:837 2 SMARCA2 3.343 1.625 K.DK[2712.4]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 1.34 1.33333333 K.DK[2728.39]HILAK.I P51532:867 P51531:837 2 SMARCA2 1.02225 1.08333333 K.DK[2728.39]HILAK.I P51532:867 P51531:837 2 SMARCA2 1.367 1.33333333 K.DK[2868.48]HILAK.I P51532:867 P51531:837 2 SMARCA2 1.0175 1 K.DK[2712.41]HILAK.I P51532:867 P51531:837 2 SMARCA2 2.18375 1.375 K.DK[2728.43]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 1.3825 1.33333333 K.DK[2712.39]HILAK.I P51532:867 P51531:837 2 SMARCA2 6.352 1.275 R.MKNHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 2 SMARCA2 2.27625 1.375 K.DK[2453.24]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 2.1025 2.08333333 K.DK[2868.51]HILAK.I P51532:867 P51531:837 2 SMARCA2 1.979 2 K.DK[2728.35]HILAK.I P51532:867 P51531:837 2 SMARCA2 1.9005 1.125 K.DK[2712.42]HILAK[284.17]IR.W P51532:867 P51531:837 2 SMARCA2 2.46075 1.5 R.SVAGK[1848.98]IQK.L P51531:472 1 SMARCA2 12.685 2.90625 R.LC[160.03]TVNSVEEK[1272.71]ILAAAK.Y P51532:1213 P51531:1183 2 SMARCA2 8.8235 1.84375 R.LC[160.03]TVNSVEEK[1272.71]ILAAAK.Y P51532:1213 P51531:1183 2 SMARCA2 2.045 0.88888889 K.ISYK[2011.09]GTPAMR.R P51531:805 1 SMARCA2 6.96225 1.96875 R.SGK[1698.86]FNVLLTTYEYIIK.D P51532:852 P51531:822 2 SMARCA2 8.4035 2.15625 R.SGK[1698.86]FNVLLTTYEYIIK.D P51532:852 P51531:822 2 SMARCA2 2.63825 0.95 R.WK[2154.23]YM[147.04]IVDEGHR.M P51532:876 P51531:846 2 SMARCA2 4.42925 1.36666667 K.ILLDPNSEEVSEK[2738.28]DAK.Q P51531:672 1 SMARCA2 1.21075 0.6 K.ILLDPNSEEVSEK[2738.27]DAK.Q P51531:672 1 SMARCA2 1.477 0.63333333 K.ILLDPNSEEVSEK[2738.31]DAK.Q P51531:672 1 SMARCA2 3.62625 1.4 K.ILLDPNSEEVSEK[2738.32]DAK.Q P51531:672 1 SMARCA2 1.58725 0.6 K.ILLDPNSEEVSEK[2754.25]DAK.Q P51531:672 1 SMARCA2 1.28 0.56666667 K.ILLDPNSEEVSEK[2754.34]DAK.Q P51531:672 1 SMARCA2 3.433 1.13333333 K.ILLDPNSEEVSEK[2738.31]DAK.Q P51531:672 1 SMARCA2 1.4735 0.56666667 K.ILLDPNSEEVSEK[2754.28]DAK.Q P51531:672 1 SMARCA2 2.44675 0.66666667 K.ILLDPNSEEVSEK[2755.32]DAK.Q P51531:672 1 SMARCA2 2.4545 0.69047619 K.QIIETAK[2052.06]QDVDDEYSMQYSAR.G P51531:682 1 SMARCA2 2.12 0.56666667 K.ILLDPNSEEVSEK[2755.25]DAK.Q P51531:672 1 SMARCA2 2.24575 0.66666667 K.QIIETAK[2052.06]QDVDDEYSMQYSAR.G P51531:682 1 SMARCA2 1.0085 0.26190476 K.QIIETAK[2052.06]QDVDDEYSMQYSAR.G P51531:682 1 SMARCA2 2.202 0.40476191 K.QIIETAK[2052.06]QDVDDEYSMQYSAR.G P51531:682 1 SMARCA2 2.26525 0.42857143 K.QIIETAK[2052.06]QDVDDEYSMQYSAR.G P51531:682 1 SMARCA2 2.124 0.5 K.QIIETAK[2052.06]QDVDDEYSMQYSAR.G P51531:682 1 SMARCA2 1.1795 1.25 R.IEK[1312.7]ER.M P51532:524 P51531:500 2 SMARCA2 3.19375 2.3125 K.LIDQK[927.5]KDR.R P51531:521 1 SMARCA2 2.536 1.85714286 K.LIDQK[1312.69]KDR.R P51531:521 1 SMARCA2 5.67425 1.72727273 R.K[1657.06]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 5.5885 1.72727273 R.K[2453.24]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 4.8375 1.59090909 R.K[2868.46]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 6.0655 2 R.K[2868.49]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 4.7975 1.5 R.K[2884.47]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 4.43475 1.59090909 R.K[2868.44]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 4.3235 1.54545455 R.K[2868.46]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 5.60975 1.72727273 R.K[1126.68]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 7.3915 2.63636364 R.K[1126.68]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 7.09225 2.86363636 R.K[1698.86]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 7.025 2.40909091 R.K[1698.86]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 2.184 1.04545455 R.K[1698.86]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 1.04575 1.875 R.NHK[1126.67]YR.S P51532:1518 P51531:1460 2 SMARCA2 6.6745 1.76666667 R.DVDYSDALTEK[1388.75]QWLR.A P51531:1323 1 SMARCA2 0.942 0.83333333 R.IRNHK[1386.69]YR.S P51532:1518 P51531:1460 2 SMARCA2 3.13475 1.7 K.ISYK[1386.7]GTPAMR.R P51531:805 1 SMARCA2 6.25875 2.07692308 R.LTC[160.03]EEEEEK[1386.7]IFGR.G P51531:1302 1 SMARCA2 1.2155 1.7 R.ILPK[1400.76]LR.A P51532:1091 P51531:1061 2 SMARCA2 4.45425 2.15 R.ASGK[821.52]FELLDR.I P51532:1081 P51531:1051 2 SMARCA2 11.00075 2.75 K.VIQAGMFDQK[1272.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA2 9.091 2.25 K.VIQAGMFDQK[1272.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA2 3.0945 1.5 K.YK[2101]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 8.49425 2.3125 K.VIQAGMFDQK[1272.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA2 6.617 1.64705882 K.VIQAGMFDQK[1272.71]SSSHERR.A P51532:1237 P51531:1207 2 SMARCA2 5.7455 2.03846154 K.ILAAAK[284.17]YK[2085.02]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 6.651 2.38235294 K.VIQAGMFDQK[1272.71]SSSHERR.A P51532:1237 P51531:1207 2 SMARCA2 6.57775 2.40625 K.VIQAGMFDQK[1272.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA2 5.368 1.84615385 K.ILAAAK[284.17]YK[2084.99]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 2.9395 1.42857143 K.YK[2101.03]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 4.4115 1.02941177 K.VIQAGMFDQK[1272.71]SSSHERR.A P51532:1237 P51531:1207 2 SMARCA2 2.098 1.5 K.YK[2101.02]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 1.865 1 K.YK[2257.14]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 2.48175 1.47058824 K.VIQAGMFDQK[1272.71]SSSHERR.A P51532:1237 P51531:1207 2 SMARCA2 2.30425 1.35294118 K.VIQAGMFDQK[1272.71]SSSHERR.A P51532:1237 P51531:1207 2 SMARCA2 2.09175 1.21875 K.VIQAGMFDQK[1272.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA2 3.22025 1.40909091 R.K[1272.71]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA2 2.34625 1.7 K.K[1251.72]IK[284.17]ER.I P51532:1509 P51531:1451 2 SMARCA2 2.58875 1.7 K.K[1251.71]IK[284.17]ER.I P51532:1509 P51531:1451 2 SMARCA2 1.29475 1.875 R.NHK[1094.67]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.363 1.5 R.NHK[1094.64]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.48325 2 R.NHK[1094.67]YR.S P51532:1518 P51531:1460 2 SMARCA2 0.973 1.375 R.NHK[1094.65]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.28125 0.77272727 R.LHK[1009.62]VLRPFLLR.R P51532:970 P51531:940 2 SMARCA2 1.363 0.90909091 R.LHK[1009.62]VLRPFLLR.R P51532:970 P51531:940 2 SMARCA2 2.05275 0.81818182 R.LHK[1009.62]VLRPFLLR.R P51532:970 P51531:940 2 SMARCA2 2.42025 1.8 K.LIDQK[1657.05]K.D P51532:545 P51531:521 2 SMARCA2 1.263 0.5 R.LHK[1009.62]VLRPFLLR.R P51532:970 P51531:940 2 SMARCA2 10.9895 3.25 K.TIQTIALITYLMEHK[1698.86]R.I P51532:800 P51531:770 2 SMARCA2 11.8275 2.78125 K.TIQTIALITYLMEHK[1698.86]R.I P51532:800 P51531:770 2 SMARCA2 6.30275 2.125 K.TIQTIALITYLMEHK[1698.86]R.I P51532:800 P51531:770 2 SMARCA2 8.23675 1.84375 K.TIQTIALITYLMEHK[1698.86]R.I P51532:800 P51531:770 2 SMARCA2 3.4685 1.45 R.WK[2196.22]YM[147.04]IVDEGHR.M P51532:876 P51531:846 2 SMARCA2 5.5465 2.1 R.WK[2196.18]YMIVDEGHR.M P51532:876 P51531:846 2 SMARCA2 2.47725 1.15 R.WK[2196.22]YM[147.04]IVDEGHR.M P51532:876 P51531:846 2 SMARCA2 2.88425 0.95 R.WK[2212.22]YMIVDEGHR.M P51532:876 P51531:846 2 SMARCA2 4.2685 1.25 R.WK[2196.23]YM[147.04]IVDEGHR.M P51532:876 P51531:846 2 SMARCA2 2.08775 0.95 R.WK[2196.2]YM[147.04]IVDEGHR.M P51532:876 P51531:846 2 SMARCA2 realpep1 position1 immonium2 ion2 dot2 connective2 RPGDLNVKCTLLLMLDHQPPQYK 297 1//16 17//78 6.06575 1.82142857 RPGDLNVKCTLLLMLDHQPPQYK 297 1//16 16//78 6.28375 1.53571429 RPGDLNVKCTLLLMLDHQPPQYK 297 1//16 15//78 6.62925 1.5 MPTTQETDGFQVKR 289 //9 20//133 6.81175 1.18181818 MPTTQETDGFQVKR 289 2//9 25//133 6.66525 1.40909091 MPTTQETDGFQVKR 289 //9 14//133 4.5285 0.75 RPGDLNVKCTLLLMLDHQPPQYK 297 1//16 15//78 4.64375 1.42857143 MPTTQETDGFQVKR 289 //9 17//133 3.248 0.70454546 MPTTQETDGFQVKR 289 //9 21//133 4.8215 1.09090909 MPTTQETDGFQVKR 289 //9 17//133 4.8375 0.90909091 MPTTQETDGFQVKR 289 //9 15//133 4.4 0.93181818 RPGDLNVKCTLLLMLDHQPPQYK 297 //16 10//78 2.8315 1.03571429 MPTTQETDGFQVKR 289 //9 19//133 4.1935 0.84090909 MPTTQETDGFQVKR 289 1//9 16//133 2.562 0.70454546 RPGDLNVKCTLLLMLDHQPPQYK 297 1//16 9//78 1.8415 0.46428571 LAGLLQHPDPIVINHVISVDPNDQKK 401 //13 14//161 2.85775 0.78571429 LAGLLQHPDPIVINHVISVDPNDQKK 401 //13 10//161 1.82875 0.54761905 MPTTQETDGFQVKRPGDLNVK 289 1//15 14//155 3.10275 0.54 KMADKVLPQR 139 //16 25//87 7.39225 2.42857143 IHETIESINQLKTQR 451 1//11 9//55 2.1115 1.38888889 MEIQEAIKK 185 //8 3//29 0.12425 0.25 MEIQEAIKK 185 1//9 8//36 0.838 1.14285714 RMEIQEAIKK 185 //8 2//29 0.15775 0.16666667 MEIQEAIKK 185 //8 2//29 0.082 0.16666667 RMEIQEAIKK 185 //8 4//29 0.2845 0.5 MEIQEAIKK 185 //8 1//29 0.11925 0.08333333 MEIQEAIKK 185 //8 1//29 0.12475 0.08333333 MEIQEAIKK 185 //9 4//36 0.2125 0.42857143 RMEIQEAIKK 185 1//9 5//40 0.53775 0.42857143 KLR 193 //16 21//115 5.99925 2.38461539 RMEIQEAIKK 185 //8 3//37 0.2835 0.35714286 MEIQEAIKK 185 1//8 4//46 0.5535 0.42857143 KPLTQKR 186 //12 11//69 2.17025 1.44444444 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 //13 13//161 1.81025 0.80952381 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 //13 8//161 0.93275 0.28571429 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 //13 12//161 1.1375 0.54761905 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK 206 //13 14//161 2.16575 0.92857143 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK 206 //13 8//161 0.47 0.23809524 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK 206 //13 11//161 1.339 0.57142857 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK 206 //13 12//161 1.1495 0.54761905 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK 206 //13 9//119 1.61625 0.47619048 DLKIITDVIGNPEEERR 480 //11 11//44 3.89425 1.44444444 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 226 //13 12//161 1.7725 0.5952381 AEGDSAGTAGTPGGTPAGDKVASWELR 226 //13 6//119 1.13175 0.33333333 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 226 //13 6//161 0.65725 0.14285714 LAGLLQHPDPIVINHVISVDPNDQKK 401 //13 13//68 4.68175 1.54545455 LAGLLQHPDPIVINHVISVDPNDQKK 401 2//13 12//68 3.8555 1.45454546 VEGKLLDDPSK 237 3//15 26//202 5.27725 0.703125 VEGKLLDDPSK 237 1//15 18//202 3.597 0.515625 KRMEIQEAIK 176 //9 15//44 5.8565 2.8125 HIFAKVQQR 514 //9 11//45 4.9905 2.0625 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //17 12//109 4.654 1.2 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //17 13//109 5.515 1.46666667 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //17 14//109 4.2465 1.2 VASAAAKSALEEFSK 694 //2 28//179 3.8735 0.85 VASAAAKSALEEFSK 694 //2 22//179 3.50125 0.6 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //17 14//109 4.585 1.4 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //17 11//109 3.35975 0.96666667 DDWNKVSEHVGSR 617 //2 23//174 3.921 0.74137931 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //17 5//109 2.4535 0.43333333 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 //17 6//109 2.29375 0.46666667 DMDEPSPVPNVEEVTLPKTVNTK 359 //10 6//43 0.78425 0.72222222 LWLGKNYK 33 1//12 17//66 4.59 2.09090909 AKHLAAVEER 874 //5 5//23 1.35225 1 KTKVER 848 //10 13//53 4.27475 1.72222222 KTKVER 848 //10 14//53 3.96375 1.88888889 KTKVER 848 //10 14//53 4.07725 1.83333333 DIGEGNLSTAAAAALAAAAVKAK 872 //8 4//32 0.3425 0.75 DIGEGNLSTAAAAALAAAAVKAK 872 //5 2//20 0.12125 0.2 DIGEGNLSTAAAAALAAAAVKAK 872 //5 2//20 0.098 0.2 EKPTDMQNFGLR 568 //14 29//111 13.6345 2.77777778 EKPTDMQNFGLR 568 //14 31//111 10.9635 2.52777778 TPQQTSASQQMLNFPDKGK 564 //12 12//62 2.00175 1.33333333 EKPTDMQNFGLR 568 1//14 32//111 11.81925 2.66666667 EKPTDMQNFGLR 568 //14 27//111 9.4745 2.16666667 EKPTDMQNFGLR 568 //14 28//111 9.70375 2.19444444 TPQQTSASQQMLNFPDKGK 564 //12 9//62 1.87 0.95833333 TDMYTKKNVPSK 585 1//14 11//67 3.13675 1.40909091 KVEEAAK 718 //14 16//71 5.59575 1.90909091 MKEEVPTALVEAHVR 704 //7 6//28 0.80375 1.08333333 SKAAASATR 592 2//7 10//31 1.837 2.16666667 SKAAASATR 592 2//7 9//31 1.77775 1.83333333 SKAAASATR 592 2//7 9//31 1.422 1.83333333 SKAAASATR 592 //7 3//31 0.3055 0.41666667 VASAAAKSALEEFSK 694 1//8 9//26 0.849 1.33333333 TKVERDIGEGNLSTAAAAALAAAAVK 848 //17 14//84 3.3405 1.33333333 VASAAAKSALEEFSK 694 2//8 7//32 0.7625 1 VASAAAKSALEEFSK 694 //8 4//26 0.308 0.33333333 MKEEVPTALVEAHVR 704 1//17 28//84 6.123 2.16666667 MKEEVPTALVEAHVR 704 2//17 25//109 5.30575 2.03333333 VASAAAKSALEEFSK 694 2//15 30//87 8.56975 2.71428571 MKEEVPTALVEAHVR 704 //17 18//84 4.926 1.6 VASAAAKSALEEFSK 694 4//15 28//111 8.402 2.64285714 SALEEFSKMKEEVPTALVEAHVR 704 //17 15//109 4.789 1.53333333 MKEEVPTALVEAHVR 704 //17 18//84 4.7365 1.6 VASAAAKSALEEFSK 694 3//15 24//111 5.449 1.75 MKEEVPTALVEAHVR 704 //17 14//109 2.59275 1.03333333 VASAAAKSALEEFSK 694 1//15 22//87 5.2475 1.96428571 VASAAAKSALEEFSK 694 //15 16//87 3.8765 1.42857143 VASAAAKSALEEFSK 694 //15 16//87 2.152 1 VASAAAKSALEEFSK 694 3//10 13//48 3.5275 1.75 VASAAAKSALEEFSK 694 1//10 9//48 2.5825 1.1 VASAAAKSALEEFSK 694 1//10 10//48 2.837 1.5 VASAAAKSALEEFSK 694 //10 10//48 2.99775 1.5 VASAAAKSALEEFSK 694 //10 9//48 2.87575 1.45 VASAAAKSALEEFSK 694 //10 9//48 3.069 1.45 VASAAAKSALEEFSK 694 1//10 9//48 2.124 1.3 VASAAAKSALEEFSK 694 3//10 11//59 3.092 1.5 VASAAAKSALEEFSK 694 1//10 9//59 2.75725 1.3 SALEEFSKMKEEVPTALVEAHVR 702 //17 13//109 3.38975 1.26666667 SALEEFSKMKEEVPTALVEAHVR 702 //17 18//109 5.5885 1.7 SALEEFSKMKEEVPTALVEAHVR 702 //17 20//109 5.266 1.83333333 SALEEFSKMKEEVPTALVEAHVR 702 //17 16//109 5.35 1.63333333 SALEEFSKMKEEVPTALVEAHVR 702 //17 17//109 3.94 1.53333333 SALEEFSKMKEEVPTALVEAHVR 702 //17 18//84 5.98575 1.56666667 SALEEFSKMKEEVPTALVEAHVR 702 //17 15//109 3.18775 1.33333333 SALEEFSKMKEEVPTALVEAHVR 702 //17 17//109 3.99025 1.4 SALEEFSKMKEEVPTALVEAHVR 702 //17 12//109 2.681 1 VASAAAKSALEEFSK 694 //8 22//178 3.855 0.84090909 VASAAAKSALEEFSK 694 //8 18//178 4.4335 0.79545455 VASAAAKSALEEFSK 694 //9 24//179 5.37175 1.40909091 VASAAAKSALEEFSK 694 //9 15//179 2.9045 0.70454546 VASAAAKSALEEFSK 694 //9 18//131 4.30575 0.93181818 SALEEFSKMKEEVPTALVEAHVR 702 //17 6//109 1.5005 0.43333333 VASAAAKSALEEFSK 694 3//17 27//84 9.393 2.66666667 VASAAAKSALEEFSK 694 2//17 24//84 8.441 2.5 VASAAAKSALEEFSK 694 2//8 13//34 2.79975 2.14285714 VASAAAKSALEEFSK 694 1//8 7//34 1.02075 1.21428571 VASAAAKSALEEFSK 694 //7 8//30 0.97575 1.83333333 VASAAAKSALEEFSK 694 //7 6//37 1.4165 1.66666667 EKPTDMQNFGLR 568 //14 11//68 1.89525 1.09090909 EKPTDMQNFGLR 568 1//8 8//35 2.72375 1.78571429 EKPTDMQNFGLR 568 //7 3//31 0.506 0.66666667 EPKEGQEEVLKEVVESEGER 828 1//13 11//114 4.85125 0.77777778 EPKEGQEEVLKEVVESEGER 828 1//13 13//153 2.489 0.80555556 EGQEEVLKEVVESEGER 836 1//14 16//115 4.193 0.97222222 AKHLAAVEER 874 //15 29//97 12.193 3.36666667 AKHLAAVEER 874 //15 27//125 11.3435 2.8 AKHLAAVEER 874 //15 28//125 11.28625 2.9 AKHLAAVEER 874 //15 25//125 10.0945 2.63333333 KIKSLVALLVETQMK 883 //10 10//57 3.2215 1.5 AKHLAAVEER 874 //15 23//125 8.6 2.36666667 AKHLAAVEER 874 //15 23//125 8.0695 2.36666667 AKHLAAVEER 874 //15 20//125 6.59025 1.86666667 AKHLAAVEER 874 //15 19//125 5.9085 1.63333333 AKHLAAVEER 874 4//10 24//63 7.17125 3.15 AKHLAAVEER 874 5//10 25//52 6.6295 3.94444444 AKHLAAVEER 874 //16 32//91 13.4805 3.67857143 AKHLAAVEER 874 //16 27//91 12.4185 3.21428571 KIKSLVALLVETQMK 885 //10 14//46 4.49475 1.9 AKHLAAVEER 874 //16 26//117 10.5765 2.82142857 AKHLAAVEER 874 //16 25//91 10.255 2.67857143 KIKSLVALLVETQMK 885 //10 9//57 3.281 1.45 AKHLAAVEER 874 //16 23//91 9.64575 2.60714286 KIKSLVALLVETQMK 885 //10 12//46 4.176 1.7 AKHLAAVEER 874 //16 22//91 9.2335 2.25 AKHLAAVEER 874 //16 20//91 8.41325 2.35714286 AKHLAAVEER 874 //16 23//91 8.631 2.39285714 AKHLAAVEER 874 //16 23//91 8.434 2.21428571 AKHLAAVEER 874 //17 17//113 6.86125 1.82142857 AKHLAAVEER 874 //17 16//113 6.36375 1.53571429 KIKSLVALLVETQMK 885 //10 8//57 1.99125 1.25 AKHLAAVEER 874 //17 12//89 2.016 1.07142857 KKDGGPNVK 6 //10 16//51 5.8695 2.88888889 KDSESAPVK 365 //9 4//46 0.54025 0.33333333 TDMYTKK 584 2//9 9//35 1.26575 1.28571429 TDMYTKK 584 //13 9//63 1.539 0.95 SKAAASATR 592 4//14 21//70 6.00025 2.5 TDMYTKK 584 //16 19//81 6.78825 1.92307692 TDMYTKK 584 //16 19//81 6.544 1.92307692 SKAAASATR 592 1//14 21//70 3.7095 2.13636364 SKAAASATR 592 1//14 15//70 2.98625 1.5 SKAAASATR 592 1//14 16//70 2.339 1.68181818 SKAAASATR 592 //14 11//70 2.24925 1.18181818 SKAAASATR 592 3//9 9//35 1.75 1.5 SKAAASATR 592 2//14 19//70 2.23675 1.90909091 SKAAASATR 592 2//14 17//70 2.21125 1.72727273 SKAAASATR 592 3//9 9//35 1.04225 1.58333333 SKAAASATR 592 3//9 9//35 1.31475 1.33333333 SKAAASATR 592 //14 7//70 1.6395 0.81818182 VEGQATDEKK 769 //8 5//30 1.1445 0.83333333 VEGQATDEKK 769 //8 5//30 1.13475 0.83333333 VEGQATDEKK 769 //8 4//30 1.12025 0.75 VEGQATDEKK 769 //8 5//30 1.06375 0.83333333 EPKEPR 773 //12 11//55 2.54625 1.5 MKEEVPTALVEAHVR 704 1//9 13//38 3.593 1.94444444 MKEEVPTALVEAHVR 704 2//9 11//47 3.7755 1.77777778 SKAAASATR 592 2//15 27//93 6.9975 2.5 SKAAASATR 592 1//8 5//30 0.85375 0.83333333 SKAAASATR 592 //7 5//33 1.10925 0.83333333 SKAAASATR 592 //7 8//32 1.01025 1.58333333 SKAAASATR 592 3//8 12//37 3.23825 2.42857143 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //9 5//45 0.5635 0.4375 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //9 7//48 1.1175 0.5 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //9 2//45 0.23375 0.125 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //9 5//48 0.746 0.38888889 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //9 6//48 0.74075 0.44444444 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1//16 10//102 1.78825 0.85714286 TVNTKKDSESAPVK 364 //4 15//174 4.0295 0.62068966 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1//16 11//101 2.6875 1.10714286 TVNTKKDSESAPVK 364 //4 16//175 4.28775 0.74137931 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1//16 11//101 2.71575 1.10714286 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 //16 7//78 1.547 0.42857143 TVNTKKDSESAPVK 364 //4 14//175 3.1725 0.53448276 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 //16 9//101 2.2185 1.03571429 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1//16 7//101 0.83 0.42857143 EGGGAIEEEAKEKTSEAPK 789 1//8 7//41 1.44825 1.5 EGGGAIEEEAKEKTSEAPK 789 //8 8//41 1.89175 1.78571429 EKTSEAPK 789 //8 7//38 1.25975 1 EGQEEVLKEVVESEGER 836 //18 9//105 2.141 0.67647059 NVPSKSK 590 //7 6//31 2.303 1.66666667 KTKVER 848 1//9 8//35 1.55425 1 ESEKSDGDPIVDPEKEK 823 1//14 19//153 5.592 1.41666667 ESEKSDGDPIVDPEKEK 823 1//14 20//153 4.614 1.36111111 ESEKSDGDPIVDPEKEK 823 1//14 19//153 3.89825 1.13888889 WILDTDTFNEWMNEEDYEVNDDKNPVSR 263 //6 5//28 0.651 1.6 WILDTDTFNEWMNEEDYEVNDDKNPVSR 263 //6 4//28 0.7165 1.2 WILDTDTFNEWMNEEDYEVNDDKNPVSR 263 //6 3//28 0.269 0.8 WILDTDTFNEWMNEEDYEVNDDKNPVSR 263 //6 2//22 0.11125 0.2 EGQEEVLKEVVESEGER 836 //7 5//28 0.7875 1 KTKVER 846 //17 21//99 6.83275 1.84375 KTKVER 846 1//17 23//99 6.1845 1.75 KTKVER 846 //17 22//99 5.99325 1.875 EGQEEVLKEVVESEGER 836 //7 6//28 0.81375 1.08333333 KTKVER 846 //17 22//99 5.82825 1.875 EGQEEVLKEVVESEGER 836 //7 4//28 0.58725 0.75 EGQEEVLKEVVESEGER 836 //7 5//35 0.7205 1 KTKVER 846 //17 19//99 5.3375 1.46875 EGQEEVLKEVVESEGER 836 //7 2//35 0.371 0.33333333 EGQEEVLKEVVESEGER 836 //7 4//35 0.5665 0.75 EGQEEVLKEVVESEGER 836 //7 3//28 0.495 0.66666667 KTKVER 846 //17 18//99 3.9575 1.5625 KTKVER 846 //17 13//99 2.4125 1 EGQEEVLKEVVESEGER 836 //8 5//26 0.78725 0.83333333 EGQEEVLKEVVESEGER 836 //8 4//26 0.49025 0.5 TKVER 848 //16 26//140 7.40375 2.17647059 EGQEEVLKEVVESEGER 836 1//8 7//32 0.726 1 EGQEEVLKEVVESEGER 836 1//8 6//32 0.47775 0.66666667 EGQEEVLKEVVESEGER 836 1//8 5//32 0.45275 0.58333333 KTKVER 848 //17 19//100 6.689 1.625 EGQEEVLKEVVESEGER 836 1//8 5//32 0.46975 0.58333333 EGQEEVLKEVVESEGER 836 //8 5//26 0.7445 0.83333333 EGQEEVLKEVVESEGER 836 //8 3//32 0.42875 0.41666667 EGQEEVLKEVVESEGER 836 1//8 6//32 0.63375 0.91666667 EGQEEVLKEVVESEGER 836 //8 4//32 0.50725 0.5 KTKVER 848 //17 9//96 3.33175 0.83333333 KTKVER 848 //17 10//96 3.28375 0.86666667 KTKVER 848 //17 8//96 3.2575 0.8 KTKVER 848 1//17 9//96 2.1065 0.73333333 KVEEAAKVTGK 724 //7 11//33 2.691 2.66666667 KVEEAAKVTGK 724 //7 11//33 2.6965 2.66666667 KTKVER 846 2//13 26//64 8.43675 3.85 KTKVER 846 3//13 26//80 7.948 3.65 KVEEAAKVTGK 724 //7 12//33 2.6335 2.75 KTKVER 846 3//13 21//62 5.77225 2.6 KTKVER 846 2//13 21//64 7.2265 2.9 KTKVER 846 2//13 20//62 4.77575 2.35 KVEEAAKVTGK 724 //7 8//33 1.633 1.66666667 KVEEAAKVTGK 724 2//7 13//40 2.89775 2.58333333 KVEEAAKVTGK 724 1//7 12//40 2.71925 2.33333333 KVEEAAKVTGK 724 //7 9//40 1.7835 1.83333333 KVEEAAKVTGK 724 1//7 12//40 1.55625 1.91666667 VEEAAKVTGK 724 //7 5//33 0.994 1.33333333 KTKVER 846 //13 15//78 3.54275 2.1 VEGQATDEKKEPK 769 //13 7//55 1.076 0.54545455 KTKVER 848 //13 24//64 8.242 3.8 KTKVER 848 //13 20//64 7.268 3.2 KTKVER 848 //13 21//64 7.15625 2.9 KVEEAAKVTGK 724 //5 9//23 1.7055 1.8 KTKVER 848 //13 21//64 6.3625 2.9 KVEEAAKVTGK 724 //8 11//30 2.007 1.83333333 KVEEAAKVTGK 724 //5 8//23 1.9085 1.7 TKVER 848 1//13 20//66 5.68175 2.65 KVEEAAKVTGK 724 //5 7//23 1.63725 1.4 KVEEAAKVTGK 724 //5 6//23 1.3135 1.1 KTKVER 846 //7 5//31 2.432 1.33333333 KTKVER 846 //7 6//31 2.13425 1.41666667 KTKVER 846 //7 10//32 2.283 1.75 KTKVER 846 //7 7//32 2.39625 1.5 KTKVER 846 //7 4//33 1.5015 1 AKHLAAVEER 874 //7 6//33 1.1255 0.91666667 AKHLAAVEER 874 //7 4//40 1.29025 0.75 AKHLAAVEER 874 //7 3//40 0.977 0.66666667 KGGNYK 292 //16 24//113 6.20575 1.55882353 ISAKTLTDEVNSPDSDRR 275 //7 6//27 0.7665 1.08333333 ISAKTLTDEVNSPDSDRR 275 //7 6//34 0.919 1.08333333 ISAKTLTDEVNSPDSDRR 275 //10 6//35 0.718 0.625 GGNYKKR 298 //16 20//110 5.59575 1.26470588 GGNYKKR 298 //16 19//110 4.84175 1.17647059 ISAKTLTDEVNSPDSDRR 275 1//10 9//53 1.3725 1.05555556 ISAKTLTDEVNSPDSDRR 275 1//10 7//53 0.76475 0.61111111 ISAKTLTDEVNSPDSDRR 275 2//10 9//53 1.164 0.83333333 KKDGGPNVK 5 //16 20//109 3.71675 1.35294118 ISAKTLTDEVNSPDSDRR 275 //9 18//39 4.42225 3 ISAKTLTDEVNSPDSDRR 275 2//9 11//48 1.57875 1.44444444 ISAKTLTDEVNSPDSDRR 275 //9 11//39 1.62425 0.94444444 ISAKTLTDEVNSPDSDRR 275 //9 5//48 0.32375 0.38888889 ISAKTLTDEVNSPDSDRR 275 //9 9//39 2.0765 0.83333333 KVHAK 236 //9 42//203 12.69425 1.68181818 HQGTVTEDKNNASHVVYPVPGNLEEEEWVRPVMK 171 //6 2//28 0.1985 0.4 HQGTVTEDKNNASHVVYPVPGNLEEEEWVRPVMK 171 //6 4//28 0.7935 1.2 HQGTVTEDKNNASHVVYPVPGNLEEEEWVRPVMK 171 //6 3//28 0.583 0.8 HQGTVTEDKNNASHVVYPVPGNLEEEEWVRPVMK 171 //6 3//28 0.3275 0.8 HQGTVTEDKNNASHVVYPVPGNLEEEEWVRPVMK 171 //6 3//28 0.2675 0.8 MKEEVPTALVEAHVR 704 1//19 11//99 2.82525 0.75 SALEEFSKMKEEVPTALVEAHVR 702 //5 4//25 0.924 0.9 TKVER 848 1//10 31//183 8.6195 1.63636364 SALEEFSKMKEEVPTALVEAHVR 702 //10 10//57 3.28675 1.5 AKHLAAVEER 874 //10 27//180 6.3015 1.27272727 SALEEFSKMKEEVPTALVEAHVR 702 //7 6//35 0.935 1.16666667 SALEEFSKMKEEVPTALVEAHVR 702 //7 6//35 0.9325 1.41666667 SALEEFSKMKEEVPTALVEAHVR 702 //8 7//40 1.0945 1.21428571 SALEEFSKMKEEVPTALVEAHVR 702 //8 6//40 1.41025 1 SALEEFSKMKEEVPTALVEAHVR 702 //8 4//32 0.6285 0.85714286 SLVQNNCLSRPNIFLCPEIEPKLLGK 151 //7 5//37 1.8095 1.14285714 SLVQNNCLSRPNIFLCPEIEPKLLGK 151 //7 5//37 1.7565 1.14285714 SLVQNNCLSRPNIFLCPEIEPKLLGK 151 //7 5//37 1.8335 1.14285714 LKDIIKR 157 3//12 35//215 8.866 1.56 SLVQNNCLSRPNIFLCPEIEPKLLGK 151 //7 5//37 1.4305 1.14285714 PNIFLCPEIEPKLLGK 151 //7 5//37 1.1005 1.14285714 SLVQNNCLSRPNIFLCPEIEPKLLGK 151 //6 3//25 0.368 0.66666667 PNIFLCPEIEPKLLGK 151 //7 5//30 0.7135 0.71428571 SLVQNNCLSRPNIFLCPEIEPKLLGK 151 //7 3//37 0.2295 0.35714286 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //10 8//53 2.017 0.83333333 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //10 8//53 1.47575 0.66666667 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //10 9//53 0.82775 0.72222222 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //10 7//53 1.4045 0.66666667 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //10 8//53 1.2495 0.72222222 KKDGGPNVK 5 //7 21//221 5.82125 0.87037037 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 //10 6//53 1.02375 0.61111111 DEEKGKEGDSEK 802 //9 8//32 3.2605 1.28571429 TSEAPKK 795 //14 10//71 1.09 0.81818182 FKSDQGWR 101 //11 12//49 3.66525 1.5625 FKSDQGWR 101 //6 6//26 1.764 1.7 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //7 4//35 1.068 1 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //7 2//35 0.25 0.33333333 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //5 3//20 1.249 0.8 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 4//32 0.834 0.75 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //5 3//25 0.9605 0.8 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //5 3//25 0.838 0.8 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //5 3//25 0.9495 0.8 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 4//32 0.9335 0.75 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 4//32 0.41325 0.5 TKVER 848 //17 33//223 12.62125 1.3 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 4//32 0.7255 0.75 VTGKADPAFGLESSGIAGTTSDEPER 728 //5 3//20 0.9715 0.8 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //5 3//25 0.7625 0.8 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //5 3//25 0.681 0.8 AGGSLCHILAAAYKFK 99 //12 20//60 7.2545 2.63636364 AGGSLCHILAAAYKFK 99 //12 13//75 3.59075 1.63636364 MKEEVPTALVEAHVR 704 //5 4//20 0.91525 0.9 MKEEVPTALVEAHVR 704 //5 4//20 0.845 0.9 MKEEVPTALVEAHVR 704 1//5 6//25 0.924 1.1 MKEEVPTALVEAHVR 704 1//8 7//32 0.66025 1 TKVER 848 2//15 33//115 10.3595 3.32142857 MKEEVPTALVEAHVR 704 //5 3//20 0.25975 0.3 MKEEVPTALVEAHVR 704 //8 6//32 0.73375 0.91666667 MKEEVPTALVEAHVR 704 2//8 8//32 0.81725 1.41666667 MKEEVPTALVEAHVR 704 1//5 4//25 0.79625 0.9 MKEEVPTALVEAHVR 704 1//5 4//25 0.79375 0.9 MKEEVPTALVEAHVR 704 1//10 14//46 4.209 1.8 AKHLAAVEER 874 1//15 35//91 14.75575 4.17857143 MKEEVPTALVEAHVR 704 2//10 15//46 4.27675 1.95 AKHLAAVEER 874 1//15 34//91 14.4715 4.03571429 MKEEVPTALVEAHVR 704 1//10 12//46 4.21275 1.7 MKEEVPTALVEAHVR 704 //10 11//46 3.663 1.65 MKEEVPTALVEAHVR 704 3//10 18//57 4.11175 2.2 AKHLAAVEER 874 2//15 32//115 11.737 3.42857143 MKEEVPTALVEAHVR 704 2//10 13//57 3.56625 1.75 AKHLAAVEER 874 //15 30//115 10.7675 3.46428571 MKEEVPTALVEAHVR 704 3//10 15//57 4.06475 1.85 MKEEVPTALVEAHVR 704 //10 14//57 3.36825 1.7 AKHLAAVEER 874 2//15 24//91 8.09225 2.21428571 AKHLAAVEER 874 1//15 19//91 6.2895 1.92857143 MKEEVPTALVEAHVR 704 //11 11//67 1.827 0.95454546 MKEEVPTALVEAHVR 704 2//13 16//69 3.04625 1.81818182 MKEEVPTALVEAHVR 704 //7 5//29 0.72675 0.83333333 MKEEVPTALVEAHVR 704 //7 6//36 1.3595 1.66666667 KTKVER 846 //15 24//117 9.913 2.64285714 MKEEVPTALVEAHVR 704 //7 6//36 0.805 0.91666667 MKEEVPTALVEAHVR 704 1//7 7//36 2.4105 1.75 MKEEVPTALVEAHVR 704 //7 6//36 2.381 1.66666667 MKEEVPTALVEAHVR 704 //7 6//36 0.97 0.91666667 MKEEVPTALVEAHVR 704 1//7 7//36 0.8555 1 MKEEVPTALVEAHVR 704 //16 24//114 7.622 2.42857143 MKEEVPTALVEAHVR 704 //16 18//114 5.3235 1.57142857 MKEEVPTALVEAHVR 704 //16 16//114 6.0175 1.71428571 MKEEVPTALVEAHVR 704 //17 11//109 2.49475 0.83333333 KVEEAAKVTGK 718 4//15 39//89 14.2165 4.03571429 KVEEAAKVTGK 718 6//15 34//113 12.08625 3.53571429 MKEEVPTALVEAHVR 704 //8 5//33 1.164 0.92857143 MKEEVPTALVEAHVR 704 //8 7//33 1.041 1.07142857 MKEEVPTALVEAHVR 704 //8 5//33 0.854 0.92857143 MKEEVPTALVEAHVR 704 2//8 9//41 1.3965 1.35714286 KVEEAAK 718 //15 32//93 11.53225 3.25 MKEEVPTALVEAHVR 704 2//8 9//41 1.3575 1.35714286 MKEEVPTALVEAHVR 704 2//8 9//41 1.40125 1.35714286 KVEEAAK 718 5//15 31//116 9.9345 3.17857143 KVEEAAK 718 2//15 30//116 10.10225 3 MKEEVPTALVEAHVR 704 1//8 7//41 1.32325 1.07142857 MKEEVPTALVEAHVR 704 //8 6//33 1.25 1.14285714 MKEEVPTALVEAHVR 704 2//8 8//41 0.89425 1.07142857 KVEEAAK 718 1//15 25//116 8.641 2.57142857 MKEEVPTALVEAHVR 704 //8 6//33 0.5815 0.57142857 DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEKPR 233 //12 9//68 1.71325 1.25 DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEKPR 233 //12 8//68 2.056 1.2 DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEKPR 233 //12 7//68 1.9705 1.05 DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEKPR 233 //12 8//68 1.44275 0.8 DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEKPR 233 1//12 7//68 1.005 0.6 DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEKPR 233 //12 3//68 0.3295 0.25 DKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEKPR 233 //12 2//68 0.3755 0.2 AKHLAAVEER 874 //8 7//38 1.6365 1.14285714 KVEEAAK 718 1//8 11//31 2.377 2.3 KVEEAAK 718 3//8 12//30 1.22925 1.83333333 KVEEAAK 718 2//8 12//30 1.54575 2.25 KVEEAAK 718 1//8 10//30 1.0535 1.58333333 KVEEAAK 718 //8 4//31 1.099 0.9 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 5//40 1.621 1.14285714 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 7//32 2.717 1.71428571 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 6//40 1.8535 1.42857143 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 7//32 0.8695 1.71428571 KVEEAAK 718 //17 25//223 7.6695 0.98571429 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 5//32 0.707 1.14285714 KVEEAAK 718 //7 6//31 1.553 1.41666667 KVEEAAK 718 //7 6//32 2.416 1.41666667 KVEEAAK 718 //7 6//31 1.50075 1.41666667 KVEEAAK 718 //7 5//32 2.2475 1.33333333 KVEEAAK 718 //7 4//31 0.31775 0.33333333 LLEDSALSKYDATKQK 228 //15 15//92 5.4095 1.4 LLEDSALSKYDATKQK 228 //15 12//92 5.07025 1.23333333 LLEDSALSKYDATKQK 228 //15 13//92 4.2015 1.06666667 LLEDSALSKYDATKQK 228 //15 10//92 2.597 0.63333333 KFSSFFK 232 1//10 14//45 2.3775 1.78571429 EFVICDKYLQQIFESQR 341 //12 6//63 1.26475 0.7 EFVICDKYLQQIFESQR 341 //12 9//63 1.99525 1.3 EFVICDKYLQQIFESQR 341 //12 8//63 1.73875 0.95 EFVICDKYLQQIFESQR 341 //12 6//63 0.80475 0.5 EFVICDKYLQQIFESQR 341 //12 5//50 0.87175 0.5 THKLQDPHER 327 //12 23//128 5.2745 1.53125 EFVICDKYLQQIFESQR 341 //12 8//63 1.61575 0.9 EFVICDKYLQQIFESQR 341 //12 7//63 1.61725 1.05 EFVICDKYLQQIFESQR 341 //12 7//63 1.8535 0.9 KLDQTIMR 156 1//11 11//49 1.7835 1.4375 NHNAKKK 124 //12 14//54 3.933 2.05555556 NHNAKKK 124 //12 15//54 3.9625 2.11111111 NHNAKKK 124 //12 14//54 4.0105 2.05555556 MADKILPQR 131 1//8 5//29 0.29075 0.41666667 MADKILPQR 131 1//8 4//29 0.179 0.33333333 KMADKILPQR 131 //8 6//29 0.75175 0.91666667 IFISNTFNPAKSDAEDGEGTVASWELR 194 //15 15//214 3.3295 0.5 IFISNTFNPAKSDAEDGEGTVASWELR 194 2//15 12//214 3.4165 0.48076923 IFISNTFNPAKSDAEDGEGTVASWELR 194 //15 7//214 2.40675 0.34615385 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 20//159 2.01425 0.73809524 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 17//159 2.1255 0.71428571 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 20//159 2.36725 0.85714286 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 19//159 1.921 0.71428571 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 22//159 3.0515 1.14285714 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 17//159 2.35675 0.73809524 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 16//159 1.6385 0.5952381 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 18//159 2.01675 0.76190476 TATTQETDGFQVKR 273 //7 31//156 12.03525 1.80769231 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 15//118 1.60625 0.5 IFISNTFNPAKSDAEDGEGTVASWELR 194 //16 8//77 2.22875 0.89285714 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 21//159 2.2705 0.85714286 TATTQETDGFQVKRPGDVNVR 273 //7 33//214 11.7825 1.76923077 TATTQETDGFQVKRPGDVNVR 273 //7 28//156 10.4355 1.61538462 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 18//159 1.58225 0.61904762 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 22//159 2.8955 0.97619048 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 15//159 1.7575 0.71428571 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 17//159 1.474 0.5952381 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 18//159 1.62375 0.66666667 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 14//159 2.8505 0.80952381 TATTQETDGFQVKRPGDVNVR 273 //7 31//254 9.166 1.35 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 14//159 2.2285 0.52380952 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 11//118 1.179 0.26190476 TATTQETDGFQVKRPGDVNVR 273 //7 34//214 9.57125 1.57692308 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 11//118 1.4045 0.30952381 TATTQETDGFQVKRPGDVNVR 273 //7 25//183 8.95625 1.06666667 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 12//159 1.39575 0.38095238 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 13//159 2.263 0.5952381 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 13//159 1.28625 0.45238095 TATTQETDGFQVKRPGDVNVR 273 //7 23//183 8.47525 0.96666667 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 15//159 1.225 0.45238095 TATTQETDGFQVKRPGDVNVR 273 //7 23//183 8.56575 1.01666667 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 10//118 1.54325 0.42857143 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 15//159 1.43475 0.45238095 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 11//159 1.321 0.30952381 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 13//159 1.08225 0.47619048 LHALLMPPEPIIINHVISVDPNDQKK 385 //13 13//159 1.10775 0.5952381 LHALLMPPEPIIINHVISVDPNDQKK 385 //13 13//159 1.19725 0.57142857 LHALLMPPEPIIINHVISVDPNDQKK 385 //13 15//159 1.451 0.64285714 LHALLMPPEPIIINHVISVDPNDQKK 385 //13 5//159 0.52125 0.16666667 NHNAKKK 125 //12 17//54 5.2985 2.66666667 NHNAKKK 125 //12 15//54 4.8355 2.44444444 NHNAKKK 125 1//11 9//57 2.621 1.1875 NHNAKKK 125 //12 8//54 1.60225 1.16666667 NHNAKKK 125 1//11 15//73 4.3265 1.7 KMADK 127 2//9 17//35 2.025 3.33333333 KRPAPQQIQQVQQQAVQNR 101 2//9 12//52 2.8675 1.61111111 KRPAPQQIQQVQQQAVQNR 101 //14 6//83 0.33325 0.33333333 KRPAPQQIQQVQQQAVQNR 101 //14 4//83 0.177 0.25 KRPAPQQIQQVQQQAVQNR 101 1//11 9//52 2.3935 1.22222222 KRPAPQQIQQVQQQAVQNR 101 //9 8//50 2.10675 1.5625 KRPAPQQIQQVQQQAVQNR 101 //9 8//50 1.9835 1.5625 KRPAPQQIQQVQQQAVQNR 101 //9 7//50 1.1335 0.9375 KRPAPQQIQQVQQQAVQNR 101 1//11 9//57 1.811 1.05555556 TATTQETDGFQVKRPGDVNVR 273 //16 32//156 12.74025 2.42105263 TATTQETDGFQVKRPGDVNVR 273 //16 19//156 8.8735 1.44736842 MKFSEIPQR 353 //11 14//59 4.97525 1.75 MKFSEIPQR 353 //11 13//58 4.46225 1.55 MADKILPQR 131 //9 4//47 1.4925 0.75 MADKILPQR 131 //9 4//47 1.397 0.75 VASAAAKAALEEFSR 716 //2 20//179 2.897 0.55 VASAAAKAALEEFSR 716 //2 19//250 2.30525 0.51666667 VREEVPLELVEAHVKK 739 //2 23//179 5.2995 0.88333333 VREEVPLELVEAHVKK 739 //2 24//179 4.57525 0.86666667 VREEVPLELVEAHVKK 739 //2 24//179 5.10125 1.11666667 KKSGK 342 1//10 14//46 5.33025 2.33333333 KGQASLYGKR 354 //5 8//22 1.6345 1.8 KKVEHEISEGNVATAAAAALASAATK 856 //8 4//40 0.629 0.375 VREEVPLELVEAHVKK 739 //8 8//40 2.503 1.5 KVQEAAR 740 //8 7//37 2.1045 1.3125 KVQEAAR 740 //8 7//37 1.95125 1.3125 SKGASAGR 615 3//13 22//66 8.7815 3.3 TDIYSKK 608 //8 8//38 1.674 1.1875 TDIYSKK 608 1//8 9//37 3.7935 1.85714286 TDIYSKK 608 //14 15//70 4.8285 1.68181818 TDIYSKK 608 //14 19//70 5.07075 2.09090909 TDIYSKK 608 1//14 23//70 5.16375 2.5 TDIYSKK 608 //14 14//70 3.3685 1.5 TDIYSKK 608 3//8 10//28 1.17225 2 TDIYSKK 608 2//8 7//28 0.83625 1.08333333 VREEVPLELVEAHVKK 739 //9 10//30 2.60325 1.85714286 VREEVPLELVEAHVKK 739 //9 6//37 0.55875 0.57142857 DMEDPTPVPNIEEVVLPKNVNLK 387 1//10 6//44 0.76575 0.61111111 LKDIIKR 189 //12 27//215 9.204 1.28 NVEMFMNIEKTLVQNNCLTRPNIYLIPDIDLK 157 //18 10//118 2.152 0.71875 NVEMFMNIEKTLVQNNCLTRPNIYLIPDIDLK 157 //18 11//118 2.0615 0.8125 AGGALCHILGAAYKYK 127 //6 26//261 7.3555 0.98387097 AGGALCHILGAAYKYK 127 1//12 16//51 4.956 2.1 KHSPSPPPPTPTESR 326 //16 14//114 6.332 1.5 KHSPSPPPPTPTESR 326 //16 13//114 4.49675 1 KHSPSPPPPTPTESR 326 //16 13//114 4.26625 0.93333333 WILDTDIFNEWMNEEDYEVDENRKPVSFR 292 //8 5//39 0.79525 0.71428571 WILDTDIFNEWMNEEDYEVDENRKPVSFR 292 //8 4//39 0.5345 0.57142857 WILDTDIFNEWMNEEDYEVDENRKPVSFR 292 //8 3//39 0.2095 0.21428571 DRKASANAR 317 //7 7//32 1.51375 1 KPVSFR 292 //16 15//85 3.051 1.23076923 HQGTFTDEKSK 199 //8 9//38 3.51225 1.5625 HQGTFTDEKSK 199 1//11 12//43 4.21025 1.55555556 HQGTFTDEKSK 199 //8 8//29 2.40125 1.5 KPVSFR 292 10//13 29//64 8.073 3.9 HQGTFTDEKSK 199 2//10 17//49 5.45725 2.44444444 QVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWK 261 1//13 9//71 0.86325 0.72727273 HQGTFTDEKSK 199 //13 26//224 5.9545 0.88888889 EKQVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWK 261 //13 4//71 0.3375 0.18181818 HQGTFTDEKSK 199 //11 8//52 1.68725 1.22222222 HQGTFTDEKSK 199 //8 10//37 3.0615 1.85714286 HQGTFTDEKSK 199 //8 7//45 2.704 1.5 HQGTFTDEKSK 199 //11 6//52 1.16025 0.94444444 HQGTFTDEKSK 199 //8 8//37 2.04475 1.21428571 RHQGTFTDEKSK 199 //8 9//35 1.9725 1.21428571 HQGTFTDEKSK 199 //8 7//37 1.651 1 HQGTFTDEKSK 199 //11 2//52 0.133 0.11111111 HQGTFTDEKSK 199 //11 1//43 0.058 0.05555556 HQGTFTDEKSK 199 1//13 14//73 4.77575 1.68181818 HQGTFTDEKSK 199 //13 17//58 3.90825 1.95 HQGTFTDEKSK 199 //8 9//37 3.25425 1.64285714 HQGTFTDEKSK 199 1//8 10//37 3.3335 1.71428571 ISTKNEEPVRSPER 303 1//13 13//71 1.965 1.13636364 ISTKNEEPVRSPER 303 //13 6//71 0.476 0.36363636 HQGTFTDEKSK 199 //15 25//211 8.457 1.25 KGQASLYGK 346 2//6 8//26 1.506 2.1 KGQASLYGK 346 1//6 6//26 1.508 1.7 KGQASLYGK 346 1//6 5//26 1.07625 1.3 KGQASLYGK 346 //6 4//26 1.3905 1.2 AKHLAAVEER 882 1//17 14//99 2.78875 0.86666667 KVEHEISEGNVATAAAAALASAATK 856 //17 14//122 1.403 0.90625 KVEHEISEGNVATAAAAALASAATK 856 //17 13//122 2.27125 0.875 VREEVPLELVEAHVKK 739 1//19 26//155 10.548 1.54 VREEVPLELVEAHVKK 739 1//19 25//155 10.041 1.54 ISTKNEEPVRSPER 303 //8 9//33 3.2255 1.64285714 ISTKNEEPVRSPER 303 //8 9//33 3.38425 1.78571429 ISTKNEEPVRSPER 303 //8 11//41 3.69575 2.14285714 ISTKNEEPVRSPER 303 //8 7//33 2.8245 1.5 ISTKNEEPVR 303 1//8 10//37 2.52475 1.92857143 ISTKNEEPVR 303 1//11 7//44 0.828 1 ISTKNEEPVRSPER 303 //8 9//41 2.801 1.78571429 KASANAR 317 //12 12//57 3.1365 1.72222222 ISTKNEEPVRSPER 303 //8 11//33 2.587 2.28571429 ISTKNEEPVRSPER 303 //11 6//49 0.9975 0.94444444 DRKASANAR 317 //16 14//83 2.51275 0.76923077 KASANAR 317 //16 12//108 2.99025 0.92307692 ISTKNEEPVR 303 //11 9//53 1.57075 1.27777778 DRKASANAR 317 //16 10//106 2.2655 0.65384615 ISTKNEEPVRSPER 303 //8 6//41 1.37875 1.21428571 ISTKNEEPVRSPER 303 1//11 9//49 1.87725 1.11111111 ISTKNEEPVRSPER 303 //8 8//33 1.4235 1.21428571 ISTKNEEPVRSPER 303 //11 7//49 1.88175 1 ISTKNEEPVRSPER 303 //11 6//49 1.2215 0.94444444 ISTKNEEPVR 303 //11 1//44 0.125 0.05555556 ISTKNEEPVRSPER 303 //11 7//40 1.51125 0.72222222 KASANAR 317 //12 7//57 1.43375 0.83333333 ISTKNEEPVRSPER 303 //9 11//37 2.55075 1.4375 ISTKNEEPVR 303 //9 8//43 1.5445 1.3125 ISTKNEEPVRSPER 303 1//9 8//48 1.0045 1 EKPVDLQNFGLR 592 //16 33//106 13.236 2.91176471 EKPVDLQNFGLR 592 //14 31//105 12.91275 2.91176471 SPQVPAAQQMLNFPEKNK 588 //12 8//62 2.00675 0.66666667 EKPVDLQNFGLR 592 //16 30//106 11.51675 2.64705882 EKPVDLQNFGLR 592 //16 26//106 10.22 2.17647059 EKPVDLQNFGLR 592 1//16 25//140 8.0475 1.91176471 EKPVDLQNFGLR 592 //16 31//106 9.53575 2.52941177 EKPVDLQNFGLR 592 //16 22//140 6.87875 1.70588235 EKPVDLQNFGLR 592 //14 25//105 9.19375 1.97058824 EKPVDLQNFGLR 592 //14 26//105 7.555 1.79411765 SPQVPAAQQMLNFPEKNK 588 //12 11//62 2.11975 1 SPQVPAAQQMLNFPEKNK 588 //12 12//62 3.1745 1.08333333 SPQVPAAQQMLNFPEKNK 588 //12 12//62 2.5685 1.20833333 SPQVPAAQQMLNFPEKNK 588 //12 8//62 1.02575 0.41666667 SPQVPAAQQMLNFPEKNK 588 //12 6//62 0.7565 0.25 SPQVPAAQQMLNFPEKNK 588 //12 11//62 2.27825 0.79166667 EKPVDLQNFGLR 592 //11 12//114 3.234 0.71052632 SPQVPAAQQMLNFPEKNK 588 //12 10//62 2.1215 0.75 EKPVDLQNFGLR 592 3//8 11//35 3.29625 1.92857143 EKPVDLQNFGLR 592 //17 12//84 4.27175 1.21428571 VREEVPLELVEAHVKK 739 //12 19//78 6.91825 2.04166667 VWLGKHYK 61 //16 13//83 1.161 0.96153846 SKGASAGR 615 4//13 29//66 9.55775 3.85 SKGASAGR 615 4//13 27//66 9.18125 3.7 SKGASAGR 615 2//13 24//66 7.87 3.05 SKGASAGR 615 3//13 18//66 5.485 2.15 KVEHEISEGNVATAAAAALASAATK 856 1//9 3//29 0.179 0.21428571 KVEHEISEGNVATAAAAALASAATK 856 //11 4//50 0.237 0.22222222 KVEHEISEGNVATAAAAALASAATK 856 1//11 3//50 0.193 0.16666667 KVEHEISEGNVATAAAAALASAATK 856 //11 4//40 0.495 0.5 KVEHEISEGNVATAAAAALASAATK 856 1//9 5//36 0.2835 0.35714286 KVEHEISEGNVATAAAAALASAATK 856 //11 2//50 0.12925 0.11111111 KVEHEISEGNVATAAAAALASAATK 856 //11 2//50 0.194 0.11111111 VREEVPLELVEAHVKK 739 //17 25//84 11.4575 2.7 VREEVPLELVEAHVKK 739 //17 22//84 10.3555 2.26666667 VREEVPLELVEAHVKK 739 //17 20//109 6.00325 1.7 VASAAAKAALEEFSRVR 716 1//11 21//113 5.22175 1.52631579 VASAAAKAALEEFSRVR 716 //11 14//153 2.59625 0.86842105 VASAAAKAALEEFSRVR 716 //11 13//153 2.595 0.81578947 VASAAAKAALEEFSRVR 716 //11 13//153 2.591 0.84210526 VASAAAKAALEEFSRVR 716 1//11 17//113 4.36075 1.2631579 VASAAAKAALEEFSRVR 716 //11 18//113 4.309 1.34210526 VASAAAKAALEEFSRVR 716 1//11 17//113 3.9 1.21052632 VASAAAKAALEEFSRVR 716 //11 15//113 4.06275 1.28947368 VASAAAKAALEEFSRVR 716 //11 11//153 2.13675 0.65789474 VASAAAKAALEEFSRVR 716 //11 9//153 1.36675 0.60526316 VASAAAKAALEEFSRVR 716 //11 14//113 2.5925 1.02631579 VREEVPLELVEAHVKK 739 //17 7//109 1.2635 0.46666667 ESDTGKK 854 //17 26//90 7.1175 2.46428571 VASAAAKAALEEFSR 716 //11 5//42 0.195 0.27777778 VASAAAKAALEEFSR 716 //11 4//52 0.17975 0.22222222 VASAAAKAALEEFSR 716 10//17 37//84 11.87775 3.7 VASAAAKAALEEFSR 716 5//17 28//84 9.6005 2.66666667 VASAAAKAALEEFSR 716 6//17 29//84 9.44 2.8 VASAAAKAALEEFSR 716 4//17 27//84 8.87425 2.53333333 VASAAAKAALEEFSR 716 4//17 25//84 8.4075 2.32142857 VASAAAKAALEEFSR 716 4//17 25//84 8.12875 2.23333333 VASAAAKAALEEFSR 716 3//17 27//84 7.956 2.4 VASAAAKAALEEFSR 716 2//17 23//84 7.78075 2.25 VASAAAKAALEEFSR 716 2//17 22//84 6.24675 1.76666667 VASAAAKAALEEFSR 716 1//17 12//84 3.4685 1.10714286 KVEHEISEGNVATAAAAALASAATK 856 //17 18//84 6.70275 1.8 KVEHEISEGNVATAAAAALASAATK 856 //17 16//109 5.4275 1.56666667 KVEHEISEGNVATAAAAALASAATK 856 //17 15//109 5.35075 1.53333333 KVEHEISEGNVATAAAAALASAATK 856 //17 14//109 5.5815 1.5 KVEHEISEGNVATAAAAALASAATK 856 //17 14//84 4.157 1.5 KVEHEISEGNVATAAAAALASAATK 856 1//17 15//84 4.38675 1.33333333 KVEHEISEGNVATAAAAALASAATK 856 //17 14//109 5.3135 1.5 KVEHEISEGNVATAAAAALASAATK 856 //17 15//84 5.19425 1.53333333 KVEHEISEGNVATAAAAALASAATK 856 //17 16//109 4.84125 1.56666667 KVEHEISEGNVATAAAAALASAATK 856 //17 15//109 3.959 1.1 VASAAAKAALEEFSR 716 2//19 34//210 9.201 1.62 KVEHEISEGNVATAAAAALASAATK 856 //17 15//84 4.7355 1.53333333 KVEHEISEGNVATAAAAALASAATK 856 //17 16//109 4.23925 1.33333333 KVEHEISEGNVATAAAAALASAATK 856 1//17 16//109 5.1645 1.46666667 KVEHEISEGNVATAAAAALASAATK 856 1//17 15//109 3.846 1.1 KVEHEISEGNVATAAAAALASAATK 856 //17 15//84 4.0595 1.2 KVEHEISEGNVATAAAAALASAATK 856 //17 16//109 4.565 1.56666667 KVEHEISEGNVATAAAAALASAATK 856 //17 13//84 3.79375 1.16666667 VASAAAKAALEEFSR 716 //19 18//157 5.24025 0.84 KVEHEISEGNVATAAAAALASAATK 856 //17 12//84 3.91825 1.06666667 VASAAAKAALEEFSR 716 2//19 13//210 2.45175 0.6 AKHLAAVEER 882 //17 25//86 8.28525 2.67857143 AKHLAAVEER 882 //17 20//86 4.58125 1.5 VASAAAKAALEEFSR 716 1//8 10//34 3.45525 1.92857143 VASAAAKAALEEFSR 716 //8 9//34 2.97325 1.85714286 VASAAAKAALEEFSR 716 //8 8//34 3.15375 1.78571429 VASAAAKAALEEFSR 716 //8 8//34 2.418 1.57142857 VASAAAKAALEEFSR 716 //18 39//162 17.4335 2.17307692 VASAAAKAALEEFSR 716 //18 47//218 12.79975 2.13461539 VASAAAKAALEEFSR 716 //16 32//162 12.51525 1.65384615 KKVEHEISEGNVATAAAAALASAATK 855 //17 18//109 5.5705 1.76666667 KKVEHEISEGNVATAAAAALASAATK 855 //17 15//109 4.685 1.3 VASAAAKAALEEFSR 716 //16 31//220 8.09875 1.30769231 KKVEHEISEGNVATAAAAALASAATK 855 //17 13//109 4.395 1.26666667 VASAAAKAALEEFSR 716 //16 22//220 5.96725 1.05769231 VASAAAKAALEEFSR 716 1//10 6//35 0.6295 0.6875 VASAAAKAALEEFSR 716 1//10 6//35 0.52975 0.6875 YKNEQGWR 129 //8 6//37 2.1155 1.42857143 YKNEQGWRR 129 //17 26//98 9.187 2.63333333 KASANAR 317 //14 32//242 7.96975 0.92105263 KASANAR 317 //14 27//242 7.57075 0.72368421 EKQVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWK 227 //8 6//39 1.3125 1.42857143 KDGGPATK 34 //17 33//163 14.4945 2.14 KVEHEISEGNVATAAAAALASAATK 856 1//9 4//39 0.6285 0.5 KVEHEISEGNVATAAAAALASAATK 856 //8 6//32 1.272 1.42857143 KVEHEISEGNVATAAAAALASAATK 856 //8 6//40 1.8265 1.21428571 KVEHEISEGNVATAAAAALASAATK 856 //8 7//32 1.355 1.5 KVEHEISEGNVATAAAAALASAATK 856 //8 6//40 1.82375 1.21428571 KVEHEISEGNVATAAAAALASAATK 856 //8 4//32 0.49 0.57142857 KVEHEISEGNVATAAAAALASAATK 856 //8 5//40 0.971 0.64285714 KVEHEISEGNVATAAAAALASAATK 856 //8 6//40 1.18175 0.92857143 ASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEK 750 //8 6//40 2.357 1.42857143 ASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEK 750 //8 6//32 2.16 1.42857143 KVQEAAR 740 3//8 13//36 4.12975 2.42857143 KVQEAAR 740 2//8 11//36 3.36375 1.92857143 DRKASANAR 317 1//8 10//28 2.086 1.58333333 KVQEAAR 740 //10 7//50 1.2725 0.94444444 KASANAR 317 1//11 11//59 2.978 1.4 DRKASANAR 317 //10 11//51 3.5425 1.44444444 DRKASANAR 317 //10 13//51 3.27725 1.66666667 KASANAR 317 //11 11//59 2.13275 1.5 GQASLYGKR 354 //8 9//37 2.8425 2 GQASLYGKR 354 //8 8//37 2.17475 1.57142857 DRKASANAR 317 //11 10//47 3.66375 1.27777778 KASANAR 317 //8 35//133 14.83025 2.11363636 KASANAR 317 //8 48//182 13.77975 2.61363636 KASANAR 317 //8 44//182 13.72125 2.40909091 DGGPATKFWESPETVSQLDSVR 41 //8 6//31 1.618 1.21428571 KASANAR 317 //8 37//133 10.91575 2.13636364 KASANAR 317 //8 24//133 6.809 1.34090909 KASANAR 317 //8 28//133 5.6795 1.25 TLAGLVVQLLQFQEDAFGKHVTNPAFTK 94 //8 5//39 1.04025 0.92857143 TLAGLVVQLLQFQEDAFGKHVTNPAFTK 94 //8 5//39 1.2105 0.92857143 TLAGLVVQLLQFQEDAFGKHVTNPAFTK 94 //8 5//39 1.24175 0.92857143 TLAGLVVQLLQFQEDAFGKHVTNPAFTK 94 //8 7//39 1.2795 1.28571429 TLAGLVVQLLQFQEDAFGKHVTNPAFTK 94 //8 4//39 0.6395 0.42857143 TLAGLVVQLLQFQEDAFGKHVTNPAFTK 94 //8 4//39 0.81375 0.64285714 TLAGLVVQLLQFQEDAFGKHVTNPAFTKLPAK 94 //8 5//39 1.2145 0.85714286 KASANAR 317 //4 26//184 6.42325 1.06451613 TLAGLVVQLLQFQEDAFGKHVTNPAFTKLPAK 94 1//8 5//39 1.07775 0.71428571 KHSPSPPPPTPTESR 326 //8 5//33 0.9635 1.14285714 KHSPSPPPPTPTESR 326 //8 7//33 1.06925 1 KHSPSPPPPTPTESR 326 //11 4//40 0.33275 0.22222222 KHSPSPPPPTPTESR 326 //11 6//49 1.0615 0.94444444 KASANAR 317 //15 32//143 12.86575 1.84782609 DRKASANAR 317 1//9 10//55 2.1115 1.27777778 KDGGPATK 34 1//8 8//34 2.968 1.57142857 RKDGGPATK 34 //8 9//36 3.1955 1.78571429 RKDGGPATK 34 //8 8//36 3.0775 1.78571429 KVQEAAR 740 //8 6//35 2.497 1.42857143 DRKASANAR 317 //8 8//37 1.67825 1.57142857 SKASHHIYPYSSSQDDEEWLRPVMR 201 //8 5//39 1.56225 0.92857143 SKASHHIYPYSSSQDDEEWLRPVMR 201 1//8 5//39 0.59575 0.71428571 EKLTELMFEHYNIPAFFLCK 135 //16 20//121 6.59575 1.78125 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //14 18//161 5.5375 1 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //14 18//161 4.56325 1.1 EKLTELMFEHYNIPAFFLCK 135 1//16 19//121 5.42625 1.28125 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //14 17//161 4.012 0.9 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //14 17//161 3.92 0.925 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //14 15//161 3.884 0.925 QEYEEGGKQCVER 421 //14 29//120 9.70475 2.31578947 QEYEEGGKQCVER 421 //14 28//120 9.19625 2.10526316 EKLTELMFEHYNIPAFFLCK 135 2//15 18//93 3.77325 1.38461539 QEYEEGGKQCVER 421 1//14 26//120 9.39375 2 QEYEEGGKQCVER 421 1//14 32//120 8.8605 2.18421053 QEYEEGGKQCVER 421 //14 32//120 8.10275 2.05263158 EKLTELMFEHYNIPAFFLCK 135 //16 19//106 2.453 1.5 QEYEEGGKQCVER 421 1//14 29//161 10.31 2.02631579 QEYEEGGKQCVER 421 //14 22//120 6.89875 1.5 EKLTELMFEHYNIPAFFLCK 135 //15 17//93 3.9405 1.57692308 QEYEEGGKQCVER 421 //14 21//120 6.52325 1.5 EKLTELMFEHYNIPAFFLCK 135 1//15 16//71 5.324 1.76923077 QEYEEGGKQCVER 421 //14 28//120 7.87425 1.86842105 EKLTELMFEHYNIPAFFLCK 135 1//15 15//93 2.474 1.15384615 QEYEEGGKQCVER 421 1//14 25//161 8.52275 1.65789474 EKLTELMFEHYNIPAFFLCK 135 1//15 16//71 5.04275 1.53846154 EKLTELMFEHYNIPAFFLCK 135 //15 14//71 4.29175 1.46153846 REKLTELMFEHYNIPAFFLCK 135 //15 16//93 5.981 1.76923077 QEYEEGGKQCVER 421 //14 20//120 4.299 1.15789474 QEYEEGGKQCVER 421 //12 21//169 4.78525 1.25 EKLTELMFEHYNIPAFFLCK 135 //16 14//106 1.508 0.89285714 QEYEEGGKQCVER 421 1//14 24//120 5.20025 1.55263158 EKLTELMFEHYNIPAFFLCK 135 1//15 13//93 1.90475 0.88461539 REKLTELMFEHYNIPAFFLCK 135 //15 18//93 5.94075 1.96153846 QEYEEGGKQCVER 421 //14 22//120 3.6565 1.28947368 QEYEEGGKQCVER 421 //14 15//120 3.17525 0.94736842 QEYEEGGKQCVER 421 //14 15//120 5.128 1.05263158 QEYEEGGKQCVER 421 //14 20//161 4.868 1.2631579 EKLTELMFEHYNIPAFFLCK 135 1//15 10//93 1.28475 0.65384615 QEYEEGGKQCVER 421 //12 14//169 2.08875 0.625 QEYEEGGKQCVER 421 //14 16//120 3.6855 0.94736842 QEYEEGGKQCVER 421 //14 16//161 3.26475 0.84210526 EKLTELMFEHYNIPAFFLCK 135 //15 7//93 1.2005 0.53846154 QEYEEGGKQCVER 421 //14 15//120 2.6745 0.71052632 REKLTELMFEHYNIPAFFLCK 135 //15 13//93 3.502 1.07692308 QEYEEGGKQCVER 421 //14 17//161 2.25375 0.78947368 DDGSTLMEIDGDKGK 60 //14 23//162 10.065 1.78947368 VDFPTAIGMVVERDDGSTLMEIDGDKGK 60 //14 23//161 10.10675 1.55 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //14 20//161 5.1145 1.1 EKLTELMFEHYNIPAFFLCK 135 //17 13//108 3.24025 0.93333333 EKLTELMFEHYNIPAFFLCK 135 //6 29//232 8.11925 1.26785714 EKLTELMFEHYNIPAFFLCK 135 1//17 14//108 3.594 1.13333333 VDFPTAIGMVVERDDGSTLMEIDGDKGK 60 //14 20//161 8.3195 1.375 EKLTELMFEHYNIPAFFLCK 135 //17 13//108 2.86725 0.93333333 EKLTELMFEHYNIPAFFLCK 135 //17 18//84 6.57475 1.7 EKLTELMFEHYNIPAFFLCK 135 //17 19//84 6.18175 1.83333333 EKLTELMFEHYNIPAFFLCK 135 //6 19//168 4.829 0.82142857 DDGSTLMEIDGDKGK 60 //14 20//162 7.51875 1.47368421 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //14 18//161 4.9915 1.225 EKLTELMFEHYNIPAFFLCK 135 //17 11//84 4.10625 1.1 EKLTELMFEHYNIPAFFLCK 135 //12 26//124 10.167 1.825 EKLTELMFEHYNIPAFFLCK 135 //12 23//124 8.31475 1.625 EKLTELMFEHYNIPAFFLCK 135 //12 24//124 8.02225 1.65 EKLTELMFEHYNIPAFFLCK 135 1//12 14//124 4.7625 0.675 EKLTELMFEHYNIPAFFLCK 135 //12 9//124 4.57525 0.575 EKLTELMFEHYNIPAFFLCK 135 //12 9//124 2.85675 0.575 EKLTELMFEHYNIPAFFLCK 135 //12 16//124 2.976 0.7 EKLTELMFEHYNIPAFFLCK 135 //12 14//124 1.4615 0.55 EKLTELMFEHYNIPAFFLCK 135 //12 15//124 2.25925 0.7 EKLTELMFEHYNIPAFFLCK 135 //12 13//124 1.9215 0.625 LKLIANNTTVER 379 1//13 13//56 2.68425 1.45454546 LKLIANNTTVERR 379 //13 8//71 1.8235 0.72727273 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 37//252 14.2165 1.29761905 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //8 27//235 9.377 1.48275862 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //8 23//235 8.7855 1.27586207 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 28//252 10.76325 0.91666667 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //8 21//235 6.24425 0.96551724 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //8 21//235 7.3505 1.01724138 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //8 19//235 5.30075 0.74137931 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //8 16//235 3.80875 0.56896552 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 28//252 11.41025 0.98809524 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 22//252 8.44175 0.73809524 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 25//252 7.98575 0.77380952 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 26//252 7.76725 0.73809524 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1//8 23//235 4.88925 0.86206897 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 25//252 8.0045 0.73809524 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 23//252 6.44225 0.73809524 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 25//253 5.438 0.58333333 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 25//252 7.89175 0.72619048 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 22//252 6.96225 0.5952381 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 24//253 6.308 0.60714286 ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 //3 25//252 7.50875 0.69047619 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //8 11//235 2.15725 0.34482759 STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 //8 6//235 1.30725 0.22413793 ENMEAISPLKNGMVEDWDSFQAILDHTYKMHVK 108 1//14 16//181 5.4645 0.86363636 ENMEAISPLKNGMVEDWDSFQAILDHTYKMHVK 108 1//14 12//181 3.13275 0.43181818 ENMEAISPLKNGMVEDWDSFQAILDHTYKMHVK 108 //14 10//181 3.005 0.45454546 ENMEAISPLKNGMVEDWDSFQAILDHTYKMHVK 108 //14 14//181 3.501 0.54545455 EGSPANWKR 238 //10 15//53 5.07 2.33333333 KEKLPQVTR 240 3//11 20//46 6.02825 2.83333333 EGSPANWKR 238 //10 12//53 3.4675 1.88888889 KEKLPQVTR 240 4//11 23//56 5.60425 3.33333333 EGSPANWKR 238 //10 10//53 2.8295 1.5 KEKLPQVTR 240 4//11 23//56 4.41225 3.66666667 EGSPANWKR 238 //10 10//53 2.722 1.44444444 EGSPANWKR 238 //10 10//52 3.74325 1.66666667 KEKLPQVTR 240 4//11 20//56 4.67175 3 KEKLPQVTR 240 //11 15//46 4.64575 2.05555556 KEKLPQVTR 240 2//11 17//56 3.1365 2.05555556 EAVREGSPANWKR 238 //10 10//59 2.7975 1.38888889 EAVREGSPANWKR 238 //10 9//59 4.132 1.44444444 KEKLPQVTR 240 5//11 21//56 4.771 3.38888889 KEKLPQVTR 240 5//11 19//56 4.2005 2.77777778 EGSPANWKR 238 //10 10//53 3.843 1.66666667 EGSPANWKR 238 //10 10//53 3.78 1.66666667 EGSPANWKR 238 //10 9//53 3.571 1.61111111 KEKLPQVTR 240 4//11 17//56 3.7945 2.22222222 EGSPANWKR 238 //10 9//53 2.35775 1.27777778 EAVREGSPANWKR 238 //10 9//59 2.68575 1.11111111 EGSPANWKR 238 //10 10//53 3.14325 1.66666667 KEKLPQVTR 240 //11 10//46 4.37175 1.5 EGSPANWKR 238 //10 12//63 4.831 1.88888889 EGSPANWKR 238 //10 8//53 2.2645 1.22222222 EGSPANWKR 238 //10 10//53 4.51625 1.61111111 EAVREGSPANWKR 238 //10 7//59 1.708 1 EGSPANWKR 238 //10 7//53 1.7365 1.16666667 EGSPANWKR 238 //10 12//53 4.368 1.88888889 KEKLPQVTR 240 2//11 12//56 2.0735 1.33333333 EGSPANWKR 238 //10 11//53 2.139 1.5 KEKLPQVTR 240 1//11 10//56 1.593 0.94444444 EGSPANWKR 238 //10 10//64 2.957 1.77777778 KEKLPQVTR 242 2//11 21//46 7.0335 3.38888889 EGSPANWKR 238 //11 7//47 2.302 1.3125 EGSPANWKR 238 //11 9//47 2.359 1.5625 KEKLPQVTR 242 1//11 17//46 5.98725 2.61111111 EGSPANWKR 238 //11 7//47 2.36 1.3125 EGSPANWKR 238 //11 9//47 2.7215 1.5625 EGSPANWKR 238 //11 9//46 2.16325 1.5625 EAVREGSPANWKR 238 //11 8//52 2.27025 1.16666667 EGSPANWKR 238 //11 7//46 1.6945 1 EGSPANWKR 238 //11 10//47 2.98975 1.625 EGSPANWKR 238 1//11 11//57 3.67825 1.6875 EAVREGSPANWKR 238 //11 8//52 2.19575 1.16666667 EGSPANWKR 238 //8 10//41 3.0525 1.625 EAVREGSPANWKR 238 //11 17//42 5.212 2.72222222 KEKLPQVTR 242 3//15 21//91 4.266 1.79166667 EAVREGSPANWKR 238 //11 7//52 1.568 0.94444444 EGSPANWKR 238 //11 9//56 3.482 1.5625 KEKLPQVTR 242 1//14 12//69 2.97525 1.27272727 EGSPANWKR 238 //11 8//46 2.1735 1.5 EGSPANWKR 238 //11 9//57 3.4625 1.5625 KEKLPQVTR 242 //11 11//46 3.7685 1.66666667 EGSPANWKR 238 //11 11//47 3.9505 1.875 EGSPANWKR 238 //11 9//47 1.95975 1.5625 KEKLPQVTR 242 //11 11//46 3.09225 1.5 KEKLPQVTR 242 1//11 11//56 1.11625 1.16666667 EGSPANWKR 238 //11 8//56 1.91375 1.3125 KEKLPQVTR 242 1//11 9//56 0.69975 0.72222222 EGSPANWKR 238 //11 9//56 3.1945 1.5625 EGSPANWKR 238 //11 8//56 2.7495 1.3125 EGSPANWKR 238 //11 6//46 1.19075 0.875 EAVREGSPANWKR 238 //11 13//42 3.234 1.44444444 EGSPANWKR 238 //11 6//46 1.1625 0.8125 EGSPANWKRK 238 1//8 7//47 2.62325 1.125 EGSPANWKR 238 //11 8//56 2.498 1.3125 EGSPANWKRK 238 //8 6//47 2.277 1.0625 EGSPANWKR 238 //11 7//57 1.7975 0.875 MHVKSEASLHPVLMSEAPWNTR 112 //11 34//178 13.52275 2.26086957 MHVKSEASLHPVLMSEAPWNTR 112 //11 32//178 11.814 1.95652174 MHVKSEASLHPVLMSEAPWNTR 112 //11 30//178 9.96425 1.76086957 MHVKSEASLHPVLMSEAPWNTR 112 //11 26//178 8.55475 1.45652174 AGYAGEDCPKVDFPTAIGMVVER 34 2//13 24//180 3.664 0.85714286 AGYAGEDCPKVDFPTAIGMVVER 34 //14 21//134 5.81675 1.35714286 AGYAGEDCPKVDFPTAIGMVVER 34 1//13 19//180 3.1835 0.73809524 MHVKSEASLHPVLMSEAPWNTR 112 //11 19//131 4.341 0.7826087 AGYAGEDCPKVDFPTAIGMVVER 34 2//13 18//133 3.49525 0.85714286 MHVKSEASLHPVLMSEAPWNTR 112 //11 20//178 4.7475 1.10869565 AGYAGEDCPKVDFPTAIGMVVER 34 //14 19//181 3.3125 0.73809524 MHVKSEASLHPVLMSEAPWNTR 112 //11 15//178 2.97575 0.67391304 ENMEAISPLKNGMVEDWDSFQAILDHTYKMHVK 89 //14 17//181 4.166 0.77272727 ENMEAISPLKNGMVEDWDSFQAILDHTYKMHVK 89 //14 10//181 3.63025 0.54545455 ENMEAISPLKNGMVEDWDSFQAILDHTYKMHVK 89 1//14 14//181 2.93225 0.56818182 KEKLPQVTR 242 //10 7//65 2.691 1.16666667 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 //16 21//121 8.90125 2.0625 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 //16 20//121 7.078 1.71875 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 //16 18//121 6.95275 1.90625 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 //16 20//121 7.3375 1.9375 AGYAGEDCPKVDFPTAIGMVVER 34 //7 22//232 6.847 1.03571429 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 //16 15//121 4.4775 1.1875 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 //16 17//121 5.03275 1.375 ELFQEMNIELVPPYMIASKEAVR 226 //10 5//57 0.90125 0.38888889 ELFQEMNIELVPPYMIASKEAVR 226 1//10 10//57 1.9685 1.33333333 ELFQEMNIELVPPYMIASKEAVR 226 //10 4//46 0.5695 0.44444444 ELFQEMNIELVPPYMIASKEAVR 226 //10 4//46 0.4295 0.44444444 ELFQEMNIELVPPYMIASKEAVR 226 //10 6//57 0.875 0.55555556 ELFQEMNIELVPPYMIASKEAVR 226 //10 6//57 0.52125 0.44444444 ELFQEMNIELVPPYMIASKEAVR 226 //10 7//57 0.9535 0.66666667 KEKLPQVTR 240 //12 28//188 10.45525 1.59090909 ELFQEMNIELVPPYMIASKEAVR 226 //10 6//57 0.7565 0.44444444 ELFQEMNIELVPPYMIASKEAVR 226 //10 4//57 0.58175 0.33333333 ELFQEMNIELVPPYMIASKEAVR 226 //10 5//57 0.4845 0.38888889 WVPVTDSKEKEK 57 1//9 9//42 3.07025 1.44444444 WVPVTDSKEKEK 57 //9 7//51 3.1275 1.33333333 WVPVTDSKEKEK 57 //9 8//51 2.532 1.22222222 WVPVTDSKEKEK 55 1//9 8//42 3.08975 1.38888889 TFGQKPVKFQLEDDGEFYMIGSEVGNYLR 16 //10 13//172 6.15825 0.69642857 YKAVSISTEPPTYLR 108 1//8 7//25 0.6805 1.08333333 EQKAKR 124 //15 27//92 11.12875 2.78571429 EQKAKR 124 //15 20//92 5.00675 1.82142857 GSLYKR 45 //8 8//30 1.446 1.5 GSLYKR 45 //8 7//30 1.2325 1.2 EQKAKR 124 1//9 36//202 9.407 1.79166667 EQKAKR 124 //9 13//202 2.672 0.54166667 LDMEIDGQKLR 199 //8 6//38 0.74125 0.78571429 LDMEIDGQKLR 199 //8 3//38 0.34225 0.21428571 KIRDQDR 364 //13 16//61 6.54475 1.95 LDMEIDGQKLR 199 //8 3//38 0.2965 0.21428571 LDMEIDGQKLR 199 1//8 6//46 0.51575 0.57142857 LDMEIDGQKLR 199 //8 3//38 0.3165 0.21428571 LDMEIDGQKLR 199 1//8 5//46 0.3485 0.35714286 LDMEIDGQKLR 199 //8 3//38 0.2135 0.21428571 LDMEIDGQKLR 199 1//8 5//46 0.59675 0.71428571 KIR 364 2//13 15//62 5.04075 1.95 LDMEIDGQKLR 199 1//8 4//46 0.2565 0.28571429 LDMEIDGQKLR 199 //8 3//46 0.26375 0.21428571 LDMEIDGQKLR 199 //8 4//38 0.277 0.28571429 LDMEIDGQKLR 199 1//8 4//46 0.30825 0.28571429 LTKAVATYHANTER 502 2//10 11//44 2.0095 1.25 LTKAVATYHANTER 502 2//10 10//36 2.1105 1.3125 SVTGKIQK 496 //16 19//107 3.95175 1.375 LTKAVATYHANTEREQK 502 1//10 7//44 0.69775 0.6875 KIPDPDSDDVSEVDAR 689 //5 2//23 0.2745 0.5 KDKR 546 //8 14//40 3.1925 2.71428571 HIIENAKQDVDDEYGVSQALAR 711 //19 9//129 1.4595 0.52941177 VIHVESGKILTGTDAPK 626 2//11 15//73 4.5445 2.04545455 VIHVESGKILTGTDAPK 626 2//11 13//73 4.31 1.36363636 VIHVESGKILTGTDAPK 626 //11 10//73 4.11075 1.22727273 KKIPDPDSDDVSEVDAR 689 //19 19//129 4.58025 1.41176471 KKIPDPDSDDVSEVDAR 689 //19 19//129 4.4875 1.35294118 KEKAQDR 1604 //7 7//32 1.57825 1.5 YKDSSSGR 1473 1//5 6//22 1.5645 1.4 YKDSSSGR 1473 1//5 6//22 1.566 1.4 YKDSSSGR 1473 1//7 5//24 0.68975 0.8 KIKER 1511 //8 8//41 2.4335 1.71428571 VSYKGSPAAR 835 1//8 8//41 2.75475 1.5625 IKLGR 1598 2//9 9//36 1.0405 1 NHKYR 1518 //8 12//40 4.474 2.21428571 IRNHKYR 1518 //8 6//47 1.3855 1 IRNHKYR 1518 //8 6//47 0.685 0.57142857 VSYKGSPAAR 835 //9 6//44 0.41975 0.92857143 KELPEYYELIR 1492 //5 3//21 0.209 0.625 KELPEYYELIR 1492 //5 2//21 0.185 0.5 KRDSDAGSSTPTTSTR 1414 //5 3//24 1.115 1 KRDSDAGSSTPTTSTR 1414 //5 3//24 0.8415 1 QKKSSR 1408 //17 19//104 5.29375 1.40625 GRPPAEKLSPNPPNLTK 1450 //5 3//18 0.35125 0.625 KICNHPYMFQHIEESFSEHLGFTGGIVQGLDLYR 1044 //16 11//99 5.26075 1.32142857 LTCEEEEEKMFGR 1365 //16 13//77 5.66225 1.39285714 AVATYHANTEREQKK 516 //8 7//31 1.3625 1.16666667 AVATYHANTEREQKK 516 //8 7//25 1.34225 1.16666667 EQKKENER 516 3//9 14//35 3.69325 2.28571429 EQKKENER 516 2//8 11//29 2.3275 1.66666667 EQKKENER 516 2//8 12//29 2.69025 1.75 AVATYHANTEREQKK 516 2//6 6//19 0.57825 1.5 ENERIEKER 524 //17 20//90 7.34375 1.96428571 AVATYHANTEREQKK 516 //7 4//25 0.4635 0.6 AVATYHANTEREQKK 516 //11 5//56 0.53725 0.38888889 AVATYHANTEREQKK 516 //11 5//56 0.5585 0.38888889 AVATYHANTEREQKK 516 //7 3//25 0.443 0.5 AVATYHANTEREQKK 516 //7 3//25 0.38525 0.5 AVATYHANTEREQKK 516 //11 4//56 0.652 0.33333333 AVATYHANTEREQKK 516 //7 3//25 0.36925 0.5 AVATYHANTEREQKK 516 //11 4//56 0.40175 0.33333333 AVATYHANTEREQKK 516 //11 5//56 0.659 0.38888889 AVATYHANTEREQKK 516 //11 3//56 0.3875 0.27777778 AVATYHANTEREQKK 516 //11 8//56 0.73775 0.55555556 AVATYHANTEREQKK 516 //11 3//56 0.415 0.16666667 ENERIEKER 524 //17 7//90 2.971 0.71428571 AVATYHANTEREQKK 516 //11 4//56 0.6375 0.33333333 AVATYHANTEREQKK 516 //11 3//56 0.46225 0.27777778 AVATYHANTEREQKK 516 //11 4//56 0.6245 0.33333333 GQPLPDHLQMAVQGKR 207 //12 9//50 2.03225 1.1 GQPLPDHLQMAVQGKR 207 //12 10//50 2.419 1.4 YNQMKGMGMR 94 //18 12//98 4.12775 0.9 YNQMKGMGMR 94 //18 13//98 4.085 0.93333333 YNQMKGMGMR 94 //18 15//97 4.338 1 GQPLPDHLQMAVQGKR 207 //12 10//63 1.56775 1 YNQMKGMGMR 94 //18 14//98 2.48525 0.6 IEKER 524 //16 34//108 13.42725 3.125 ENERIEKER 524 //8 11//29 3.83275 2.41666667 ENERIEKER 524 //9 11//41 4.0175 1.85714286 ENERIEKER 524 //9 12//41 3.85025 2.07142857 ENERIEKER 524 //9 11//41 3.7655 1.85714286 ENERIEKER 524 //9 12//41 3.6785 1.92857143 ENERIEKER 524 //9 10//34 3.179 1.64285714 ENERIEKER 524 //9 10//34 2.25 1.64285714 ENERIEKER 524 1//8 7//35 0.86525 0.75 QHKAAQVAKEK 572 4//18 23//91 4.8635 1.66666667 LCTVNSVEEKILAAAK 1213 //12 6//47 1.66 1 LCTVNSVEEKILAAAK 1213 //12 7//47 1.79525 1.05 VSYKGSPAAR 835 //18 22//92 8.82375 2 GMLLKTFNEPGSEYFIFLLSTR 1140 2//12 16//63 5.99375 2 GMLLKTFNEPGSEYFIFLLSTR 1140 1//12 14//63 4.60775 1.59090909 KELPEYYELIR 1492 //12 20//131 6.82575 1.14285714 GMLLKTFNEPGSEYFIFLLSTR 1140 //12 9//47 2.2205 1.15 VSYKGSPAAR 835 2//12 31//134 10.79275 1.90476191 VSYKGSPAAR 835 //12 24//134 9.44025 1.57142857 VSYKGSPAAR 835 //12 25//134 7.7425 1.5 VSYKGSPAAR 835 //12 26//134 5.3525 1.33333333 VSYKGSPAAR 835 //9 26//210 5.21075 1 KEKAQDR 1604 //7 12//36 4.14925 2.33333333 LKGGR 1610 2//7 15//34 3.981 2.75 LKGGR 1610 3//7 12//34 2.8815 2.08333333 VKIKLGR 1596 3//8 16//42 4.32325 2.78571429 VKIK 1596 //8 11//38 3.387 1.92857143 GQPLPDHLQMAVQGKR 207 //13 13//58 5.0275 1.81818182 GQPLPDHLQMAVQGKR 207 //13 14//58 4.2025 1.59090909 AQIMAYKMLAR 188 //12 12//50 2.8975 1.5 YNQMKGMGMR 94 //13 17//59 6.37625 2.3 LMEEDELPSWIIKDDAEVER 1349 1//15 9//73 2.0025 0.84615385 LMEEDELPSWIIKDDAEVER 1349 //15 10//73 2.16025 1 LMEEDELPSWIIKDDAEVER 1349 //15 9//73 0.79575 0.65384615 LTCEEEEEKMFGR 1365 //11 27//114 12.16 2.15789474 LMEEDELPSWIIKDDAEVER 1349 //15 7//73 0.567 0.34615385 LMEEDELPSWIIKDDAEVER 1349 //15 8//73 0.75875 0.69230769 LTCEEEEEKMFGR 1365 //11 29//114 10.1485 2.02631579 LMEEDELPSWIIKDDAEVER 1349 1//15 8//73 0.53175 0.57692308 LTCEEEEEKMFGR 1365 //11 27//114 11.1245 1.94736842 LMEEDELPSWIIKDDAEVER 1349 1//15 7//73 0.43925 0.34615385 LTCEEEEEKMFGR 1365 //11 23//114 10.80525 1.7631579 LTCEEEEEKMFGR 1365 //11 24//114 9.16175 1.97368421 LMEEDELPSWIIKDDAEVER 1349 //15 5//73 0.838 0.5 LMEEDELPSWIIKDDAEVER 1349 //15 7//73 0.95025 0.57692308 LTCEEEEEKMFGR 1365 //11 24//114 10.18775 1.68421053 LTCEEEEEKIFGR 1349 //11 24//114 9.29925 1.81578947 LMEEDELPSWIIKDDAEVER 1349 1//15 12//73 2.54125 1.07692308 LTCEEEEEKMFGR 1365 //11 23//114 9.14375 1.60526316 LTCEEEEEKMFGR 1365 //11 25//114 8.991 1.97368421 LMEEDELPSWIIKDDAEVER 1349 //15 5//73 0.8175 0.5 LMEEDELPSWIIKDDAEVER 1349 //15 6//73 0.3835 0.30769231 LTCEEEEEKMFGR 1365 //11 21//114 7.38625 1.44736842 LTCEEEEEKMFGR 1365 //11 22//114 8.54625 1.52631579 LTCEEEEEKMFGR 1365 //11 25//114 8.23775 1.55263158 LMEEDELPSWIIKDDAEVER 1349 //15 6//73 1.168 0.53846154 LTCEEEEEKMFGR 1365 //11 21//114 8.40175 1.55263158 LTCEEEEEKMFGR 1365 //11 24//114 8.0505 1.52631579 LTCEEEEEKMFGR 1365 //11 20//114 7.4285 1.28947368 LMEEDELPSWIIKDDAEVER 1349 2//15 8//73 0.7515 0.61538462 LTCEEEEEKMFGR 1365 //11 20//114 7.202 1.34210526 LMEEDELPSWIIKDDAEVER 1349 1//15 10//73 1.4285 0.76923077 LTCEEEEEKMFGR 1365 //11 20//114 6.115 1.21052632 LTCEEEEEKMFGR 1365 //11 21//114 7.0115 1.36842105 LTCEEEEEKMFGR 1365 //11 21//114 6.76875 1.34210526 LTCEEEEEKMFGR 1365 //11 19//114 6.72875 1.18421053 LMEEDELPSWIIKDDAEVER 1349 1//15 9//73 1.74375 0.73076923 LTCEEEEEKMFGR 1365 //11 20//114 6.23575 1.18421053 LTCEEEEEKMFGR 1365 //11 18//114 4.94475 0.97368421 LTCEEEEEKMFGR 1365 //11 20//114 5.89875 1.13157895 LTCEEEEEKMFGR 1365 1//11 18//114 5.42175 1.10526316 LMEEDELPSWIIKDDAEVER 1349 1//15 6//95 0.59375 0.42307692 LTCEEEEEKMFGR 1365 //11 19//114 4.016 1.13157895 LTCEEEEEKMFGR 1365 1//11 20//114 4.3045 1.07894737 LMEEDELPSWIIKDDAEVER 1349 //15 5//73 0.473 0.26923077 LTCEEEEEKMFGR 1365 //11 15//114 2.87925 0.71052632 LMEEDELPSWIIKDDAEVER 1349 //15 5//95 1.6965 0.5 VIQAGMFDQKSSSHER 1237 //16 5//102 0.647 0.32142857 VIQAGMFDQKSSSHER 1237 //17 14//123 4.3305 1.21875 KRDSDAGSSTPTTSTR 1414 //17 11//120 1.352 0.6 VIQAGMFDQKSSSHER 1237 //5 2//19 0.1835 0.2 VIQAGMFDQKSSSHER 1237 //12 13//47 2.4055 1.6 VIQAGMFDQKSSSHER 1237 //12 8//47 1.3245 0.65 VIQAGMFDQKSSSHER 1237 //12 11//58 2.024 1.25 VIQAGMFDQKSSSHERR 1237 //12 10//47 2.1925 1.1 VSYKGSPAAR 835 //17 13//120 2.64075 0.93333333 LKGGR 1610 1//9 10//34 1.8645 1.58333333 SVKVK 1594 1//8 11//40 3.04125 1.78571429 KRDSDAGSSTPTTSTR 1414 //8 5//26 1.26925 0.83333333 LTCEEEEEKMFGR 1365 //8 4//26 0.9955 0.75 HRKEVDYSDSLTEK 1375 //8 9//32 2.121 1.33333333 HRKEVDYSDSLTEK 1375 //8 8//32 1.93425 1.25 GFKYLR 1122 2//9 9//36 1.21325 1.58333333 KELPEYYELIR 1492 3//8 8//27 1.2235 1.25 LDGTTKAEDR 1131 2//8 9//30 1.52925 1.33333333 LDGTTKAEDR 1131 2//8 8//30 1.3205 1.25 LDGTTKAEDR 1131 //8 5//30 1.29225 0.83333333 GRPPAEKLSPNPPNLTK 1450 //8 3//26 0.8965 0.66666667 NHKYR 1518 1//8 7//29 1.56875 1.3 KKIPDPDSDDVSEVDAR 689 //11 13//73 4.0775 1.86363636 KIPDPDSDDVSEVDAR 689 1//11 11//58 2.38125 1.22727273 KIPDPDSDDVSEVDAR 689 1//11 6//58 0.6535 0.36363636 HIIENAKQDVDDEYGVSQALAR 711 //16 21//132 6.39275 1.73529412 HIIENAKQDVDDEYGVSQALAR 711 //17 18//98 6.80825 1.59375 HIIENAKQDVDDEYGVSQALAR 711 //16 22//101 5.38975 1.17647059 TIQTIALITYLMEHKR 800 //16 4//95 0.3905 0.21428571 KRDSDAGSSTPTTSTR 1414 //6 3//30 0.644 0.8 KRDSDAGSSTPTTSTR 1414 //6 3//30 0.601 0.8 KRDSDAGSSTPTTSTR 1414 //6 2//24 0.195 0.2 KRDSDAGSSTPTTSTR 1414 //7 3//19 0.56925 0.5 KEKAQDR 1602 //17 20//104 6.30525 1.65625 KRDSDAGSSTPTTSTR 1414 //12 14//47 3.3 2 GRPPAEKLSPNPPNLTK 1450 2//17 18//123 4.7725 1.6875 KRDSDAGSSTPTTSTR 1414 //8 6//35 1.54975 0.6875 KRDSDAGSSTPTTSTR 1414 //7 5//21 0.83175 0.7 KRDSDAGSSTPTTSTR 1414 //7 3//26 0.508 0.5 KRDSDAGSSTPTTSTR 1414 //9 3//39 0.3695 0.35714286 VIHVESGKILTGTDAPK 626 //17 14//123 4.8525 1.21875 KRDSDAGSSTPTTSTR 1414 //7 6//29 1.1155 1 KRDSDAGSSTPTTSTR 1414 //7 5//29 0.996 0.75 KRDSDAGSSTPTTSTR 1414 //5 3//19 0.307 0.5 KRDSDAGSSTPTTSTR 1414 //5 4//24 0.637 0.9 KRDSDAGSSTPTTSTR 1414 //5 3//24 0.31925 0.3 KRDSDAGSSTPTTSTR 1414 //6 3//30 0.18925 0.25 KRDSDAGSSTPTTSTR 1414 //5 6//19 0.98425 1.1 KRDSDAGSSTPTTSTR 1414 //12 24//64 9.283 3.18181818 KRDSDAGSSTPTTSTR 1414 //12 18//81 6.4705 2.18181818 KRDSDAGSSTPTTSTR 1414 1//12 18//64 7.209 2.27272727 LTCEEEEEKMFGR 1365 //12 10//47 2.06175 1.3 LTCEEEEEKMFGR 1365 //12 10//47 1.97375 1.2 LTCEEEEEKMFGR 1365 //7 3//21 0.496 0.5 LTCEEEEEKMFGR 1365 //9 2//39 0.2975 0.28571429 LTCEEEEEKMFGR 1365 1//7 5//26 0.49875 0.7 HRKEVDYSDSLTEK 1375 //15 18//95 7.64525 1.73076923 KRDSDAGSSTPTTSTR 1414 1//15 21//73 9.41875 2.5 KRDSDAGSSTPTTSTR 1414 //15 19//73 8.58125 2.54166667 KRDSDAGSSTPTTSTR 1414 //15 8//95 2.0595 1 KRDSDAGSSTPTTSTR 1414 //15 11//95 2.339 1.26923077 LTCEEEEEKMFGR 1365 //5 5//19 1.071 1 KDKR 548 //16 37//109 14.7895 3.15625 KIPDPDSDDVSEVDAR 689 1//6 4//15 0.729 0.875 KELPEYYELIR 1492 //5 5//22 0.987 1.3 KELPEYYELIR 1492 //5 4//22 0.941 1.2 KELPEYYELIR 1492 1//5 4//21 0.84025 0.9 VIHVESGKILTGTDAPK 626 1//12 19//80 7.34475 2.22727273 KELPEYYELIR 1492 5//12 16//47 2.696 1.95 KELPEYYELIR 1492 1//12 12//47 2.16525 1.45 KELPEYYELIR 1492 1//12 9//47 1.4095 0.9 LKGGR 1610 1//9 9//38 1.0355 1.41666667 KEKAQDR 1604 //6 3//28 0.2285 0.25 QQKIEQER 461 4//9 13//37 2.78275 2.07142857 QQKIEQER 461 3//9 11//37 2.1745 1.64285714 QQKIEQERK 461 1//9 10//36 2.009 1.42857143 ITEKLEK 455 1//10 10//43 1.77375 1.21428571 WKYMIVDEGHR 876 //11 8//50 1.1705 1.22222222 HIIENAKQDVDDEYGVSQALAR 711 1//17 22//138 6.009 1.85294118 HIIENAKQDVDDEYGVSQALAR 711 1//17 22//138 6.5105 1.79411765 KKIPDPDSDDVSEVDAR 688 //10 19//126 3.299 0.97619048 KKIPDPDSDDVSEVDAR 688 //10 19//172 3.10225 0.92857143 KKIPDPDSDDVSEVDAR 688 //10 16//126 1.51775 0.5952381 SRDKDDESK 1433 //9 8//43 1.2715 1.07142857 SRDKDDESK 1433 //9 4//43 0.66125 0.42857143 IRNHKYR 1518 //7 7//35 1.447 1.07142857 KKIPDPDSDDVSEVDAR 689 //8 9//25 0.9325 1.58333333 KIPDPDSDDVSEVDAR 689 //9 5//30 0.9495 0.92857143 KIPDPDSDDVSEVDAR 689 1//8 4//25 0.13875 0.33333333 KKIPDPDSDDVSEVDAR 688 //9 10//30 2.884 1.85714286 KKIPDPDSDDVSEVDAR 688 //9 9//30 1.91825 1.78571429 KKIPDPDSDDVSEVDAR 688 2//8 7//31 0.5835 1.16666667 KKIPDPDSDDVSEVDAR 688 //9 7//30 1.5605 1.21428571 KKIPDPDSDDVSEVDAR 688 2//8 7//31 0.609 1.16666667 LTCEEEEEKMFGR 1365 //4 3//19 0.373 0.625 LTCEEEEEKMFGR 1365 //4 2//19 0.3515 0.5 KRDSDAGSSTPTTSTR 1414 //4 2//19 0.383 0.5 KRDSDAGSSTPTTSTR 1414 //4 2//19 0.3925 0.5 HRKEVDYSDSLTEK 1375 //4 3//19 0.32275 0.625 HRKEVDYSDSLTEK 1375 //4 3//15 0.19175 0.375 HRKEVDYSDSLTEK 1375 //4 2//15 0.3235 0.5 LTCEEEEEKMFGR 1365 //12 10//49 2.215 1.15 LTCEEEEEKMFGR 1365 //12 10//49 2.27225 1.15 LDGTTKAEDR 1131 //15 19//74 6.6275 1.875 LTCEEEEEKMFGR 1365 //12 9//49 2.122 1.1 KRDSDAGSSTPTTSTR 1414 //12 13//49 4.938 1.85 KRDSDAGSSTPTTSTR 1414 //12 9//61 2.17775 1.25 KRDSDAGSSTPTTSTR 1414 //12 13//49 4.59225 1.85 KRDSDAGSSTPTTSTR 1414 //12 13//49 4.667 1.85 KRDSDAGSSTPTTSTR 1414 //15 6//93 0.70225 0.53846154 LDGTTKAEDR 1131 //6 3//28 0.407 0.25 LDGTTKAEDR 1131 //5 3//22 0.357 0.5 LDGTTKAEDR 1131 //5 3//22 0.267 0.3 LDGTTKAEDR 1131 //5 4//22 0.41775 0.6 HRKEVDYSDSLTEK 1375 //12 16//61 5.146 1.9 LDGTTKAEDR 1131 //16 14//105 3.2645 1.34615385 HRKEVDYSDSLTEK 1375 //12 16//49 6.18975 2.25 HRKEVDYSDSLTEK 1375 //12 17//49 6.337 2.3 KELPEYYELIR 1492 7//12 21//49 3.2445 2.85 LDGTTKAEDR 1131 //5 4//22 0.74575 0.9 KEKAQDR 1602 1//12 16//55 4.97225 2.16666667 YLRLDGTTKAEDR 1131 //5 4//21 0.376 0.75 QKKSSR 1407 //12 12//57 2.29875 1.61111111 LDGTTKAEDR 1131 1//12 20//52 4.1075 2.4 LDGTTKAEDR 1131 1//12 19//52 4.03025 2.1 YLRLDGTTKAEDR 1131 1//12 13//58 2.47925 1.35 LDGTTKAEDR 1131 2//12 16//52 3.39225 1.95 YLRLDGTTKAEDR 1131 //12 10//47 2.51025 1.1 LDGTTKAEDR 1131 1//12 36//133 14.64575 2.38095238 LDGTTKAEDR 1131 //12 31//133 10.53 1.83333333 LDGTTKAEDR 1131 //12 30//133 8.56825 1.78571429 LDGTTKAEDR 1131 //12 22//133 6.4315 1.14285714 LDGTTKAEDR 1131 //12 21//133 6.55925 1.19047619 LDGTTKAEDR 1131 3//9 8//43 1.282 1.35714286 IVDAVIKYK 1471 //5 3//21 0.32525 0.625 LKGGR 1610 //8 11//39 2.98675 1.92857143 LKGGR 1610 2//8 14//39 2.9695 2.28571429 LKGGR 1610 1//8 13//39 2.88525 1.85714286 LKGGR 1610 //8 7//39 1.12375 1.5 GRPPAEKLSPNPPNLTK 1450 //5 4//19 0.755 0.9 GRPPAEKLSPNPPNLTK 1450 //5 3//24 0.638 0.8 GRPPAEKLSPNPPNLTK 1450 //7 6//21 0.91375 0.8 GRPPAEKLSPNPPNLTK 1450 //9 3//39 0.2705 0.35714286 GRPPAEKLSPNPPNLTK 1450 //9 4//39 0.31625 0.42857143 GRPPAEKLSPNPPNLTK 1450 1//7 5//26 0.59725 0.8 GRPPAEKLSPNPPNLTK 1450 //7 5//21 0.79575 0.7 GRPPAEKLSPNPPNLTK 1450 1//7 5//26 0.65775 0.8 GRPPAEKLSPNPPNLTK 1450 1//7 4//26 0.5845 0.7 GRPPAEKLSPNPPNLTK 1450 //7 6//21 0.97775 1 GRPPAEKLSPNPPNLTK 1450 1//9 9//39 0.539 1.14285714 GRPPAEKLSPNPPNLTK 1450 //7 2//26 0.21425 0.2 GRPPAEKLSPNPPNLTK 1450 //9 4//39 0.382 0.42857143 GRPPAEKLSPNPPNLTK 1450 1//7 4//26 0.6715 0.7 GRPPAEKLSPNPPNLTK 1450 //7 3//26 0.556 0.5 GRPPAEKLSPNPPNLTK 1450 //7 2//26 0.6155 0.4 GRPPAEKLSPNPPNLTK 1450 //7 3//26 0.46 0.5 GRPPAEKLSPNPPNLTK 1450 //7 4//26 0.256 0.6 GRPPAEKLSPNPPNLTK 1450 //7 2//26 0.1985 0.2 GRPPAEKLSPNPPNLTK 1450 //5 4//24 0.92 1.2 LKGGR 1610 //18 25//134 5.8115 1.78125 GRPPAEKLSPNPPNLTK 1450 //7 5//28 1.22275 0.83333333 GRPPAEKLSPNPPNLTK 1450 1//7 9//35 2.135 1.91666667 GRPPAEKLSPNPPNLTK 1450 1//7 8//35 1.97575 1.83333333 GRPPAEKLSPNPPNLTK 1450 1//5 4//23 0.384 1.125 HRKEVDYSDSLTEK 1375 //5 4//24 1.36975 0.9 HRKEVDYSDSLTEK 1375 //5 3//19 0.68975 0.5 HRKEVDYSDSLTEK 1375 //5 4//24 1.319 0.9 KELPEYYELIR 1492 //16 20//102 2.7295 2.07692308 KELPEYYELIR 1492 //16 14//79 1.326 1.15384615 HRKEVDYSDSLTEK 1375 //5 4//24 0.79775 0.9 KEVDYSDSLTEK 1375 //5 2//22 0.2215 0.2 HRKEVDYSDSLTEK 1375 //17 21//124 7.28475 1.78125 HRKEVDYSDSLTEK 1375 1//17 17//124 5.79725 1.40625 HRKEVDYSDSLTEK 1375 //17 17//124 5.377 1.21875 KRDSDAGSSTPTTSTR 1414 //13 13//86 3.91 1.125 HRKEVDYSDSLTEK 1375 //7 4//26 0.52925 0.6 HRKEVDYSDSLTEK 1375 //9 5//39 0.3755 0.64285714 NHKYR 1518 //16 23//86 5.62625 2.07692308 HRKEVDYSDSLTEK 1375 //12 14//58 3.17225 1.65 GRPPAEKLSPNPPNLTK 1450 //16 5//102 0.41075 0.25 SVKVK 1594 //16 23//86 6.85325 2.26923077 VSYKGSPAAR 835 //5 4//22 0.9985 1.2 AKPVVSDDDSEEEQEEDRSGSGSEED 1623 //5 3//19 0.473 0.8 AKPVVSDDDSEEEQEEDRSGSGSEED 1623 //5 3//19 0.4655 0.8 VIHVESGKILTGTDAPK 626 //5 3//19 0.31375 0.3 LKGGR 1610 4//11 18//78 5.18725 2.55 LKGGR 1610 4//11 17//78 4.707 2.4 KEKAQDR 1604 1//9 13//37 3.7715 2.5 IKLGR 1598 2//9 11//38 1.83 2.08333333 IKLGR 1598 2//9 11//34 1.2835 1.41666667 KEKAQDR 1604 //5 5//22 1.49125 1 VKIKLGR 1598 1//8 10//42 2.77125 1.85714286 IKLGR 1598 1//8 12//40 3.25125 1.85714286 IKLGR 1598 //8 7//40 2.51775 1.5 IKLGR 1598 //8 10//35 3.11625 1.71428571 IKLGR 1598 3//8 16//40 2.9675 2.35714286 KEKAQDR 1602 //5 6//22 1.893 1.4 KIVDAVIKYK 1471 //4 4//17 1.0115 1.125 IVDAVIKYK 1471 //4 3//17 0.545 1 IVDAVIKYK 1471 1//7 4//23 0.3975 0.6 IVDAVIKYK 1471 1//5 5//22 0.908 1.3 HIIENAKQDVDDEYGVSQALAR 711 //13 8//75 1.405 0.77272727 HIIENAKQDVDDEYGVSQALAR 711 //13 6//75 0.53925 0.45454546 HIIENAKQDVDDEYGVSQALAR 711 //13 7//75 1.094 0.5 HIIENAKQDVDDEYGVSQALAR 711 //11 15//73 4.4935 1.95454546 HIIENAKQDVDDEYGVSQALAR 711 2//11 17//58 6.2195 1.95454546 HIIENAKQDVDDEYGVSQALAR 711 1//11 16//58 5.72875 1.81818182 WKYMIVDEGHR 876 //10 32//172 10.30925 1.97619048 HIIENAKQDVDDEYGVSQALAR 711 //11 10//73 2.4465 0.95454546 WKYMIVDEGHR 876 //10 29//172 9.31625 1.85714286 HIIENAKQDVDDEYGVSQALAR 711 1//11 6//73 1.52225 0.5 HIIENAKQDVDDEYGVSQALAR 711 //16 11//122 4.419 0.9375 IEKER 524 1//10 10//44 2.65075 1.5 IEKER 524 1//10 9//46 2.032 1.35714286 KLIDQKK 545 1//6 7//26 2.20675 1.8 KENERIEK 517 1//8 11//29 2.66075 1.75 KRDSDAGSSTPTTSTR 1414 //8 8//36 1.2985 0.9375 VSYKGSPAAR 835 //16 17//80 5.26625 1.76923077 VSYKGSPAAR 835 2//8 8//41 1.33525 1.375 KELPEYYELIR 1492 //10 8//38 0.517 1 KELPEYYELIR 1492 //10 5//47 0.11425 0.3125 KRDSDAGSSTPTTSTR 1414 //10 6//45 0.3225 0.375 EEARNPKR 1332 1//7 10//33 2.8575 1.91666667 EEARNPKR 1332 //8 10//30 2.55775 1.41666667 QKKSSR 1407 //17 25//130 8.367 2.3125 QKKSSR 1407 //17 18//104 6.277 1.5 QKKSSR 1407 //17 14//104 5.0665 1.125 QKKSSR 1407 //6 6//27 1.296 1.1 VMATIEKVR 27 //9 4//35 0.99175 0.64285714 IFKWVPVVDPQEEER 47 //6 3//16 0.1715 0.625 AKDDIKK 15 6//11 25//49 8.067 4.6875 VMATIEKVR 27 //7 6//34 1.495 1.21428571 AKDDIKK 15 1//11 15//49 4.58325 2.5625 AKDDIKK 15 1//11 14//49 3.993 2.3125 IFKWVPVVDPQEEER 47 2//7 7//36 0.72525 1.28571429 IFKWVPVVDPQEEER 47 //7 6//29 0.62075 1.21428571 IFKWVPVVDPQEEER 47 //7 5//36 0.6425 1.14285714 IFKWVPVVDPQEEER 47 1//11 12//42 2.6865 1.66666667 KWVTVGDTSLR 34 1//5 5//21 1.11475 1.625 KWVTVGDTSLR 34 //5 5//21 1.04625 1.625 AKDDIKR 15 1//7 9//24 1.38775 1.6 IYKWVPVTEPK 47 //7 3//32 0.11775 0.21428571 AKDDIKR 15 1//13 17//62 3.09025 1.85 IYKWVPVTEPK 47 //7 4//39 0.39875 0.64285714 IYKWVPVTEPK 47 //7 5//32 0.32225 0.71428571 IYKWVPVTEPK 47 //7 3//32 0.16225 0.21428571 AKDDIKR 15 7//11 28//49 10.68525 5.4375 AKDDIKR 15 6//11 27//49 9.8605 5.1875 AKDDIKR 15 6//11 26//49 9.619 4.9375 VMAAIEKVR 27 //7 6//34 2.338 1.42857143 VMAAIEKVR 27 //7 6//41 3.0965 1.42857143 AKDDIKR 15 4//11 25//49 6.7475 4.6875 AKDDIKR 15 4//11 22//49 7.199 3.4375 VMAAIEKVR 27 //7 6//34 1.6215 1.21428571 VMAAIEKVR 27 //7 5//41 2.6885 1.14285714 VMAAIEKVR 27 //7 5//41 2.6215 1.14285714 VMAAIEKVR 27 //7 5//34 1.6875 1.14285714 VMAAIEKVR 27 //7 4//34 0.38775 0.64285714 AKDDIKR 15 //11 9//59 1.92825 1.125 VMAAIEKVR 27 //7 5//41 0.258 0.5 KWVTVGDTSLR 34 //7 4//33 0.343 0.85714286 AKDDIKR 15 //6 6//26 1.633 1.6 IYKWVPVTEPK 47 3//12 23//61 8.994 3.04545455 IYKWVPVTEPK 47 2//12 16//61 6.72225 1.95454546 IYKWVPVTEPK 47 2//12 20//61 6.50275 2.22727273 IYKWVPVTEPK 47 //12 14//61 5.55275 1.90909091 IYKWVPVTEPK 47 1//12 14//61 5.509 1.63636364 KWVTVGDTSLR 34 2//10 9//38 1.01825 1.0625 KWVTVGDTSLR 34 3//8 8//29 0.8775 1.16666667 WVPVTEPKVDDKNK 55 //12 17//59 5.72325 2.27272727 WVPVTEPKVDDKNK 55 //12 16//73 5.3775 1.86363636 VMAAIEKVR 27 //9 6//35 0.907 0.78571429 VMAAIEKVR 27 //10 9//42 0.96125 1.1875 VDDKNKNK 59 //12 13//56 6.34775 2.05555556 VMAAIEKVRK 27 //10 6//48 0.465 0.5 VMAAIEKVR 27 //8 4//29 0.295 0.66666667 KWVTVGDTSLR 34 5//11 20//44 4.02675 3 KWVTVGDTSLR 34 4//11 17//44 3.9985 2.66666667 VMAAIEKVR 27 //12 14//65 4.7145 1.77272727 VMAAIEKVR 27 //7 3//24 0.1175 0.3 VMAAIEKVR 27 //6 3//17 0.0965 0.375 IYKWVPVTEPK 47 6//11 21//43 6.3445 3.11111111 VMAAIEKVR 27 //13 13//62 4.86425 1.85 VMAAIEKVR 27 1//13 13//62 3.10625 1.55 IYKWVPVTEPK 47 1//11 12//43 2.122 1.61111111 VMAAIEKVR 27 //7 10//32 1.79425 2.41666667 KWEKK 30 4//11 22//49 9.174 3.875 VMAAIEKVR 27 //6 5//27 1.467 1.6 KWEK 30 5//11 22//48 7.96 4 VMAAIEKVR 27 1//5 4//21 1.3085 1.125 VMAAIEKVR 27 //5 4//21 1.322 1.5 VMAAIEKVR 27 //5 4//21 1.0035 1.5 KWEK 30 5//11 17//48 5.83075 2.875 VMAAIEKVR 27 //6 5//27 0.7625 1.6 IKIIAPPER 329 //17 23//144 6.01925 1.36363636 SIIATIDDVLSARPGALPEDANPGPQTESSKFPFGIQQAK 1889 //15 8//94 2.2825 0.69230769 FDKLPIKIVK 1777 //10 16//51 6.95725 2.55555556 FDKLPIKIVK 1777 //10 15//62 6.92675 2.33333333 KNNLFVVDR 1781 2//12 12//56 2.1855 1.44444444 FDKLPIKIVK 1777 //10 14//51 6.3555 2.27777778 FDKLPIKIVK 1777 //10 13//62 5.854 1.88888889 LPIKIVK 1777 //10 7//52 4.024 1.33333333 FDKLPIKIVK 1777 //10 11//51 4.01625 1.5 FDKLPIKIVK 1777 //10 8//62 2.8175 1.05555556 ITKVYELGNEPER 1046 2//7 11//30 3.35 2.25 KLWVDRYLTFMEER 1057 //15 20//92 6.54325 1.96153846 ITKVYELGNEPER 1046 1//7 8//30 3.31175 1.83333333 ITKVYELGNEPER 1046 //7 8//30 2.23725 1.83333333 ITKVYELGNEPER 1046 //14 29//106 9.3335 2.25 ITKVYELGNEPERK 1046 //8 6//41 2.551 1.21428571 ITKVYELGNEPER 1046 //8 8//34 2.04075 1.57142857 ITKVYELGNEPER 1046 //14 15//106 2.965 0.94444444 MPYEPNKDPFGGMR 1266 //15 24//168 4.373 1.2 MPYEPNKDPFGGMR 1266 //15 15//126 2.1925 0.575 SSTISVHDPFSDVSDSSFPKR 1237 1//14 8//75 1.94775 0.66666667 SSTISVHDPFSDVSDSSFPKR 1237 //14 5//75 1.90625 0.54166667 QASKFDKLPIK 1773 //14 20//67 9.135 2.63636364 FPFGIQQAKSHR 1898 //12 11//66 2.44575 1.15 FPFGIQQAKSHR 1898 //12 11//52 2.68075 1.15 FPFGIQQAKSHR 1898 //12 14//64 4.53175 1.65 PGALPEDANPGPQTESSKFPFGIQQAKSHR 1898 //12 9//63 4.0465 1.3 FPFGIQQAKSHR 1898 //12 13//64 4.1325 1.5 FPFGIQQAKSHR 1898 //12 15//51 5.1515 1.8 PGALPEDANPGPQTESSKFPFGIQQAKSHR 1898 //12 10//63 2.5145 1 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //7 5//35 1.5665 1.33333333 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //7 5//35 1.467 1.33333333 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //7 3//35 0.1845 0.25 HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //7 1//35 0.07075 0.08333333 HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1//7 6//35 1.4795 1.41666667 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //7 5//35 1.6195 1.33333333 KNPVCR 2110 //14 23//232 3.41425 0.52777778 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1//14 7//75 1.055 0.58333333 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1//14 4//75 0.73375 0.25 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //14 6//75 1.0915 0.45833333 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1//14 6//75 0.937 0.33333333 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //14 4//75 0.51625 0.25 HMDGMYGPPAKR 1372 //14 35//227 11.11125 1.22222222 HMDGMYGPPAKR 1372 //14 37//227 10.6185 1.15277778 HMDGMYGPPAKR 1372 //14 35//227 10.97125 1.13888889 HMDGMYGPPAKR 1372 //14 41//227 10.3495 1.25 HMDGMYGPPAKR 1372 //14 34//227 10.1265 1.20833333 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 2//14 9//75 1.44675 0.66666667 HMDGMYGPPAKR 1372 //14 32//220 7.6535 0.92857143 HMDGMYGPPAKR 1372 //14 25//227 8.02075 0.83333333 HMDGMYGPPAKR 1372 //14 30//227 7.797 0.875 HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //14 3//75 0.431 0.20833333 HMDGMYGPPAKR 1372 //14 24//227 6.167 0.72222222 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //14 4//75 0.5575 0.25 HMDGMYGPPAKR 1372 //14 22//220 5.75375 0.62857143 HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1//14 5//75 0.73775 0.29166667 HMDGMYGPPAKR 1372 //7 8//32 3.16675 1.75 HMDGMYGPPAKR 1372 //7 8//32 3.306 1.83333333 HMDGMYGPPAKR 1372 //7 8//32 3.2715 1.83333333 KNPVCR 2110 3//14 23//70 5.6275 2.72727273 KNPVCR 2110 1//14 13//70 3.862 1.31818182 KNPVCR 2110 //14 12//70 2.5185 1.09090909 KNPVCR 2110 //14 10//70 1.78575 1.04545455 KNPVCR 2110 //14 10//70 1.89775 0.95454546 GEEPPPEVFSTGDTKKQPK 1161 //9 23//220 9.1705 1.28846154 RAPQTYEKEEDEDK 1984 //9 29//101 13.2855 2.55882353 GVACSKDEWWWDCLEVLR 1996 //15 7//72 1.1135 0.69230769 GVACSKDEWWWDCLEVLR 1996 1//15 6//72 0.968 0.53846154 RAPQTYEKEEDEDK 1984 1//9 23//137 10.09025 1.88235294 RAPQTYEKEEDEDK 1984 //9 24//137 10.091 1.91176471 APQTYEKEEDEDK 1984 //9 20//101 7.5035 1.55882353 RAPQTYEKEEDEDK 1984 1//9 24//101 9.5735 1.88235294 APQTYEKEEDEDK 1984 //9 18//101 5.96175 1.47058824 RAPQTYEKEEDEDK 1984 //9 17//137 6.81125 1.32352941 GVACSKDEWWWDCLEVLR 1996 2//15 10//72 4.43 1.07692308 RAPQTYEKEEDEDK 1984 //9 18//101 5.3495 1.41176471 RAPQTYEKEEDEDK 1984 //9 11//137 4.78725 1 GVACSKDEWWWDCLEVLR 1996 1//15 11//72 4.21925 1.26923077 GVACSKDEWWWDCLEVLR 1996 //15 7//72 2.8485 0.76923077 APQTYEKEEDEDK 1984 //9 12//101 2.85475 0.70588235 SHRNIKLLEDEPR 1904 //10 13//59 5.926 2.22222222 QEKFYATLVR 2097 1//12 17//53 4.90275 2.05 QEKFYATLVR 2097 1//12 14//53 4.55525 1.7 QEKFYATLVR 2097 //12 12//53 4.1225 1.55 QEKFYATLVR 2097 1//12 12//53 2.64575 1.45 MPYEPNKDPFGGMR 1266 //7 5//29 1.81925 1.08333333 KAQEAAAAVMQAAANSAQSR 928 //7 8//28 2.5495 1.83333333 CLIDIFGILMEYEVGDPSQKALDHNAAR 1696 //8 3//31 0.3825 0.66666667 SRDETPLCTIAHWQDSLAKR 1930 //15 25//148 8.279 2.05263158 EITFPPGSVEASQPVLKQR 1608 //14 13//158 1.63025 0.52631579 EITFPPGSVEASQPVLKQR 1608 //14 15//158 2.14525 0.57894737 SRDETPLCTIAHWQDSLAKR 1930 //15 20//148 4.38525 1.52631579 SRDETPLCTIAHWQDSLAKR 1930 //15 23//148 4.895 1.7631579 SRDETPLCTIAHWQDSLAKR 1930 //15 20//148 3.3225 1.23684211 SRDETPLCTIAHWQDSLAKR 1930 //15 21//148 3.8915 1.36842105 MPYEPNKDPFGGMR 1266 1//7 8//29 3.00425 1.75 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //16 7//103 0.91775 0.42857143 RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 //16 6//103 1.3135 0.39285714 MPYEPNKDPFGGMR 1266 //14 10//60 1.85 0.83333333 MPYEPNKDPFGGMR 1266 //14 12//60 2.284 1.04166667 HMDGMYGPPAKR 1372 //16 13//78 4.08175 1.19230769 KAQEAAAAVMQAAANSAQSR 928 //16 7//78 0.86925 0.39285714 KAQEAAAAVMQAAANSAQSR 928 //16 8//78 0.904 0.42857143 INKKTGQPEELVSCSDCGR 285 //13 32//125 10.06475 2.325 SGHPSCLQFTPVMMAAVKTYR 318 1//16 19//127 6.04675 1.46875 INKKTGQPEELVSCSDCGR 285 //13 31//168 12.94625 2.325 KTGQPEELVSCSDCGR 285 2//13 33//168 10.858 2.125 SGHPSCLQFTPVMMAAVKTYR 318 1//16 22//97 7.1675 1.8125 SGHPSCLQFTPVMMAAVKTYR 318 1//16 25//97 7.69025 2.0625 KTGQPEELVSCSDCGR 285 1//13 30//168 7.787 1.775 KTGQPEELVSCSDCGR 285 //13 24//125 7.02975 1.65 SGHPSCLQFTPVMMAAVKTYR 318 1//16 16//127 4.688 1.3125 SGHPSCLQFTPVMMAAVKTYR 318 //16 18//97 6.3055 1.5 SGHPSCLQFTPVMMAAVKTYR 318 //16 16//127 4.30075 1.15625 SGHPSCLQFTPVMMAAVKTYR 318 2//16 20//127 5.14575 1.5 KTGQPEELVSCSDCGR 285 //13 26//168 8.05375 1.55 SGHPSCLQFTPVMMAAVKTYR 318 //16 17//97 5.65175 1.5 SGHPSCLQFTPVMMAAVKTYR 318 //16 14//127 2.15475 0.625 SGHPSCLQFTPVMMAAVKTYR 318 1//16 17//97 5.046 1.3125 KTGQPEELVSCSDCGR 285 //13 24//168 5.38575 1.2 KTGQPEELVSCSDCGR 285 //13 20//168 5.16675 1.05 KTGQPEELVSCSDCGR 285 //13 18//168 5.02075 0.975 KTGQPEELVSCSDCGR 285 //13 17//125 3.59375 0.825 SGHPSCLQFTPVMMAAVKTYR 318 //16 10//127 1.2225 0.375 KTGQPEELVSCSDCGR 285 //13 17//125 3.031 0.875 SGHPSCLQFTPVMMAAVKTYR 318 //16 13//97 2.658 0.71875 TDPLEKR 130 //15 20//95 4.78075 1.6 AHPPEDPRLSFPSIKPDTDQTLK 99 1//9 9//37 1.146 1.21428571 TDPLEKR 130 //17 14//124 3.118 1.06666667 TDPLEKR 130 //17 16//124 3.08 1.13333333 TDPLEKR 130 //17 18//89 2.87875 1.64285714 TDPLEKR 130 //17 14//95 2.114 1.16666667 SKGKGVGSAR 188 2//9 13//35 3.64175 2.21428571 TDPLEKR 130 1//8 9//37 2.0335 1.4375 TDPLEKR 130 1//8 11//37 1.9515 1.6875 KGPDGLALPNNYCDFCLGDSK 261 1//9 5//30 0.35325 0.35714286 KTGQPEELVSCSDCGR 285 1//9 8//30 1.09975 1.28571429 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 2//9 7//37 0.84425 1.14285714 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //9 5//37 0.672 0.92857143 KTGQPEELVSCSDCGR 285 //8 6//32 1.797 1.25 KTGQPEELVSCSDCGR 285 //8 6//32 1.799 1.25 GKGVGSAR 188 //12 27//117 8.9305 1.97222222 KTGQPEELVSCSDCGR 285 //12 6//45 0.63625 0.7 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //8 6//40 2.083 1.25 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //8 5//40 0.94775 0.625 GKGVGSAR 188 //5 31//197 9.20375 1.39393939 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //8 4//40 0.9095 0.5625 GKGVGSAR 188 2//13 24//174 5.578 1.225 KKLDASILEDR 196 //8 10//38 3.08375 1.625 SKGKGVGSAR 188 //11 13//62 3.2375 1.5 KKLDASILEDR 195 4//8 13//46 2.03575 1.5625 KKLDASILEDR 195 //8 10//38 3.243 1.625 KKLDASILEDR 196 //12 19//69 5.97725 2.5 KKLDASILEDR 196 1//12 15//69 5.55825 1.81818182 KKLDASILEDR 195 //12 15//67 6.17725 2.04545455 LSFPSIKPDTDQTLKK 107 3//9 11//30 1.96825 1.71428571 LSFPSIKPDTDQTLKK 107 2//9 11//30 1.98775 1.57142857 LSFPSIKPDTDQTLKK 107 2//9 10//30 1.69275 1.5 PDTDQTLKKEGLISQDGSSLEALLR 107 //17 15//134 7.079 1.44117647 PDTDQTLKKEGLISQDGSSLEALLR 107 //17 18//134 5.803 1.41176471 KEGLISQDGSSLEALLR 108 1//10 19//200 4.69975 0.83333333 LSFPSIKPDTDQTLK 99 //8 22//144 7.61475 1.22916667 LSFPSIKPDTDQTLK 99 //10 27//200 7.89375 1.41666667 AHPPEDPRLSFPSIKPDTDQTLK 99 //17 17//134 7.14925 1.58823529 LSFPSIKPDTDQTLK 99 //8 20//144 6.9635 1.16666667 LSFPSIKPDTDQTLK 99 1//8 23//144 6.86875 1.22916667 KGPDGLALPNNYCDFCLGDSKINK 281 1//16 21//127 7.2855 1.71875 KGPDGLALPNNYCDFCLGDSKINK 281 //16 16//127 6.17875 1.34375 GPDGLALPNNYCDFCLGDSKINK 281 //16 21//97 6.0635 1.59375 KGPDGLALPNNYCDFCLGDSKINK 281 //16 16//127 3.84175 1.125 KGPDGLALPNNYCDFCLGDSKINK 281 //16 13//97 2.02775 0.625 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //9 5//38 1.0915 0.85714286 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 1//9 7//38 1.26775 1.07142857 SEEQKSK 258 //5 38//197 15.83375 1.71212121 SEEQKSKK 258 //5 43//197 14.157 1.87878788 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //9 4//38 0.9625 0.57142857 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //10 8//195 1.6535 0.375 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //10 8//195 1.04975 0.20833333 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //16 9//171 1.5795 0.33333333 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 //16 11//127 2.3405 0.5625 SGHPSCLQFTPVMMAAVKTYR 318 //9 7//31 0.468 1.14285714 SGHPSCLQFTPVMMAAVKTYR 318 //9 6//38 0.54225 0.71428571 SGHPSCLQFTPVMMAAVKTYR 318 //9 3//38 0.2955 0.35714286 KGPDGLALPNNYCDFCLGDSK 261 1//9 6//31 0.7735 1 KGPDGLALPNNYCDFCLGDSK 261 1//9 6//31 0.7995 1 KGPDGLALPNNYCDFCLGDSK 261 //9 5//31 0.737 0.85714286 KGPDGLALPNNYCDFCLGDSK 261 1//9 6//31 0.81425 0.92857143 KGPDGLALPNNYCDFCLGDSK 261 1//9 7//31 0.824 1 KGPDGLALPNNYCDFCLGDSK 261 //9 5//31 0.8155 0.85714286 SEEQKSK 258 //16 24//135 9.534 1.71428571 KGPDGLALPNNYCDFCLGDSK 261 //9 3//31 0.51175 0.35714286 SEEQKSK 258 //16 16//135 6.66675 1.11904762 KGPDGLALPNNYCDFCLGDSK 261 //9 4//31 0.169 0.42857143 SEEQKSK 258 //16 14//135 4.44975 0.95238095 KGPDGLALPNNYCDFCLGDSK 261 //9 4//31 0.23 0.57142857 ILEPDDFLDDLDDEDYEEDTPKRR 178 //13 14//168 5.68325 1.07142857 ILEPDDFLDDLDDEDYEEDTPKR 178 //13 16//168 4.497 0.88095238 ILEPDDFLDDLDDEDYEEDTPKRR 178 //13 7//168 1.32525 0.28571429 ILEPDDFLDDLDDEDYEEDTPKRR 178 //8 6//40 1.77 1.25 ILEPDDFLDDLDDEDYEEDTPKRR 178 //8 4//32 0.2385 0.375 ILEPDDFLDDLDDEDYEEDTPKRR 178 //12 6//55 1.40825 0.65 ILEPDDFLDDLDDEDYEEDTPKRR 178 //8 3//32 0.273 0.3125 ILEPDDFLDDLDDEDYEEDTPKRR 178 //8 6//40 1.714 1.25 GKGVGSAR 188 //14 19//143 7.70475 1.11363636 ILEPDDFLDDLDDEDYEEDTPKR 178 //8 4//32 0.32725 0.375 ILEPDDFLDDLDDEDYEEDTPKRR 178 //4 3//19 0.496 0.625 SKGKGVGSAR 186 //12 29//198 10.8895 1.65217391 SKGKGVGSAR 186 //12 21//198 4.758 1.04347826 ILEPDDFLDDLDDEDYEEDTPKRR 178 //12 10//74 4.712 1.45454546 ILEPDDFLDDLDDEDYEEDTPKRR 178 //12 10//74 4.897 1.5 KKLDASILEDR 195 //12 16//195 4.85975 0.76086957 ILEPDDFLDDLDDEDYEEDTPKR 178 //7 4//19 0.154 0.4 ILEPDDFLDDLDDEDYEEDTPKR 178 //7 4//24 0.51925 0.6 ILEPDDFLDDLDDEDYEEDTPKR 178 //7 4//24 0.129 0.4 ILEPDDFLDDLDDEDYEEDTPKR 178 //7 4//24 0.434 0.6 ILEPDDFLDDLDDEDYEEDTPKRR 178 //8 3//30 0.2115 0.41666667 ILEPDDFLDDLDDEDYEEDTPKRR 178 //8 3//30 0.16625 0.41666667 ILEPDDFLDDLDDEDYEEDTPKRR 178 //17 11//113 2.9315 1.03333333 ILEPDDFLDDLDDEDYEEDTPKRR 178 //17 14//113 2.84725 1.26666667 ILEPDDFLDDLDDEDYEEDTPKR 178 //9 2//31 0.1035 0.14285714 KEGLISQDGSSLEALLR 108 //17 21//86 4.39675 1.8 KEGLISQDGSSLEALLR 108 1//17 20//86 3.8395 1.56666667 KEGLISQDGSSLEALLR 108 //17 21//86 3.93625 1.8 KEGLISQDGSSLEALLR 108 2//17 22//86 3.898 1.66666667 KEGLISQDGSSLEALLR 108 1//17 22//86 3.353 1.5 KEGLISQDGSSLEALLR 108 //17 16//86 3.2245 1.23333333 KEGLISQDGSSLEALLR 108 1//17 23//86 4.18275 1.9 KEGLISQDGSSLEALLR 108 1//17 19//86 2.8725 1.26666667 KEGLISQDGSSLEALLR 108 1//17 20//86 3.02125 1.36666667 KEGLISQDGSSLEALLR 108 //17 8//86 0.74175 0.43333333 AHPPEDPRLSFPSIKPDTDQTLK 99 3//17 24//134 8.91925 2.14705882 KEGLISQDGSSLEALLR 108 //17 5//86 0.471 0.23333333 KEGLISQDGSSLEALLR 108 //17 5//86 0.5505 0.23333333 AHPPEDPRLSFPSIKPDTDQTLK 99 //17 27//103 9.229 2.32352941 AHPPEDPRLSFPSIKPDTDQTLK 99 2//17 26//134 7.86675 2.17647059 KEGLISQDGSSLEALLR 108 //15 12//122 1.3435 0.83333333 LSFPSIKPDTDQTLK 99 1//17 18//104 7.9065 1.67647059 KEGLISQDGSSLEALLR 108 //17 18//113 1.96225 1.3 KEGLISQDGSSLEALLR 108 //17 15//86 1.88025 1.1 AHPPEDPRLSFPSIKPDTDQTLK 99 3//17 23//134 5.68475 1.70588235 AHPPEDPRLSFPSIKPDTDQTLK 99 1//17 20//134 6.971 1.73529412 AHPPEDPRLSFPSIKPDTDQTLK 99 1//17 22//134 6.61025 1.67647059 KEGLISQDGSSLEALLR 108 //17 4//86 0.31025 0.13333333 LSFPSIKPDTDQTLK 99 //17 15//104 5.98475 1.38235294 AHPPEDPRLSFPSIKPDTDQTLK 99 1//17 20//134 5.9435 1.55882353 AHPPEDPRLSFPSIKPDTDQTLK 99 //17 13//134 4.507 1.02941177 LSFPSIKPDTDQTLK 99 //17 18//104 5.56475 1.47058824 KEGLISQDGSSLEALLR 108 //17 9//86 1.13475 0.36666667 AHPPEDPRLSFPSIKPDTDQTLK 99 //17 15//134 3.8665 1.02941177 AHPPEDPRLSFPSIKPDTDQTLK 99 //17 13//134 4.7075 1.14705882 AHPPEDPRLSFPSIKPDTDQTLK 99 //17 11//134 3.48425 0.88235294 KEGLISQDGSSLEALLR 108 3//17 18//103 7.8195 1.70588235 ILEPDDFLDDLDDEDYEEDTPKRR 178 //17 20//134 7.8955 1.67647059 KEGLISQDGSSLEALLR 108 2//9 10//30 1.20675 1.5 KEGLISQDGSSLEALLR 108 3//9 9//30 1.138 1.35714286 KEGLISQDGSSLEALLR 108 1//9 7//30 0.83925 1.07142857 KEGLISQDGSSLEALLR 108 1//9 7//30 0.971 1.07142857 KEGLISQDGSSLEALLR 108 2//9 9//30 1.025 1.28571429 KEGLISQDGSSLEALLR 108 1//9 8//30 0.933 1.07142857 KEGLISQDGSSLEALLR 108 1//9 7//30 0.922 1.14285714 KEGLISQDGSSLEALLR 108 //9 4//30 0.73375 0.42857143 TDPLEKR 130 //17 30//111 12.87575 2.97058824 KEGLISQDGSSLEALLR 108 //9 7//30 1.06 1.21428571 RPMKQK 152 //9 8//45 1.226 1.5625 KLR 156 //13 13//60 5.1235 2 LYISNTFNPAKPDAEDSDGSIASWELR 169 //13 18//161 1.965 0.76190476 KPLDLYR 1047 //14 27//114 6.5465 1.65789474 YLAFTEEKAMGMTNLPAVGR 1034 //8 6//32 1.6065 1.42857143 ITKLYELGGEPERK 1010 //12 14//58 4.26275 1.63636364 ITKLYELGGEPERK 1010 1//8 12//34 3.05 2.21428571 ITKLYELGGEPERK 1010 2//8 10//42 3.50225 1.92857143 ITKLYELGGEPERK 1010 1//8 7//42 2.69425 1.5 ITKLYELGGEPERK 1010 2//8 9//42 3.4175 1.85714286 ITKLYELGGEPERK 1010 //8 7//34 2.65575 1.5 ITKLYELGGEPER 1010 2//8 9//35 2.2005 1.64285714 ITKLYELGGEPERK 1010 //8 6//42 2.5025 1.42857143 ITKLYELGGEPERK 1010 1//8 10//34 2.46525 1.85714286 ITKLYELGGEPERK 1010 //8 6//42 2.5795 1.42857143 ITKLYELGGEPER 1010 1//8 8//35 2.399 1.78571429 ITKLYELGGEPERK 1010 //8 5//34 1.70975 0.92857143 ITKLYELGGEPERK 1010 //8 6//42 2.158 1.42857143 ITKLYELGGEPERK 1010 //8 6//34 1.88325 1 ITKLYELGGEPER 1010 2//8 8//35 1.6615 1.57142857 ITKLYELGGEPER 1010 //8 5//35 1.012 0.92857143 ITKLYELGGEPER 1010 //8 6//35 1.7025 1.21428571 ITKLYELGGEPER 1010 //8 5//35 1.0065 0.92857143 ITKLYELGGEPER 1010 1//7 9//30 2.81375 1.91666667 ITKLYELGGEPER 1010 //7 7//30 2.198 1.75 KMWVDR 1021 //15 20//76 6.202 2.16666667 ITKLYELGGEPER 1010 //7 7//30 1.8755 1.75 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //12 8//63 2.63175 0.95 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //12 11//63 3.48325 1.4 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //14 22//173 5.03625 0.89285714 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //13 4//77 0.618 0.36363636 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //14 8//87 1.0855 0.58333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //13 6//77 0.83575 0.45454546 LILLHHKHPER 2020 //18 40//235 14.0335 1.96296296 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //13 4//77 0.743 0.36363636 LILLHHKHPER 2020 //18 32//172 13.733 1.59259259 LILLHHKHPERK 2020 //18 30//168 13.22875 1.68518519 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //12 9//59 1.39475 0.85 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //12 7//59 0.9345 0.85 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //12 16//171 4.174 0.84090909 LILLHHKHPERK 2020 //12 13//48 5.026 1.8 LILLHHKHPER 2020 //12 9//59 1.519 0.95 RCLIEIFGILKEYEVGDPGQR 1732 // 22//195 3.284 0.62121212 CLIEIFGILKEYEVGDPGQR 1732 // 28//195 3.50575 0.83333333 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //13 19//156 5.76075 1.2 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //13 14//156 4.20875 0.725 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //13 15//156 4.8145 0.85 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 2//12 11//63 3.4325 1.6 LEKLYSTMVR 2146 1//14 50//243 11.75375 2.25 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //12 10//63 3.173 1.35 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //12 8//50 2.87475 1.25 LEKLYSTMVR 2146 //14 35//176 9.81675 1.39285714 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 2//12 14//63 3.33 1.75 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 2//12 12//63 3.307 1.65 LEKLYSTMVR 2146 1//14 31//176 8.716 1.39285714 LEKLYSTMVR 2146 1//14 30//176 8.5095 1.23214286 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 2//12 9//63 2.78375 1.2 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1//12 9//63 3.37275 1.35 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //12 9//63 3.0935 1.3 NIKILEDEPHSK 1953 2//12 14//64 3.34825 1.75 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1//12 9//63 3.04225 1.35 LEKLYSTMVR 2146 //14 29//176 6.6975 1.21428571 NIKILEDEPHSK 1953 3//12 15//64 3.51475 1.85 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //12 10//63 3.22175 1.35 LEKLYSTMVR 2146 1//12 17//174 4.18125 0.60714286 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //12 6//63 1.83425 0.55 NIKILEDEPHSK 1953 1//12 12//51 3.157 1.5 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //12 6//63 2.2865 0.7 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //12 5//63 1.71025 0.5 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //14 11//87 2.1885 1 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //14 10//87 1.57025 0.95833333 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //13 9//77 1.23625 0.68181818 LILLHHKHPERK 2020 //14 17//81 5.19125 1.875 LILLHHKHPER 2020 //14 11//66 4.1355 1.40909091 LILLHHKHPER 2020 //14 11//66 3.8425 1.40909091 NIKILEDEPHSK 1953 2//14 17//66 5.70425 2.13636364 NIKILEDEPHSK 1953 2//13 18//77 5.02225 2.18181818 LILLHHKHPERK 2020 //14 16//81 5.345 1.79166667 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //13 7//59 1.37175 0.59090909 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //14 5//87 0.52 0.29166667 DKPASENSEEKLISK 1804 //9 6//31 1.29 1 DKPASENSEEKLISK 1804 //9 6//31 1.27525 1 DKPASENSEEKLISK 1804 //9 6//31 1.286 1.14285714 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 //8 6//32 1.727 1.14285714 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 //8 4//32 0.6405 0.42857143 SNSVGIQDAFNDGSDSTFQKR 1201 //8 6//32 2.584 1.42857143 MSYEPNKDPYGSMR 1230 //8 7//33 3.138 1.71428571 MSYEPNKDPYGSMR 1230 //8 7//33 3.2295 1.71428571 KPLDLYR 1047 2//16 18//80 2.53325 1.38461539 KSSSSTTTNEK 997 //8 5//37 1.7965 0.92857143 KSSSSTTTNEK 997 //8 6//37 2.0265 1 KSSSSTTTNEK 997 //8 5//37 2.247 1.14285714 KSSSSTTTNEK 997 //8 4//37 1.9525 0.85714286 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //12 17//171 3.48675 0.72727273 SSEAIKESSKFPFGISPAQSHR 1934 //17 16//163 2.2245 0.63461539 LILLHHKHPER 2020 2//17 46//228 17.9455 2.34615385 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //13 5//77 1.129 0.40909091 LILLHHKHPER 2020 2//17 32//167 12.051 1.71153846 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //13 9//77 1.439 0.77272727 LILLHHKHPER 2020 1//17 33//165 9.83125 1.84615385 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //13 5//77 0.742 0.31818182 LILLHHKHPER 2020 //17 19//167 7.34675 1 LILLHHKHPERK 2020 //17 17//166 6.0595 0.84615385 LILLHHKHPERK 2020 1//17 12//166 5.17575 0.67307692 LILLHHKHPER 2020 1//17 17//167 4.232 0.57692308 LILLHHKHPERK 2020 //17 19//166 4.639 0.84615385 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //13 2//77 0.2325 0.09090909 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //5 22//167 6.59225 0.98214286 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //5 17//167 4.0745 0.57142857 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //14 18//173 4.62975 0.58928571 LEKLYSTMVR 2146 //17 31//229 3.59275 0.88461539 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //18 14//118 3.62325 1.21875 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //18 12//118 3.45425 1.15625 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //16 10//151 1.176 0.475 SSTLTEDGAKSSEAIK 1928 //17 27//226 4.26575 0.94230769 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1//16 11//79 2.8085 1 MSYEPNKDPYGSMR 1230 //19 29//156 6.994 1.32 MSYEPNKDPYGSMR 1230 //19 18//156 5.26275 0.9 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1//16 12//79 3.29525 1.21428571 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 3//16 12//104 2.42775 0.75 MSYEPNKDPYGSMR 1230 1//19 25//156 5.66925 1.2 MSYEPNKDPYGSMR 1230 1//19 22//156 4.4795 1.04 MSYEPNKDPYGSMR 1230 2//19 18//156 3.69225 0.82 MSYEPNKDPYGSMR 1230 2//19 19//156 4.95675 0.98 MSYEPNKDPYGSMR 1230 1//19 19//156 3.82975 0.7 MSYEPNKDPYGSMR 1230 //19 18//156 3.7975 0.66 MSYEPNKDPYGSMR 1230 //19 17//156 2.903 0.68 MSYEPNKDPYGSMR 1230 1//19 18//156 4.13575 0.8 MSYEPNKDPYGSMR 1230 //19 15//156 3.504 0.58 MSYEPNKDPYGSMR 1230 //19 14//156 2.64525 0.58 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 //16 7//79 0.934 0.32142857 KNPVCR 2159 //16 18//84 5.7965 1.73076923 MSYEPNKDPYGSMR 1230 //15 11//71 3.456 1.30769231 MSYEPNKDPYGSMR 1230 //15 9//71 1.731 0.53846154 DITFPPGSVEATQPVLKQRR 1654 //15 3//106 0.344 0.08333333 NDPFVVDCSDKLGR 1830 // 21//195 5.66525 0.66666667 LILLHHKHPERK 2020 //5 22//167 7.18625 1 ILEDEPHSKDETPLCTLLDWQDSLAK 1962 //13 7//77 1.16975 0.5 LEKLYSTMVR 2146 //3 33//234 8.71075 1.32142857 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 1//12 9//63 2.9035 1.35 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 //12 7//63 2.11325 0.75 LEKLYSTMVR 2146 //5 23//231 4.89425 0.92857143 LILLHHKHPER 2020 //10 11//60 3.30725 1.66666667 LTMKDIGTPEAWR 1662 //16 11//79 5.42025 1.19230769 ESSKFPFGISPAQSHR 1938 1//18 22//90 6.78275 1.90625 ESSKFPFGISPAQSHR 1938 //18 21//90 6.3805 1.9375 SSTLTEDGAKSSEAIK 1928 1//17 20//86 6.65425 2.03571429 SSTLTEDGAKSSEAIK 1928 2//18 26//119 9.179 2.43333333 ESSKFPFGISPAQSHR 1938 1//18 23//90 6.033 2 SSTLTEDGAKSSEAIK 1928 1//17 23//86 7.33025 2.39285714 SSTLTEDGAKSSEAIK 1928 1//17 23//86 8.419 2.39285714 ESSKFPFGISPAQSHR 1938 4//18 21//118 4.29575 1.59375 SSTLTEDGAKSSEAIK 1928 2//17 19//86 4.80725 1.64285714 ESSKFPFGISPAQSHR 1938 //18 14//90 3.0445 1.125 ESSKFPFGISPAQSHR 1938 //18 12//90 2.072 0.875 ESSKFPFGISPAQSHR 1938 //18 11//90 0.9455 0.875 SNSVGIQDAFNDGSDSTFQKR 1201 2//16 18//79 3.79525 1.17857143 SNSVGIQDAFNDGSDSTFQKR 1201 1//16 11//79 3.09875 0.75 SNSVGIQDAFNDGSDSTFQKR 1201 2//16 12//79 2.98475 0.82142857 SNSVGIQDAFNDGSDSTFQKR 1201 2//16 15//79 3.2015 1 MSYEPNKDPYGSMR 1230 //15 21//126 6.8405 1.35 SNSVGIQDAFNDGSDSTFQKR 1201 1//16 12//79 2.83025 1.03571429 SNSVGIQDAFNDGSDSTFQKR 1201 //16 10//79 2.3145 0.64285714 MSYEPNKDPYGSMR 1230 1//15 13//126 2.5375 0.775 SNSVGIQDAFNDGSDSTFQKR 1201 2//16 13//79 2.244 0.89285714 SNSVGIQDAFNDGSDSTFQKR 1201 1//16 9//79 1.69875 0.5 SNSVGIQDAFNDGSDSTFQKR 1201 1//19 12//155 4.443 0.7 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1//15 13//126 1.84875 0.61904762 YLAFTEEKAMGMTNLPAVGR 1034 1//7 7//28 1.685 1.16666667 KPLDLYR 1047 2//7 9//32 2.428 2 LILLHHKHPERK 2020 //10 16//182 6.76225 1 LILLHHKHPER 2020 //10 16//182 5.77175 1.06521739 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 4//77 0.5045 0.27272727 SLSFVPGNDFEMSKHPGLLLILGK 2003 1//14 10//87 1.63075 0.83333333 LILLHHKHPER 2020 //10 17//182 5.061 1.02173913 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 8//77 0.904 0.63636364 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 8//77 0.80775 0.63636364 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 10//77 1.891 1.13636364 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 11//77 1.609 1.13636364 SLSFVPGNDFEMSKHPGLLLILGK 2003 1//13 7//77 1.5385 0.77272727 LILLHHKHPERK 2020 //10 10//134 2.8575 0.69565217 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 12//77 1.72175 1.18181818 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 6//77 0.67675 0.45454546 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 6//77 1.5085 0.72727273 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 6//77 1.04675 0.45454546 SLSFVPGNDFEMSKHPGLLLILGK 2003 //13 4//77 0.4525 0.27272727 LTPATKMNNK 980 //12 8//52 1.6635 1.05 KNPVCR 2159 //16 8//105 1.875 0.69230769 SSSSTTTNEKITK 1007 1//7 8//31 2.45725 1.58333333 SSSSTTTNEKITK 1007 1//7 6//31 2.4585 1.41666667 ESSKFPFGISPAQSHR 1938 2//12 16//63 3.586 1.85 LEKLYSTMVR 2146 2//18 21//121 6.227 1.63333333 ESSKFPFGISPAQSHR 1938 1//14 12//87 1.48075 0.95833333 FSKVSSPAPMEGGEEEEELLGPK 1752 //13 6//77 0.41825 0.36363636 FSKVSSPAPMEGGEEEEELLGPK 1752 //13 6//77 0.51275 0.45454546 FSKVSSPAPMEGGEEEEELLGPK 1752 1//13 8//77 0.54075 0.45454546 TLLDPGRFSKVSSPAPMEGGEEEEELLGPK 1752 //13 6//77 0.668 0.36363636 TLLDPGRFSKVSSPAPMEGGEEEEELLGPK 1752 //13 6//77 0.694 0.45454546 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 // 19//195 3.309 0.66666667 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //18 20//227 5.70925 0.7037037 IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 //18 18//227 5.1085 0.7037037 GEMKAAAGQESEGPAVGPPQPLGK 51 //8 5//33 0.9515 0.85714286 GEMKAAAGQESEGPAVGPPQPLGK 51 //18 13//136 2.675 0.70454546 KAEQQQREEAGGEAAAAAAAER 26 //17 34//144 11.0835 1.95652174 GEMKAAAGQESEGPAVGPPQPLGK 51 //18 20//182 6.75075 1.34090909 GEMKAAAGQESEGPAVGPPQPLGK 51 //8 5//33 1.274 0.85714286 KAEQQQREEAGGEAAAAAAAER 26 //16 18//193 5.24425 0.93478261 EEAGGEAAAAAAAERGEMKAAAGQESEGPAVGPPQPLGK 51 //8 6//41 0.99725 0.92857143 GEMKAAAGQESEGPAVGPPQPLGK 51 //8 5//33 1.2145 0.85714286 KCF 373 8//14 51//132 15.7675 3.475 KCF 373 5//14 48//132 13.1915 3.15 KCF 373 3//14 38//132 11.38025 2.35 KCF 373 1//14 35//132 10.71 2.025 KCF 373 2//14 40//132 10.24875 2.2 KCF 373 3//14 38//132 9.8075 2.175 VAPEEHPVLLTEAPLNPKANR 113 //11 4//56 0.31825 0.33333333 VAPEEHPVLLTEAPLNPKANR 113 //11 5//56 0.6005 0.5 EKMTQIMFETFNTPAMYVAIQAVLSLYASGR 118 //14 12//167 1.87725 0.5 IKIIAPPERK 328 1//17 35//188 14.20125 2.29545455 IKIIAPPER 328 1//17 41//143 13.04275 2.61363636 IKIIAPPERK 328 2//17 36//188 12.8165 2.18181818 IKIIAPPERK 328 2//17 37//141 12.761 2.29545455 IKIIAPPER 328 1//17 32//144 11.917 2.09090909 IKIIAPPER 328 1//17 32//143 11.138 2.04545455 EITALAPSTMKIKIIAPPER 328 //17 19//137 9.2375 1.47727273 IKIIAPPER 328 1//17 30//190 10.81675 1.79545455 IKIIAPPER 328 //17 28//143 9.86575 1.75 IKIIAPPER 328 //17 31//143 9.6455 1.68181818 EITALAPSTMKIKIIAPPER 328 //17 21//136 7.83975 1.36363636 EITALAPSTMKIKIIAPPER 328 //17 13//137 7.4705 0.93181818 EITALAPSTMKIKIIAPPER 328 //17 21//136 6.7205 1.22727273 EITALAPSTMKIKIIAPPER 328 //17 18//136 6.93275 1.13636364 EITALAPSTMKIKIIAPPER 328 //17 13//137 6.598 0.90909091 IKIIAPPER 328 //17 26//143 8.43125 1.47727273 IKIIAPPER 328 //17 25//143 7.3875 1.54545455 IKIIAPPER 328 1//17 27//143 7.34425 1.43181818 EITALAPSTMKIKIIAPPER 328 //17 12//137 7.10225 0.86363636 IKIIAPPER 328 1//17 21//143 8.34725 1.43181818 IKIIAPPERK 328 //17 29//141 7.42575 1.86363636 IKIIAPPER 328 1//17 18//144 6.7385 0.95454546 IKIIAPPER 328 //17 20//143 6.43175 1.15909091 EITALAPSTMKIKIIAPPER 328 //17 18//183 4.90575 1.02272727 IKIIAPPER 328 //17 20//143 6.46075 1.06818182 EITALAPSTMKIKIIAPPER 328 //17 13//136 5.242 0.77272727 EITALAPSTMKIKIIAPPER 328 //17 14//184 4.51225 0.79545455 IKIIAPPER 328 //17 19//144 6.23175 1.25 IKIIAPPER 328 //17 20//143 5.7135 1.13636364 IKIIAPPER 328 1//17 18//144 5.44325 0.93181818 EITALAPSTMKIKIIAPPER 328 //17 12//184 4.446 0.70454546 IKIIAPPER 328 //17 21//143 5.22025 0.93181818 IKIIAPPER 328 //17 18//144 4.89575 1 EITALAPSTMKIKIIAPPER 328 //17 13//184 3.08625 0.54545455 IKIIAPPER 328 1//17 15//191 2.766 0.84090909 EITALAPSTMKIKIIAPPER 326 1//17 26//137 11.9575 1.93181818 EITALAPSTMKIKIIAPPER 326 //17 21//137 10.3455 1.54545455 EITALAPSTMKIKIIAPPER 326 //17 16//137 9.03825 1.13636364 EITALAPSTMKIKIIAPPER 326 //17 18//137 8.687 1.18181818 EITALAPSTMKIKIIAPPER 326 //17 17//137 8.322 1.15909091 KDLYANTVLSGGTTMYPGIADR 291 //15 9//69 2.4715 0.92307692 EITALAPSTMKIKIIAPPER 326 //17 17//137 8.7425 1.15909091 EITALAPSTMKIKIIAPPER 326 //17 19//137 8.20125 1.13636364 EITALAPSTMKIKIIAPPER 326 1//17 17//184 8.039 1.25 EITALAPSTMKIKIIAPPER 326 //17 16//137 7.8005 1.18181818 EITALAPSTMKIKIIAPPER 326 //17 15//137 8.3555 1 EITALAPSTMKIKIIAPPER 326 //17 17//137 8.5725 1.31818182 EITALAPSTMKIKIIAPPER 326 //17 17//137 8.02975 1.09090909 EITALAPSTMKIK 326 1//17 28//139 10.095 1.79545455 KDLYANTVLSGGTTMYPGIADR 291 //15 8//69 2.31125 0.80769231 EITALAPSTMKIKIIAPPER 326 1//17 20//184 8.384 1.36363636 EITALAPSTMKIKIIAPPER 326 //17 16//137 7.411 0.95454546 KDLYANTVLSGGTTMYPGIADR 291 //15 9//69 2.24975 0.84615385 EITALAPSTMKIKIIAPPER 326 //17 14//137 7.59375 1.02272727 KDLYANTVLSGGTTMYPGIADR 291 //15 8//69 2.3415 0.80769231 KDLYANTVLSGGTTMYPGIADR 291 //15 8//69 2.058 0.80769231 EITALAPSTMKIKIIAPPER 326 //17 11//137 6.602 0.77272727 EITALAPSTMKIK 326 //17 18//140 8.69825 1.38636364 EITALAPSTMKIKIIAPPER 326 1//17 20//184 6.55675 1.20454546 EITALAPSTMKIKIIAPPER 326 //17 16//184 6.41975 0.90909091 EITALAPSTMKIK 326 1//17 23//140 8.686 1.45454546 KDLYANTVLSGGTTMYPGIADR 291 //15 10//69 2.1635 0.88461539 EITALAPSTMKIKIIAPPER 326 //17 11//137 5.818 0.68181818 EITALAPSTMKIK 326 //17 18//140 7.3655 1.11363636 KDLYANTVLSGGTTMYPGIADR 291 //15 9//69 2.11225 0.84615385 KDLYANTVLSGGTTMYPGIADR 291 //15 8//69 2.2455 0.80769231 EITALAPSTMKIK 326 //17 21//140 7.153 1.13636364 EITALAPSTMKIK 326 //17 21//140 7.13025 1.34090909 EITALAPSTMKIKIIAPPER 326 //17 11//137 5.186 0.72727273 KDLYANTVLSGGTTMYPGIADR 291 //11 15//146 3.8225 0.97368421 EITALAPSTMKIKIIAPPER 326 //17 20//183 5.45975 0.97727273 EITALAPSTMKIKIIAPPER 326 //17 14//137 5.13175 0.79545455 EITALAPSTMKIKIIAPPER 326 //17 11//137 6.19275 0.77272727 EITALAPSTMKIK 326 //17 14//140 6.50075 0.84090909 EITALAPSTMKIK 326 //17 21//140 6.829 1.27272727 EITALAPSTMKIK 326 //17 21//140 6.33775 1.22727273 EITALAPSTMKIKIIAPPER 326 //17 10//137 4.68925 0.61363636 KDLYANTVLSGGTTMYPGIADR 291 1//11 15//108 2.84975 0.73684211 KDLYANTVLSGGTTMYPGIADR 291 1//15 9//69 1.496 0.84615385 EITALAPSTMKIKIIAPPER 326 //17 12//137 5.334 0.75 EITALAPSTMKIKIIAPPER 326 1//17 14//137 4.27325 0.75 EITALAPSTMKIK 326 //17 17//140 5.3675 1.06818182 EITALAPSTMKIKIIAPPER 326 //17 10//137 3.7975 0.56818182 EITALAPSTMKIKIIAPPER 326 //17 9//137 4.117 0.56818182 EITALAPSTMKIK 326 //17 15//140 5.1535 0.75 EITALAPSTMKIK 326 //17 13//140 3.9285 0.70454546 EITALAPSTMKIKIIAPPER 326 //17 14//136 2.86825 0.59090909 DSYVGDEAQSKR 61 //12 11//179 1.77225 0.54761905 HQGVMVGMGQKDSYVGDEAQSKR 50 //14 16//136 4.59025 0.95454546 HQGVMVGMGQKDSYVGDEAQSKR 50 //14 14//136 2.36775 0.68181818 HQGVMVGMGQKDSYVGDEAQSKR 61 //10 16//178 2.68325 0.54545455 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 33//197 11.32975 1.4375 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 31//197 9.40875 1.234375 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 28//197 9.2315 1.140625 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 25//197 9.20125 1.140625 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 27//197 7.36025 1.015625 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 26//197 9.38325 1.078125 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 26//197 8.59 1.171875 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 24//197 8.22625 0.96875 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 30//197 9.62825 1.234375 GILTLKYPIEHGIVTNWDDMEK 68 1//10 31//131 10.52025 1.86363636 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 25//197 6.4945 1.0625 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 24//196 7.15975 0.90625 GILTLKYPIEHGIVTNWDDMEK 68 //10 40//178 13.04575 2.61363636 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 25//197 5.5145 0.953125 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 23//196 6.64575 0.890625 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 24//197 6.44325 0.984375 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 25//197 8.60625 1.140625 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 22//197 4.72025 0.8125 GILTLKYPIEHGIVTNWDDMEK 68 //10 31//131 12.208 2.22727273 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 21//197 5.33525 0.765625 GILTLKYPIEHGIVTNWDDMEK 68 //10 34//178 10.06575 1.93181818 GILTLKYPIEHGIVTNWDDMEK 68 //10 30//178 9.2245 1.54545455 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 16//179 4.726 1.02380952 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 14//132 4.1975 0.97619048 GILTLKYPIEHGIVTNWDDMEK 68 //10 34//178 10.6455 2.11363636 GILTLKYPIEHGIVTNWDDMEK 68 //10 35//178 9.41425 1.88636364 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 27//197 7.24325 1 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 22//196 5.45175 0.796875 GILTLKYPIEHGIVTNWDDMEK 68 //10 26//178 8.562 1.52272727 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 19//197 4.20325 0.71875 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 10//132 1.85275 0.52380952 GILTLKYPIEHGIVTNWDDMEK 68 //10 32//178 8.17175 1.61363636 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 18//196 4.68025 0.640625 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 21//196 5.535 0.71875 GILTLKYPIEHGIVTNWDDMEK 68 //10 32//178 7.3315 1.75 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 21//197 6.25 0.859375 GILTLKYPIEHGIVTNWDDMEK 68 //10 26//178 7.298 1.36363636 GILTLKYPIEHGIVTNWDDMEK 68 1//10 23//131 7.2695 1.38636364 GILTLKYPIEHGIVTNWDDMEK 68 //10 27//178 8.28025 1.56818182 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 13//179 3.5035 0.73809524 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 20//197 4.49275 0.640625 GILTLKYPIEHGIVTNWDDMEK 68 //10 24//178 7.18425 1.27272727 GILTLKYPIEHGIVTNWDDMEK 68 //10 26//178 7.4615 1.36363636 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 20//197 4.8765 0.671875 GILTLKYPIEHGIVTNWDDMEK 68 //10 27//131 7.24125 1.36363636 GILTLKYPIEHGIVTNWDDMEK 68 //10 24//178 6.4015 1.29545455 GILTLKYPIEHGIVTNWDDMEK 68 //10 19//178 5.631 0.90909091 GILTLKYPIEHGIVTNWDDMEK 68 1//10 29//178 5.39675 1.34090909 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 17//197 3.9295 0.5625 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 14//179 3.189 0.76190476 GILTLKYPIEHGIVTNWDDMEK 68 //10 19//178 4.27375 0.79545455 GILTLKYPIEHGIVTNWDDMEK 68 //10 22//178 3.67725 0.88636364 GILTLKYPIEHGIVTNWDDMEK 68 //10 20//131 5.08975 1.13636364 GILTLKYPIEHGIVTNWDDMEK 68 //10 22//131 5.11175 1.15909091 GILTLKYPIEHGIVTNWDDMEK 68 //10 16//131 3.68175 0.68181818 GILTLKYPIEHGIVTNWDDMEK 68 //10 19//178 2.7585 0.70454546 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 10//132 1.72425 0.52380952 GILTLKYPIEHGIVTNWDDMEK 68 1//10 19//178 3.09125 0.65909091 GILTLKYPIEHGIVTNWDDMEK 68 //10 19//178 3.9395 0.79545455 GILTLKYPIEHGIVTNWDDMEK 68 //10 20//178 2.8605 0.72727273 GILTLKYPIEHGIVTNWDDMEK 68 //10 18//131 3.561 0.84090909 GILTLKYPIEHGIVTNWDDMEK 68 //10 15//178 2.8345 0.63636364 HQGVMVGMGQKDSYVGDEAQSKR 50 //12 13//179 2.05025 0.57142857 GILTLKYPIEHGIVTNWDDMEK 68 //10 14//131 3.04975 0.63636364 GILTLKYPIEHGIVTNWDDMEK 68 //10 16//178 2.49875 0.90909091 VTASSGITIPKPPK 61 1//13 8//59 0.64075 0.59090909 VTASSGITIPKPPK 61 //13 8//59 0.77225 0.45454546 VTASSGITIPKPPK 61 //13 7//59 0.625 0.40909091 VTASSGITIPKPPK 61 //13 7//59 0.5475 0.40909091 PPDKPLMPYMR 68 //16 22//76 6.44875 2.53846154 VTASSGITIPKPPK 61 //13 7//59 0.72775 0.54545455 VWDQVKASNPDLK 85 //16 16//75 4.83525 1.75 KLEAELLQIEER 240 1//8 4//26 0.4625 0.5 HQEKKR 255 //13 24//94 9.42075 3.08333333 KLEAELLQIEER 240 //7 2//21 0.104 0.2 KLEAELLQIEER 240 1//8 5//26 0.387 0.58333333 MQVLKR 228 //14 28//96 11.2145 2.89285714 LWEIGKIIGGMWR 98 3//8 8//26 0.99775 1.5 LWEIGKIIGGMWR 98 3//8 8//26 1.04275 1.5 MQVLKR 228 2//8 8//31 1.442 1.7 MQVLKR 228 //14 19//71 4.1835 2.18181818 MQVLKR 228 //7 5//31 1.4885 1 KRQEER 298 //8 6//29 2.25175 1.16666667 KLEAELLQIEER 240 3//8 8//26 1.19025 1.66666667 KLEAELLQIEER 240 2//8 6//26 0.642 0.83333333 KLEAELLQIEER 240 3//8 8//26 0.8755 1.41666667 MQVLKR 228 //13 21//75 8.06275 2.625 KFLESTDSFNNELK 258 //8 2//25 0.20275 0.16666667 VTASSGITIPKPPKPPDK 64 //13 9//74 2.234 1.27272727 AYHNSPAYLAYINAKSR 146 1//14 28//191 4.32575 0.77419355 AYHNSPAYLAYINAKSR 146 //7 2//35 0.3075 0.33333333 AYHNSPAYLAYINAKSR 146 //8 3//31 0.4505 0.41666667 AYHNSPAYLAYINAKSR 146 //8 4//25 0.346 0.5 IEYNESMKAYHNSPAYLAYINAK 131 1//12 10//101 1.56275 0.58333333 IEYNESMKAYHNSPAYLAYINAK 131 //12 8//101 1.25375 0.5 LCGLKVEVDMEKIAAEIAQAEEQAR 277 2//16 18//113 1.88225 1.16666667 FLESTDSFNNELKR 271 //14 15//65 5.53375 1.70833333 LCGLKVEVDMEKIAAEIAQAEEQAR 277 //16 21//79 8.3155 2.25 LCGLKVEVDMEK 277 5//16 32//81 12.14 3.69230769 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1//16 15//113 1.7875 1.26666667 LCGLKVEVDMEKIAAEIAQAEEQAR 277 //16 18//79 7.1045 1.85714286 LCGLKVEVDMEK 277 4//16 28//81 10.44125 3.11538462 KFLESTDSFNNELKR 271 //14 12//84 4.79375 1.41666667 LCGLKVEVDMEKIAAEIAQAEEQAR 277 //16 14//79 4.86025 1.28571429 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1//16 15//79 4.3105 1.17857143 LCGLKVEVDMEK 277 2//16 23//81 9.39175 2.53846154 LCGLKVEVDMEKIAAEIAQAEEQAR 277 //16 16//79 6.0465 1.46428571 LCGLKVEVDMEK 277 3//14 31//91 8.4695 2.71428571 LCGLKVEVDMEKIAAEIAQAEEQAR 277 2//16 14//113 1.278 0.86666667 KFLESTDSFNNELKR 271 //14 20//65 6.46375 2 FLESTDSFNNELKR 271 //14 15//65 4.1815 1.375 LCGLKVEVDMEK 277 //16 19//81 7.269 1.96153846 LCGLKVEVDMEKIAAEIAQAEEQAR 277 //16 6//113 0.645 0.26666667 LCGLKVEVDMEK 277 //16 17//81 7.419 1.76923077 FLESTDSFNNELKR 271 //12 21//149 6.98175 1.25 KFLESTDSFNNELKR 271 //14 13//84 4.91025 1.45833333 FLESTDSFNNELKR 271 //14 14//65 4.82525 1.58333333 FLESTDSFNNELKR 271 //14 12//65 3.37775 1.20833333 LCGLKVEVDMEK 277 6//16 35//115 7.1545 3.53571429 LCGLKVEVDMEK 277 //16 19//81 7.191 2.23076923 KFLESTDSFNNELKR 271 //14 11//84 4.347 1.125 FLESTDSFNNELKR 271 //12 24//204 8.942 1.47916667 LCGLKVEVDMEK 277 5//16 32//89 4.365 2.92857143 LCGLKVEVDMEK 277 //16 16//81 5.59725 1.61538462 LCGLKVEVDMEK 277 3//16 26//115 5.85725 2.32142857 KFLESTDSFNNELKR 271 //14 14//84 4.539 1.5 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1//16 7//87 0.88025 0.3 LCGLKVEVDMEK 277 //16 18//81 5.9965 2.07692308 LCGLKVEVDMEK 277 //16 22//115 5.09375 2.07142857 FLESTDSFNNELKR 271 //14 15//65 4.9805 1.625 KFLESTDSFNNELKR 271 //14 14//65 5.936 1.58333333 LCGLKVEVDMEKIAAEIAQAEEQAR 277 //16 11//87 1.7895 0.7 LCGLKVEVDMEK 277 //16 17//115 3.81275 1.14285714 LCGLKVEVDMEK 277 2//14 22//91 4.71425 1.5 KFLESTDSFNNELKR 271 //14 13//65 5.00775 1.29166667 FLESTDSFNNELKR 271 //14 14//65 4.319 1.58333333 LCGLKVEVDMEK 277 //16 11//81 3.00825 0.80769231 LCGLKVEVDMEK 277 2//14 21//91 3.564 1.35714286 LCGLKVEVDMEK 277 //16 14//81 5.05025 1.19230769 LCGLKVEVDMEK 277 2//16 16//89 1.22725 1.03571429 LCGLKVEVDMEK 277 //16 16//115 3.2055 1.35714286 KFLESTDSFNNELKR 271 //14 15//65 4.67475 1.375 LCGLKVEVDMEK 277 //16 16//115 4.0535 1.35714286 KFLESTDSFNNELKR 271 //14 13//65 4.7285 1.45833333 LCGLKVEVDMEK 277 1//16 10//89 1.0385 0.60714286 LCGLKVEVDMEK 277 //14 13//91 2.2715 0.64285714 LCGLKVEVDMEK 277 1//16 9//81 1.977 0.76923077 LCGLKVEVDMEK 277 //16 8//81 1.556 0.57692308 LCGLKVEVDMEK 277 //16 11//81 1.84425 0.69230769 LCGLKVEVDMEK 277 //16 13//81 2.15225 0.65384615 LCGLKVEVDMEK 277 1//16 10//81 1.258 0.57692308 FLESTDSFNNELKR 271 //14 13//65 1.14375 0.79166667 KFLESTDSFNNELKR 271 //7 3//35 0.5965 0.41666667 VEVDMEKIAAEIAQAEEQAR 284 //12 19//107 6.165 1.19444444 VEVDMEKIAAEIAQAEEQAR 284 //12 15//107 3.1 0.77777778 VEVDMEKIAAEIAQAEEQAR 284 //12 9//107 3.51825 0.69444444 QEEREKEAAEQAER 305 //7 19//196 7.06125 1 QEEREKEAAEQAER 305 //7 17//196 4.89 0.83333333 MQVLKR 228 //14 39//275 12.00525 1.62903226 EKEAAEQAER 305 //7 3//33 0.5005 0.41666667 EKEAAEQAER 305 //7 3//33 0.4875 0.41666667 EKEAAEQAER 305 //7 2//33 0.3865 0.33333333 FLESTDSFNNELKR 271 //7 5//20 0.475 1 HQEKKR 255 //16 20//92 6.44375 1.82142857 HQEKKR 255 //14 39//100 17.092 4.2 KFLESTDSFNNELKR 258 //8 10//26 2.44475 1.58333333 KFLESTDSFNNELKR 258 2//8 9//32 1.36125 1.5 HQEKKR 255 //15 38//98 14.76525 4.16666667 HQEKK 255 //15 35//98 14.10575 3.56666667 HQEKKR 255 //15 28//126 12.80475 2.93333333 HQEKKR 255 //14 27//129 11.02225 2.66666667 KFLESTDSFNNELKR 258 //8 4//32 0.722 0.66666667 KFLESTDSFNNELKR 258 1//8 5//32 0.6135 0.58333333 HQEKKR 255 //15 27//98 8.759 2.66666667 KFLESTDSFNNELK 258 2//8 6//32 0.30225 0.66666667 KFLESTDSFNNELKR 258 2//7 6//25 0.4855 1 KFLESTDSFNNELKR 258 1//8 5//32 0.524 0.75 HQEKKR 255 //15 27//98 6.68775 2.6 KFLESTDSFNNELKR 258 3//8 8//32 1.09775 1.16666667 KFLESTDSFNNELKR 258 3//8 9//32 1.55625 1.5 KFLESTDSFNNELKR 258 1//7 4//25 0.308 0.6 KFLESTDSFNNELKR 258 2//8 5//32 0.90425 0.75 KFLESTDSFNNELKR 258 3//8 10//32 1.58475 1.58333333 KFLESTDSFNNELKR 258 4//8 8//32 1.1095 1.16666667 HQEKKR 255 1//15 18//98 3.14875 1.5 QEEREKEAAEQAER 305 //12 28//149 8.4395 1.5 QEEREKEAAEQAER 305 //12 23//204 7.9385 1.27083333 LCGLKVEVDMEKIAAEIAQAEEQAR 305 1//16 7//102 1.49425 0.42857143 QEEREKEAAEQAER 305 //12 24//204 6.1235 1.08333333 QEEREKEAAEQAER 305 //11 19//147 4.46025 1.14583333 KPVDFK 1445 1//6 6//26 1.95075 1.4 KPVDFK 1445 //6 4//26 1.839 1.2 KPVDFK 1445 //14 8//125 1.734 0.63333333 NHKYR 1460 //8 13//38 3.9655 2.71428571 IRNHKYR 1460 //8 16//41 3.9835 3.07142857 IRNHKYR 1460 1//7 10//33 2.8295 2.08333333 IRNHKYR 1460 //8 13//39 4.0925 2.85714286 IRNHKYR 1460 //7 9//33 3.09 2 NHKYR 1460 //8 11//36 3.12975 1.92857143 IRNHKYR 1460 //7 9//33 2.901 2 IRNHKYR 1460 //7 8//33 2.156 1.5 KPVDFK 1445 3//9 6//37 1.33775 1.25 IRNHKYR 1460 //7 9//33 2.2265 2 IRNHKYR 1460 //8 10//39 2.3625 1.85714286 IRNHKYR 1460 //7 7//33 1.86975 1.41666667 IKER 1453 1//9 10//36 1.5415 1.58333333 IEKER 500 //8 8//36 2.67 1.71428571 IEKER 500 3//9 17//35 4.458 4 IEKER 500 3//9 16//35 4.07625 3.41666667 IEKER 500 2//9 11//34 2.16525 1.91666667 KLIDQKK 521 //7 5//23 1.08425 0.9 IEKER 500 //13 9//81 1.5625 1.1 LMEEDELPSWIIKDDAEVER 1286 //4 2//19 0.323 0.5 LMEEDELPSWIIKDDAEVER 1286 //4 3//15 0.26675 0.625 KELPEYYELIR 1434 //4 3//21 0.19625 0.625 LTCEEEEEKIFGR 1302 //16 14//85 3.82 1.14285714 LTCEEEEEKIFGR 1302 //16 6//85 1.726 0.57142857 KELPEYYELIR 1434 //11 25//114 6.8585 1.60526316 LMEEDELPSWIIKDDAEVER 1286 1//12 15//63 4.77825 1.81818182 LTCEEEEEKIFGR 1302 //11 23//114 11.433 1.86842105 LTCEEEEEKIFGR 1302 //11 24//114 9.863 1.78947368 LTCEEEEEKIFGR 1302 //11 20//114 9.15575 1.63157895 LTCEEEEEKIFGR 1302 //11 18//114 7.44925 1.23684211 LTCEEEEEKIFGR 1302 //11 21//114 7.212 1.28947368 LTCEEEEEKIFGR 1302 //11 20//114 6.5485 1.23684211 LTCEEEEEKIFGR 1302 //11 17//114 6.41025 1.07894737 LTCEEEEEKIFGR 1302 //11 20//114 6.32 1.31578947 LTCEEEEEKIFGR 1302 //11 20//114 6.65025 1.36842105 LTCEEEEEKIFGR 1302 1//11 23//114 6.291 1.2631579 LTCEEEEEKIFGR 1302 //11 16//114 3.8845 0.78947368 LTCEEEEEKIFGR 1302 //11 19//114 4.35975 1.10526316 LTCEEEEEKIFGR 1302 //11 17//114 4.365 1 VIQAGMFDQKSSSHER 1207 //12 16//63 6.21325 1.95454546 KELPEYYELIR 1434 //16 19//129 2.667 1.0625 HQEYLNSILQHAKDFK 460 //9 5//38 1.088 0.92857143 HQEYLNSILQHAKDFK 460 //9 5//38 1.2475 0.92857143 LIDQKK 521 //17 20//94 7.48 1.85714286 KLIDQKK 521 //10 7//43 1.16725 0.85714286 EQKKETER 492 //10 6//52 0.95225 0.6875 AVATWHANTEREQKK 492 //11 6//56 0.5035 0.44444444 AVATWHANTEREQKK 492 //11 1//56 0.04725 0.05555556 AVATWHANTEREQKK 492 //11 3//56 0.2295 0.16666667 DVDYSDALTEKQWLR 1323 //16 10//77 3.51825 0.82142857 ISYKGTPAMR 805 4//8 10//28 2.513 2.25 ISYKGTPAMR 805 4//8 10//28 2.43775 2.25 NHHCKLTQVLNTHYVAPR 862 //7 9//37 2.22425 1.42857143 NHHCKLTQVLNTHYVAPR 862 1//7 6//37 1.7215 1.21428571 NHHCKLTQVLNTHYVAPR 862 //7 10//37 2.6665 1.78571429 NHHCKLTQVLNTHYVAPR 862 //7 6//37 1.72275 1.21428571 MKNHHCKLTQVLNTHYVAPR 862 //7 11//37 4.14225 2.35714286 NHHCKLTQVLNTHYVAPR 862 //7 9//30 2.201 1.78571429 DKHILAKIR 837 1//13 26//104 10.01375 2.14705882 MKNHHCKLTQVLNTHYVAPR 862 //7 10//37 2.7265 1.85714286 DKHILAKIR 837 //10 26//115 7.824 1.84210526 NHHCKLTQVLNTHYVAPR 862 //7 7//30 1.9145 1.42857143 DKHILAKIR 837 //13 17//104 8.3955 1.67647059 DKHILAKIR 837 //13 23//139 7.59325 2.05882353 NHHCKLTQVLNTHYVAPR 862 //7 5//37 1.409 1.14285714 DKHILAK 837 //10 26//115 8.7525 1.92105263 DKHILAKIR 837 //10 24//115 7.865 1.73684211 DKHILAKIR 837 //13 21//139 6.9055 1.82352941 DKHILAK 837 //10 23//115 8.602 1.78947368 DKHILAKIR 837 //10 26//115 7.17725 1.68421053 DKHILAK 837 //11 27//157 6.50225 1.7631579 DKHILAK 837 //10 25//115 8.339 1.7631579 DKHILAKIR 837 //11 26//115 6.289 1.78947368 DKHILAK 837 //11 23//116 8.10275 1.60526316 DKHILAK 837 //11 22//116 8.13575 1.7631579 DKHILAK 837 //10 21//115 7.76325 1.42105263 DKHILAK 837 //11 24//116 7.96525 1.94736842 DKHILAKIR 837 //11 21//115 6.04375 1.44736842 DKHILAK 837 //11 16//116 6.32175 1.15789474 MKNHHCKLTQVLNTHYVAPR 862 //7 5//37 1.13625 0.92857143 DKHILAKIR 837 //13 14//139 4.978 1.17647059 DKHILAK 837 //10 26//156 5.1125 1.71052632 DKHILAK 837 //11 22//157 4.7035 1.44736842 DKHILAKIR 837 //11 13//156 2.208 0.68421053 SVAGKIQK 472 //16 22//84 7.474 2.30769231 LCTVNSVEEKILAAAK 1183 1//8 11//36 3.13025 1.8125 LCTVNSVEEKILAAAK 1183 1//8 10//36 2.58 1.625 ISYKGTPAMR 805 //18 22//92 8.028 2.1 SGKFNVLLTTYEYIIK 822 2//11 13//73 5.269 1.72727273 SGKFNVLLTTYEYIIK 822 1//11 8//58 2.80775 0.86363636 WKYMIVDEGHR 846 //16 15//122 5.84775 1.53333333 ILLDPNSEEVSEKDAK 672 //10 19//117 7.45875 1.47368421 ILLDPNSEEVSEKDAK 672 //10 21//117 10.597 1.65789474 ILLDPNSEEVSEKDAK 672 //10 23//117 10.23225 1.73684211 ILLDPNSEEVSEKDAK 672 //10 19//117 7.0855 1.42105263 ILLDPNSEEVSEKDAK 672 //10 18//117 8.36875 1.39473684 ILLDPNSEEVSEKDAK 672 //10 16//117 6.71325 1.15789474 ILLDPNSEEVSEKDAK 672 //10 11//117 3.825 0.73684211 ILLDPNSEEVSEKDAK 672 //10 16//117 5.65575 1.07894737 ILLDPNSEEVSEKDAK 672 //10 12//121 3.27425 0.8 QIIETAKQDVDDEYSMQYSAR 682 //18 9//93 3.2015 0.6875 ILLDPNSEEVSEKDAK 672 //10 9//121 2.784 0.65 QIIETAKQDVDDEYSMQYSAR 682 1//18 9//93 2.31125 0.59375 QIIETAKQDVDDEYSMQYSAR 682 1//18 10//93 3.18625 0.71875 QIIETAKQDVDDEYSMQYSAR 682 //18 10//93 1.82325 0.625 QIIETAKQDVDDEYSMQYSAR 682 //18 8//93 1.264 0.40625 QIIETAKQDVDDEYSMQYSAR 682 //18 4//93 0.42275 0.125 IEKER 500 //10 7//44 1.538 0.85714286 LIDQKKDR 521 //6 6//27 2.079 1.6 LIDQKKDR 521 1//10 7//43 1.04125 0.71428571 KELPEYYELIR 1434 //13 6//76 0.45775 0.27272727 KELPEYYELIR 1434 //13 16//104 2.6685 0.94117647 KELPEYYELIR 1434 1//13 24//120 7.272 1.81578947 KELPEYYELIR 1434 1//13 23//162 5.701 1.57894737 KELPEYYELIR 1434 //13 19//120 3.9815 1.21052632 KELPEYYELIR 1434 //13 20//162 3.9995 1.15789474 KELPEYYELIR 1434 1//13 15//162 2.8445 0.86842105 KELPEYYELIR 1434 //8 6//36 1.435 1.42857143 KELPEYYELIR 1434 2//9 9//31 1.48925 1.5 KELPEYYELIR 1434 4//11 17//74 5.52825 2.5 KELPEYYELIR 1434 2//11 16//59 3.86025 1.68181818 KELPEYYELIR 1434 //11 9//59 1.01325 0.59090909 NHKYR 1460 1//9 15//34 3.8715 2.91666667 DVDYSDALTEKQWLR 1323 //12 7//48 0.5975 0.55 IRNHKYR 1460 //12 13//55 5.42525 2.05555556 ISYKGTPAMR 805 4//12 18//53 4.3635 2.3 LTCEEEEEKIFGR 1302 1//12 10//49 1.57775 1 ILPKLR 1061 1//12 11//56 3.284 1.44444444 ASGKFELLDR 1051 //4 3//17 0.196 0.375 VIQAGMFDQKSSSHER 1207 //8 7//36 2.91975 1.3125 VIQAGMFDQKSSSHER 1207 //8 7//36 2.241 1.3125 YKLNVDQK 1191 //17 30//92 8.098 2.4 VIQAGMFDQKSSSHER 1207 //8 7//36 2.40625 1.3125 VIQAGMFDQKSSSHERR 1207 //8 11//36 3.68675 1.6875 ILAAAKYKLNVDQK 1191 1//17 18//91 3.891 1.4 VIQAGMFDQKSSSHERR 1207 //8 7//45 2.92275 1.3125 VIQAGMFDQKSSSHER 1207 1//8 8//45 2.624 1.375 ILAAAKYKLNVDQK 1191 //17 16//91 3.8265 1.43333333 YKLNVDQK 1191 //17 28//121 4.99675 2.13333333 VIQAGMFDQKSSSHERR 1207 //8 7//36 1.5735 0.875 YKLNVDQK 1191 //17 19//92 3.69925 1.36666667 YKLNVDQK 1191 //16 11//97 3.05075 0.65625 VIQAGMFDQKSSSHERR 1207 //8 6//45 2.426 1.25 VIQAGMFDQKSSSHERR 1207 1//8 7//45 2.526 1.3125 VIQAGMFDQKSSSHER 1207 //8 6//45 1.8625 1.25 KELPEYYELIR 1434 //8 7//38 1.23525 1.3125 KIKER 1451 4//9 11//37 1.65075 1.58333333 KIKER 1451 3//9 13//37 1.03875 2 NHKYR 1460 //6 5//26 2.0895 1.3 NHKYR 1460 //6 4//26 2.0055 1.2 NHKYR 1460 //6 5//26 1.6285 1 NHKYR 1460 //6 5//26 1.90925 1.3 LHKVLRPFLLR 940 //7 12//32 2.71 3 LHKVLRPFLLR 940 //7 8//39 2.32575 1.58333333 LHKVLRPFLLR 940 //8 9//27 2.63975 1.58333333 LIDQKK 521 //13 11//66 1.72775 0.85 LHKVLRPFLLR 940 2//8 10//33 2.387 1.41666667 TIQTIALITYLMEHKR 770 1//11 14//73 5.601 1.90909091 TIQTIALITYLMEHKR 770 //11 10//58 2.78675 1 TIQTIALITYLMEHKR 770 //11 13//73 6.178 1.86363636 TIQTIALITYLMEHKR 770 //11 11//58 3.958 1.27272727 WKYMIVDEGHR 846 //16 18//123 6.4825 1.5 WKYMIVDEGHR 846 1//16 18//123 3.10975 1.46666667 WKYMIVDEGHR 846 //16 16//123 6.13975 1.33333333 WKYMIVDEGHR 846 1//16 18//125 5.38225 1.33333333 WKYMIVDEGHR 846 //16 14//94 3.1925 1.1 WKYMIVDEGHR 846 //16 13//123 4.88075 1.13333333 peptide2 protein2 R.MPTTQETDGFQVK[3001.59]R.P Q92925:289 R.MPTTQETDGFQVK[3001.59]R.P Q92925:289 R.MPTTQETDGFQVK[3001.59]R.P Q92925:289 K.RPGDLNVK[1918.92]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 K.RPGDLNVK[1918.88]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 K.RPGDLNVK[1902.91]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 R.MPTTQETDGFQVK[3001.59]R.P Q92925:289 K.RPGDLNVK[1902.86]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 K.RPGDLNVK[1902.89]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 K.RPGDLNVK[1902.87]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 K.RPGDLNVK[1902.88]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 R.MPTTQETDGFQVK[3001.59]R.P Q92925:289 K.RPGDLNVK[1902.89]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 K.RPGDLNVK[1902.88]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 R.MPTTQETDGFQVK[3001.59]R.P Q92925:289 R.MPTTQETDGFQVK[3125.72]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[3125.72]RPGDLNVK.C Q92925:289 K.LAGLLQHPDPIVINHVISVDPNDQK[2626.34]K.T Q92925:401 K.IHETIESINQLK[1606.92]TQR.D Q92925:451 R.HIFAK[2075.14]VQQR.R Q92925:514 K.PLTQK[1354.75]R.K Q92925:191 K.PLTQK[1354.75]RK.L Q92925:191 K.PLTQK[1510.85]R.K Q92925:191 K.PLTQK[1354.75]R.K Q92925:191 K.PLTQK[1510.85]R.K Q92925:191 K.PLTQK[1354.75]R.K Q92925:191 K.PLTQK[1354.75]R.K Q92925:191 K.PLTQK[1354.75]RK.L Q92925:191 K.KPLTQK[1510.85]R.K Q92925:191 R.MEIQEAIK[681.45]KPLTQK.R Q92925:185 K.K[1510.85]PLTQKR.K Q92925:186 K.K[1354.75]PLTQKR.K Q92925:186 K.RM[147.04]EIQEAIK[1135.71]K.P Q92925:185 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[3219.56]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[3219.56]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[3219.56]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[3219.56]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[3219.56]RPGDLNVK.C Q92925:289 R.HIFAK[2262.22]VQQR.R Q92925:514 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[2823.37]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.VEGK[3125.72]LLDDPSK.Q Q92925:237 Q6STE5:189 R.VEGK[3125.72]LLDDPSK.Q Q92925:237 Q6STE5:189 R.FSEIPMK[284.17]LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 R.FSEIPMK[284.17]LAGLLQHPDPIVINHVISVDPNDQK[1465.82]K.T Q92925:401 R.K[1510.85]LDQTIAR.K Q92925:168 R.K[1391.8]LDQTIAR.K Q92925:168 R.VASAAAK[4013.97]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[4013.97]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[4013.97]SALEEFSK.M Q8TAQ2:694 R.EWTEQETLLLLEALEM[147.04]YK[1773.98]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 R.EWTEQETLLLLEALEMYK[1773.89]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 R.VASAAAK[4013.97]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[4013.97]SALEEFSK.M Q8TAQ2:694 R.E[111.03]WTEQETLLLLEALEMYK[1793.93]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 R.VASAAAK[4013.97]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[4013.97]SALEEFSK.M Q8TAQ2:694 K.K[2804.42]DSESAPVK.G Q8TAQ2:365 K.K[1286.73]YIQAEPPTNK.S Q8TAQ2:37 K.TK[1388.78]VER.D Q8TAQ2:848 K.AK[1025.63]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1025.61]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1025.61]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.KTK[2349.29]VER.D Q8TAQ2:848 K.TK[2349.29]VER.D Q8TAQ2:848 K.TK[2349.29]VER.D Q8TAQ2:848 K.TPQQTSASQQMLNFPDK[1682.82]GK.E Q8TAQ2:564 K.TPQQTSASQQMLNFPDK[1682.84]GK.E Q8TAQ2:564 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 K.TPQQTSASQQMLNFPDK[1682.87]GK.E Q8TAQ2:564 K.TPQQTSASQQMLNFPDK[1682.86]GK.E Q8TAQ2:564 K.TPQQTSASQQMLNFPDK[1682.83]GK.E Q8TAQ2:564 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 R.TDM[147.04]YTK[284.17]K[1676.87]NVPSK.S Q8TAQ2:585 R.TDMYTK[284.17]K[1039.59]NVPSK.S Q8TAQ2:585 K.K[1974.06]NVPSK.S Q8TAQ2:585 K.K[1127.63]NVPSK.S Q8TAQ2:585 K.K[1127.63]NVPSK.S Q8TAQ2:585 K.K[1127.63]NVPSK.S Q8TAQ2:585 K.K[1127.63]NVPSK.S Q8TAQ2:585 R.KTK[1773.95]VER.D Q8TAQ2:848 R.VASAAAK[2763.51]SALEEFSK.M Q8TAQ2:694 R.KTK[1773.95]VER.D Q8TAQ2:848 R.KTK[1773.95]VER.D Q8TAQ2:848 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 K.M[147.04]K[1773.97]EEVPTALVEAHVR.K Q8TAQ2:704 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 K.M[147.04]K[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 K.M[147.04]K[1773.92]EEVPTALVEAHVR.K Q8TAQ2:704 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 K.MK[1773.98]EEVPTALVEAHVR.K Q8TAQ2:704 K.MK[1773.91]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.93]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 K.SALEEFSK[1773.95]MK[284.17]EEVPTALVEAHVR.K Q8TAQ2:702 K.SALEEFSK[1773.91]MK[284.17]EEVPTALVEAHVR.K Q8TAQ2:702 K.SALEEFSK[1773.95]M[147.04]KEEVPTALVEAHVR.K Q8TAQ2:702 K.SALEEFSK[1773.95]M[147.04]KEEVPTALVEAHVR.K Q8TAQ2:702 K.SALEEFSK[1773.97]M[147.04]KEEVPTALVEAHVR.K Q8TAQ2:702 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1773.95]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1773.95]SALEEFSK.M Q8TAQ2:694 R.K[1773.95]VEEAAK.V Q8TAQ2:718 R.K[1773.95]VEEAAK.V Q8TAQ2:718 R.K[1773.95]TKVER.D Q8TAQ2:846 R.K[1773.95]TKVER.D Q8TAQ2:846 R.TDMYTK[1700.83]K[284.17]NVPSK.S Q8TAQ2:584 R.K[1700.86]VEEAAK.V Q8TAQ2:718 R.K[1700.86]TKVER.D Q8TAQ2:846 K.E[111.03]PK[2703.3]EGQEEVLK[284.17]EVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[2703.28]EGQEEVLK[284.17]EVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[2211.05]EGQEEVLKEVVESEGER.K Q8TAQ2:828 R.K[1388.77]IK[284.17]SLVALLVETQMK.K Q92922:891 Q8TAQ2:883 R.K[1388.78]IK[284.17]SLVALLVETQMK.K Q92922:891 Q8TAQ2:883 R.K[1388.76]IK[284.17]SLVALLVETQMK.K Q92922:891 Q8TAQ2:883 R.K[1388.77]IK[284.17]SLVALLVETQMK.K Q92922:891 Q8TAQ2:883 K.AK[1966.19]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.K[1388.8]IK[284.17]SLVALLVETQMK.K Q92922:891 Q8TAQ2:883 R.K[1388.77]IK[284.17]SLVALLVETQMK.K Q92922:891 Q8TAQ2:883 R.K[1388.79]IK[284.17]SLVALLVETQM[147.04]K.K Q92922:891 Q8TAQ2:883 R.K[1388.8]IK[284.17]SLVALLVETQMK.K Q92922:891 Q8TAQ2:883 K.AK[1388.78]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1388.77]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.K[284.17]IK[1388.78]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 R.K[284.17]IK[1388.77]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 K.AK[1966.19]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.K[284.17]IK[1388.78]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 R.K[284.17]IK[1388.75]SLVALLVETQM[147.04]K.K Q92922:893 Q8TAQ2:885 K.AK[1966.19]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.K[284.17]IK[1388.79]SLVALLVETQM[147.04]K.K Q92922:893 Q8TAQ2:885 K.AK[1966.19]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.K[284.17]IK[1388.78]SLVALLVETQM[147.04]K.K Q92922:893 Q8TAQ2:885 R.K[284.17]IK[1388.78]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 R.K[284.17]IK[1388.8]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 R.K[284.17]IK[1388.76]SLVALLVETQM[147.04]K.K Q92922:893 Q8TAQ2:885 R.KIK[1388.78]SLVALLVETQM[147.04]K.K Q92922:893 Q8TAQ2:885 R.KIK[1388.77]SLVALLVETQM[147.04]K.K Q92922:893 Q8TAQ2:885 K.AK[1966.19]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.KIK[1388.79]SLVALLVETQM[147.04]K.K Q92922:893 Q8TAQ2:885 K.K[1207.67]DSESAPVK.G Q8TAQ2:365 R.KK[1225.66]DGGPNVK.Y Q8TAQ2:6 K.NVPSK[1151.59]SK.A Q8TAQ2:590 R.KVEEAAK[1151.57]VTGK.A Q8TAQ2:724 R.TDMYTK[1127.62]K[284.17]NVPSK.S Q8TAQ2:584 K.NVPSK[284.17]SK[1151.58]AAASATR.E Q8TAQ2:592 K.NVPSK[284.17]SK[1151.58]AAASATR.E Q8TAQ2:592 R.TDMYTK[1127.65]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.64]K[284.17]NVPSK.S Q8TAQ2:584 R.TDMYTK[1127.63]K[284.17]NVPSK.S Q8TAQ2:584 R.TDMYTK[1127.65]K[284.17]NVPSK.S Q8TAQ2:584 R.TDMYTK[1127.62]K.N Q8TAQ2:584 R.TDM[147.04]YTK[1127.63]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.62]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.62]K.N Q8TAQ2:584 R.TDMYTK[1127.6]K.N Q8TAQ2:584 R.TDM[147.04]YTK[1127.68]K[284.17]NVPSK.S Q8TAQ2:584 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 R.VEGQATDEK[1002.53]K.E Q8TAQ2:769 K.SK[1974.06]AAASATR.E Q8TAQ2:592 K.SK[1974.06]AAASATR.E Q8TAQ2:592 K.M[147.04]K[1127.61]EEVPTALVEAHVR.K Q8TAQ2:704 R.KTK[1127.63]VER.D Q8TAQ2:848 R.K[1127.63]TK[284.17]VER.D Q8TAQ2:846 R.K[1127.63]TKVER.D Q8TAQ2:846 R.K[1127.63]VEEAAK.V Q8TAQ2:718 K.K[3363.84]DGGPNVK.Y Q8TAQ2:6 R.KK[3363.84]DGGPNVK.Y Q8TAQ2:6 K.K[3363.84]DGGPNVK.Y Q8TAQ2:6 R.KK[3363.84]DGGPNVK.Y Q8TAQ2:6 R.KK[3363.84]DGGPNVK.Y Q8TAQ2:6 K.TVNTKK[3712.78]DSESAPVK.G Q8TAQ2:365 R.GHREEEQEDLTK[1768.96]DM[147.04]DEPSPVPNVEEVTLPK.T Q8TAQ2:341 K.TVNTK[3712.78]KDSESAPVK.G Q8TAQ2:364 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 K.TVNTK[3712.78]KDSESAPVK.G Q8TAQ2:364 K.TVNTK[3712.78]KDSESAPVK.G Q8TAQ2:364 R.GHREEEQEDLTK[1768.94]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 K.TVNTK[3712.78]KDSESAPVK.G Q8TAQ2:364 K.TVNTK[3712.78]KDSESAPVK.G Q8TAQ2:364 K.K[2225.11]DEEKGK.E Q8TAQ2:796 K.K[2225.11]DEEKGK.E Q8TAQ2:796 K.K[1154.62]DEEKGK.E Q8TAQ2:796 R.E[111.03]GGGAIEEEAKEK[2193.07]TSEAPK.K Q8TAQ2:789 R.K[1024.59]TKVER.D Q8TAQ2:846 K.NVPSK[1025.62]SK.A Q8TAQ2:590 K.E[111.03]PK[2167.01]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[2167.07]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[2167.04]EGQEEVLKEVVESEGER.K Q8TAQ2:828 R.K[3739.66]VHAK.W Q8TAQ2:236 R.K[3739.66]VHAK.W Q8TAQ2:236 R.K[3739.66]VHAK.W Q8TAQ2:236 R.K[3739.66]VHAK.W Q8TAQ2:236 R.K[2211.09]TKVER.D Q8TAQ2:846 K.EGQEEVLK[1181.69]EVVESEGER.K Q8TAQ2:836 K.EGQEEVLK[1181.72]EVVESEGER.K Q8TAQ2:836 K.EGQEEVLK[1181.69]EVVESEGER.K Q8TAQ2:836 R.K[2211.09]TKVER.D Q8TAQ2:846 K.EGQEEVLK[1181.73]EVVESEGER.K Q8TAQ2:836 R.K[2211.09]TKVER.D Q8TAQ2:846 R.K[2211.09]TKVER.D Q8TAQ2:846 K.EGQEEVLK[1181.7]EVVESEGER.K Q8TAQ2:836 R.K[2211.09]TKVER.D Q8TAQ2:846 R.K[2211.09]TKVER.D Q8TAQ2:846 R.K[2211.09]TKVER.D Q8TAQ2:846 K.EGQEEVLK[1181.7]EVVESEGER.K Q8TAQ2:836 K.EGQEEVLK[1181.73]EVVESEGER.K Q8TAQ2:836 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 K.EGQEEVLK[897.53]EVVESEGERK.T Q8TAQ2:836 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 K.EGQEEVLK[1025.6]EVVESEGER.K Q8TAQ2:836 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 K.E[111.03]GQEEVLK[1025.63]EVVESEGER.K Q8TAQ2:836 K.E[111.03]GQEEVLK[1025.61]EVVESEGER.K Q8TAQ2:836 K.E[111.03]GQEEVLK[1025.63]EVVESEGER.K Q8TAQ2:836 K.E[111.03]GQEEVLK[1025.61]EVVESEGER.K Q8TAQ2:836 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[284.17]VEEAAK[1025.61]VTGK.A Q8TAQ2:724 R.K[284.17]VEEAAK[1025.62]VTGK.A Q8TAQ2:724 R.K[1424.82]TKVER.D Q8TAQ2:846 R.KVEEAAK[1181.7]VTGK.A Q8TAQ2:724 R.K[284.17]VEEAAK[1025.64]VTGK.A Q8TAQ2:724 R.KVEEAAK[1181.7]VTGK.A Q8TAQ2:724 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[1296.73]TKVER.D Q8TAQ2:846 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 R.KVEEAAK[1723.9]VTGK.A Q8TAQ2:724 R.K[284.17]VEEAAK[1025.62]VTGK.A Q8TAQ2:724 R.K[284.17]VEEAAK[1025.63]VTGK.A Q8TAQ2:724 R.KVEEAAK[1025.61]VTGK.A Q8TAQ2:724 K.TK[1424.82]VER.D Q8TAQ2:848 R.KVEEAAK[1025.64]VTGK.A Q8TAQ2:724 R.KTK[1424.82]VER.D Q8TAQ2:848 K.TK[1424.82]VER.D Q8TAQ2:848 R.K[284.17]VEEAAK[897.52]VTGK.A Q8TAQ2:724 K.TK[1424.82]VER.D Q8TAQ2:848 K.TK[1424.82]VER.D Q8TAQ2:848 R.K[1025.63]TKVER.D Q8TAQ2:846 R.K[1025.62]TKVER.D Q8TAQ2:846 R.K[1025.63]TK[284.17]VER.D Q8TAQ2:846 R.K[1025.62]TK[284.17]VER.D Q8TAQ2:846 R.K[1181.67]TK[284.17]VER.D Q8TAQ2:846 R.K[1388.78]TKVER.D Q8TAQ2:846 R.K[1388.78]TKVER.D Q8TAQ2:846 R.K[1388.78]TKVER.D Q8TAQ2:846 K.ISAK[931.52]TLTDEVNSPDSDRR.D Q8TAQ2:275 K.K[2269.15]GGNYK.K Q8TAQ2:292 K.K[2269.15]GGNYK.K Q8TAQ2:292 R.DKK[2269.15]GGNYK.K Q8TAQ2:292 K.ISAK[1243.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 K.ISAK[1243.65]TLTDEVNSPDSDRR.D Q8TAQ2:275 R.K[2269.15]KDGGPNVK.Y Q8TAQ2:5 R.K[2269.15]KDGGPNVK.Y Q8TAQ2:5 R.K[2269.15]KDGGPNVK.Y Q8TAQ2:5 K.ISAK[1363.75]TLTDEVNSPDSDRR.D Q8TAQ2:275 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 R.HQGTVTEDK[847.5]NNASHVVYPVPGNLEEEEWVRPVM[147.04]K.R Q8TAQ2:171 R.K[4154.05]VHAK.W Q8TAQ2:236 R.K[4154.05]VHAK.W Q8TAQ2:236 R.K[4154.05]VHAK.W Q8TAQ2:236 R.K[4154.05]VHAK.W Q8TAQ2:236 R.K[4154.05]VHAK.W Q8TAQ2:236 R.VASAAAKSALEEFSK[1990.03]M[147.04]K.E Q8TAQ2:702 K.TK[2865.49]VER.D Q8TAQ2:848 K.SALEEFSK[897.51]MKEEVPTALVEAHVR.K Q8TAQ2:702 K.AK[2865.49]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.SALEEFSK[1388.77]MKEEVPTALVEAHVR.K Q8TAQ2:702 R.K[2865.49]TKVER.D Q8TAQ2:846 R.K[2865.49]TKVER.D Q8TAQ2:846 R.K[2865.49]VEEAAK.V Q8TAQ2:718 R.K[2865.49]VEEAAK.V Q8TAQ2:718 R.K[2865.49]VEEAAK.V Q8TAQ2:718 K.LK[3304.77]DIIKR.H Q92922:185 Q8TAQ2:157 K.LK[3304.77]DIIKR.H Q92922:185 Q8TAQ2:157 K.LK[3304.77]DIIKR.H Q92922:185 Q8TAQ2:157 K.SLVQNNC[160.03]LSRPNIFLC[160.03]PEIEPK[1306.8]LLGK.L Q8TAQ2:151 K.LK[3304.77]DIIKR.H Q92922:185 Q8TAQ2:157 K.LK[2133.19]DIIKR.H Q92922:185 Q8TAQ2:157 K.LK[3304.77]DIIK.R Q92922:185 Q8TAQ2:157 K.LK[2133.19]DIIKR.H Q92922:185 Q8TAQ2:157 K.LK[3304.77]DIIKR.H Q92922:185 Q8TAQ2:157 R.K[3363.84]KDGGPNVK.Y Q8TAQ2:5 R.K[3363.84]KDGGPNVK.Y Q8TAQ2:5 R.K[3363.84]KDGGPNVK.Y Q8TAQ2:5 R.K[3363.84]KDGGPNVK.Y Q8TAQ2:5 R.K[3363.84]KDGGPNVK.Y Q8TAQ2:5 K.SLSSLVVQLLQFQEEVFGK[1207.72]HVSNAPLTK.L Q8TAQ2:66 R.K[3363.84]KDGGPNVK.Y Q8TAQ2:5 K.TSEAPK[1615.76]K.D Q8TAQ2:795 K.DEEK[1025.59]GKEGDSEK.E Q8TAQ2:800 R.LWLGK[284.17]NYK[1288.65]K.Y Q8TAQ2:36 R.K[1288.66]VHAK.W Q8TAQ2:236 R.K[3957.87]TKVER.D Q8TAQ2:846 R.K[3957.87]TKVER.D Q8TAQ2:846 K.TK[3957.87]VER.D Q8TAQ2:848 R.KTK[3957.87]VER.D Q8TAQ2:848 K.TK[3957.87]VER.D Q8TAQ2:848 K.TK[3957.87]VER.D Q8TAQ2:848 K.TK[3957.87]VER.D Q8TAQ2:848 R.KTK[3957.87]VER.D Q8TAQ2:848 R.KTK[3957.87]VER.D Q8TAQ2:848 K.VTGK[897.46]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 R.KTK[3957.87]VER.D Q8TAQ2:848 K.TK[2857.4]VER.D Q8TAQ2:848 K.TK[3957.87]VER.D Q8TAQ2:848 K.TK[3957.87]VER.D Q8TAQ2:848 K.K[1972.06]YIQAEPPTNK.S Q8TAQ2:37 K.K[1972.06]YIQAEPPTNK.S Q8TAQ2:37 K.TK[1974.06]VER.D Q8TAQ2:848 K.TK[1974.06]VER.D Q8TAQ2:848 K.TK[1974.06]VER.D Q8TAQ2:848 R.KTK[1974.06]VER.D Q8TAQ2:848 K.M[147.04]K[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 K.TK[1974.06]VER.D Q8TAQ2:848 R.KTK[1974.06]VER.D Q8TAQ2:848 R.KTK[1974.06]VER.D Q8TAQ2:848 K.TK[1974.06]VER.D Q8TAQ2:848 K.TK[1974.06]VER.D Q8TAQ2:848 K.AK[1974.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.M[147.04]K[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.M[147.04]K[1388.79]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1974.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1974.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.M[147.04]K[1388.76]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.M[147.04]K[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[1974.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.M[147.04]K[1388.76]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEERK.I Q92922:882 Q8TAQ2:874 R.KVEEAAK[1974.06]VTGK.A Q8TAQ2:724 R.K[1974.06]TKVER.D Q8TAQ2:846 R.K[1974.06]TKVER.D Q8TAQ2:846 K.MK[1181.7]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]TKVER.D Q8TAQ2:846 R.K[1974.06]TKVER.D Q8TAQ2:846 R.K[1974.06]TKVER.D Q8TAQ2:846 R.K[1974.06]TKVER.D Q8TAQ2:846 R.K[1974.06]TKVER.D Q8TAQ2:846 R.K[284.17]IK[1974.04]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 R.K[284.17]IK[1974.07]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 R.K[284.17]IK[1974.05]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 R.KIK[1974.06]SLVALLVETQMK.K Q92922:893 Q8TAQ2:885 K.MK[1580.89]EEVPTALVEAHVR.K Q8TAQ2:704 K.MK[1580.89]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[1974.06]VEEAAK.V Q8TAQ2:718 K.M[147.04]K[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[1974.06]VEEAAK.V Q8TAQ2:718 K.M[147.04]K[1039.58]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[1974.06]VEEAAK.V Q8TAQ2:718 K.M[147.04]K[1039.58]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 K.LPIK[4668.27]C[160.03]FLDFK.A Q8TAQ2:79 K.LPIK[4668.27]C[160.03]FLDFK.A Q8TAQ2:79 K.LPIK[4668.27]C[160.03]FLDFK.A Q8TAQ2:79 K.LPIK[4668.27]C[160.03]FLDFK.A Q8TAQ2:79 K.LPIK[4668.27]C[160.03]FLDFK.A Q8TAQ2:79 K.LPIK[4668.27]C[160.03]FLDFK.A Q8TAQ2:79 K.LPIK[4668.27]C[160.03]FLDFK.A Q8TAQ2:79 R.K[1388.78]VEEAAK.V Q8TAQ2:718 R.K[284.17]TK[1039.59]VER.D Q8TAQ2:848 R.KTK[1039.59]VER.D Q8TAQ2:848 R.KTK[1039.59]VER.D Q8TAQ2:848 R.KTK[1039.59]VER.D Q8TAQ2:848 R.K[284.17]TK[1039.56]VER.D Q8TAQ2:848 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 K.VTGK[1039.52]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[1039.59]TKVER.D Q8TAQ2:846 R.K[1039.6]TK[284.17]VER.D Q8TAQ2:846 R.K[1039.59]TKVER.D Q8TAQ2:846 R.K[1039.58]TK[284.17]VER.D Q8TAQ2:846 R.K[1039.59]TKVER.D Q8TAQ2:846 R.LLEDSALSK[284.17]YDATK[2231.16]QK.R Q96GM5:228 R.LLEDSALSK[284.17]YDATK[2231.15]QK.R Q96GM5:228 R.LLEDSALSK[284.17]YDATK[2231.17]QK.R Q96GM5:228 R.LLEDSALSK[284.17]YDATK[2231.16]QK.R Q96GM5:228 K.YDATK[1155.63]QK[284.17]R.K Q96GM5:228 K.THK[2468.24]LQDPHER.E Q96GM5:327 K.THK[2468.24]LQDPHER.E Q96GM5:327 K.THK[2468.24]LQDPHER.E Q96GM5:327 K.THK[2468.24]LQDPHER.E Q96GM5:327 K.THK[2468.24]LQDPHER.E Q96GM5:327 R.EFVIC[160.03]DK[1525.76]YLQQIFESQR.M Q96GM5:341 K.THK[2468.24]LQDPHER.E Q96GM5:327 K.THK[2468.24]LQDPHER.E Q96GM5:327 K.THK[2468.24]LQDPHER.E Q96GM5:327 R.YFYSK[1269.71]VQQR.R Q96GM5:498 K.KM[147.04]ADK[1260.72]ILPQR.I Q6STE5:106 Q96GM5:131 K.KMADK[1260.73]ILPQR.I Q6STE5:106 Q96GM5:131 K.KMADK[1260.73]ILPQR.I Q6STE5:106 Q96GM5:131 R.NHNAK[1336.75]K.K Q96GM5:124 R.NHNAK[1336.75]K.K Q96GM5:124 R.NHNAK[1464.85]K.K Q96GM5:124 R.LHALLMPPEPIIINHVISVDPNDQK[3219.57]K.T Q96GM5:385 R.LHALLMPPEPIIINHVISVDPNDQK[3219.57]K.T Q96GM5:385 R.LHALLMPPEPIIINHVISVDPNDQK[3219.57]K.T Q96GM5:385 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.IFISNTFNPAK[1846.92]SDAEDGEGTVASWELR.V Q96GM5:194 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]R.P Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.IFISNTFNPAK[2584.41]SDAEDGEGTVASWELR.V Q96GM5:194 R.IFISNTFNPAK[2584.43]SDAEDGEGTVASWELR.V Q96GM5:194 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.IFISNTFNPAK[2584.39]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.IFISNTFNPAK[2584.28]SDAEDGEGTVASWELR.V Q96GM5:194 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.IFISNTFNPAK[2584.29]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.IFISNTFNPAK[2584.25]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.IFISNTFNPAK[2584.27]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3196.77]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3196.77]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3196.77]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3196.77]RPGDVNVR.C Q96GM5:273 K.KMADK[1260.72]ILPQR.I Q6STE5:106 Q96GM5:131 K.KM[147.04]ADK[1260.72]ILPQR.I Q6STE5:106 Q96GM5:131 K.MADK[1260.71]ILPQR.I Q6STE5:106 Q96GM5:131 K.KMADK[1260.69]ILPQR.I Q6STE5:106 Q96GM5:131 K.K[1260.71]M[147.04]ADKILPQR.I Q6STE5:102 Q96GM5:127 R.NHNAK[284.17]K[857.46]K.K Q96GM5:125 R.MK[2510.38]FSEIPQR.L Q96GM5:353 R.LDIQEALK[2510.38]RPIK.Q Q96GM5:173 R.LDIQEALK[2510.38]RPIK.Q Q96GM5:173 K.MADK[2510.38]ILPQR.I Q6STE5:106 Q96GM5:131 R.K[2510.38]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[2510.38]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[2510.38]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.YFYSK[2510.38]VQQR.R Q96GM5:498 R.K[2584.32]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[2584.32]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 K.K[1416.79]M[147.04]ADKILPQR.I Q6STE5:102 Q96GM5:127 K.K[1416.79]MADKILPQR.I Q6STE5:102 Q96GM5:127 R.M[147.04]K[1336.71]FSEIPQR.L Q96GM5:353 R.M[147.04]K[1336.72]FSEIPQR.L Q96GM5:353 R.EWTEQETLLLLEALEM[147.04]YK[1785.96]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 R.EWTEQETLLLLEALEM[147.04]YK[1785.98]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 R.EWTEQETLLLLEALEMYK[2140.23]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 R.EWTEQETLLLLEALEMYK[2140.24]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 R.EWTEQETLLLLEALEMYK[2140.18]DDWNKVSEHVGSR.T Q92922:639 Q8TAQ2:617 K.K[812.51]GQASLYGK.R Q92922:346 R.KK[1372.78]SGK.K Q92922:342 K.SK[2803.51]GASAGR.E Q92922:615 K.SK[2140.23]GASAGR.E Q92922:615 K.SK[1066.61]GASAGR.E Q92922:615 K.SK[1066.61]GASAGR.E Q92922:615 R.TDIYSK[998.54]K[284.17]TLAK.S Q92922:608 K.SK[1119.62]GASAGR.E Q92922:615 K.K[1119.62]VQEAAR.A Q92922:740 K.TLAK[1119.61]SK[284.17]GASAGR.E Q92922:613 K.TLAK[1119.61]SK[284.17]GASAGR.E Q92922:613 K.TLAK[1119.62]SK[284.17]GASAGR.E Q92922:613 K.TLAK[1119.61]SK[284.17]GASAGR.E Q92922:613 K.TLAK[1119.62]SK.G Q92922:613 K.TLAK[1119.62]SK.G Q92922:613 R.TDIYSK[2140.23]K.T Q92922:608 R.TDIYSK[2140.23]K.T Q92922:608 K.K[2855.5]DSENTPVK.G Q92922:393 K.TLVQNNC[160.03]LTRPNIYLIPDIDLK[1306.84]LANK.L Q92922:179 K.AGGALC[160.03]HILGAAYK[4114.13]YK.N Q92922:127 K.AGGALC[160.03]HILGAAYK[4114.13]YK.N Q92922:127 R.NVEMFMNIEK[1958.13]TLVQNNC[160.03]LTRPNIYLIPDIDLK.L Q92922:157 K.LPAK[1958.04]C[160.03]FMDFK.A Q92922:107 R.K[1879.91]HSPSPPPPTPTESR.K Q92922:326 R.K[1879.92]HSPSPPPPTPTESR.K Q92922:326 R.K[1879.98]HSPSPPPPTPTESR.K Q92922:326 R.K[3954.84]ASANAR.K Q92922:317 R.K[3954.84]ASANAR.K Q92922:317 R.K[3954.84]ASANAR.K Q92922:317 R.K[1253.68]PVSFR.Q Q92922:292 R.ISTK[998.56]NEEPVRSPER.R Q92922:303 K.SK[1542.77]GASAGR.E Q92922:615 K.GQASLYGK[1542.77]R.R Q92922:354 K.NVNLK[1542.77]K.D Q92922:392 R.HQGTFTDEK[998.61]SK.A Q92922:199 K.K[1542.77]DSENTPVK.G Q92922:393 R.HQGTFTDEK[4674.24]SK.A Q92922:199 K.QVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEK[1542.69]PWK.V Q92922:261 R.HQGTFTDEK[4931.38]SK.A Q92922:199 R.DRK[1542.77]ASANAR.K Q92922:317 R.K[1542.77]ASANAR.K Q92922:317 R.K[1542.77]ASANAR.K Q92922:317 R.DRK[1542.77]ASANAR.K Q92922:317 R.K[1542.77]ASANAR.K Q92922:317 R.K[1698.87]ASANAR.K Q92922:317 R.K[1542.77]ASANAR.K Q92922:317 R.DRK[1542.77]ASANAR.K Q92922:317 R.DRK[1542.77]ASANAR.K Q92922:317 R.HQGTFTDEK[1542.77]SK.A Q92922:199 R.HQGTFTDEK[1542.79]SK.A Q92922:199 K.K[1542.77]VQEAAR.A Q92922:740 K.K[1542.77]VQEAAR.A Q92922:740 R.HQGTFTDEK[1907.01]SK.A Q92922:199 R.HQGTFTDEK[1907.01]SK.A Q92922:199 K.SK[1542.82]ASHHIYPYSSSQDDEEWLRPVMR.K Q92922:201 R.K[1216.68]KSGK.K Q92922:341 R.K[1216.68]KSGK.K Q92922:341 R.K[1216.68]KSGK.K Q92922:341 R.K[1216.68]KSGK.K Q92922:341 R.VREEVPLELVEAHVK[1388.77]K.V Q92922:739 R.VREEVPLELVEAHVK[2675.41]K.V Q92922:739 R.VREEVPLELVEAHVK[2675.41]K.V Q92922:739 K.K[2140.22]VEHEISEGNVATAAAAALASAATK.A Q92922:856 K.K[2140.22]VEHEISEGNVATAAAAALASAATK.A Q92922:856 R.K[1907.01]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 R.K[1437.78]ASANAR.K Q92922:317 R.DRK[1437.78]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 R.ISTK[982.53]NEEPVR.S Q92922:303 R.K[1907.01]ASANAR.K Q92922:317 R.DRK[1907.01]ASANAR.K Q92922:317 R.ISTK[1253.68]NEEPVRSPER.R Q92922:303 R.ISTK[982.53]NEEPVRSPER.R Q92922:303 R.DRK[1437.78]ASANAR.K Q92922:317 R.ISTK[1253.67]NEEPVRSPER.R Q92922:303 R.K[1907.01]ASANAR.K Q92922:317 R.DRK[1907.01]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 R.DRK[1907.01]ASANAR.K Q92922:317 R.DRK[1907.01]ASANAR.K Q92922:317 R.DRK[1437.78]ASANAR.K Q92922:317 R.DRK[1907.01]ASANAR.K Q92922:317 R.ISTK[982.53]NEEPVR.S Q92922:303 R.K[1907.01]DGGPATK.F Q92922:34 R.K[1437.78]DGGPATK.F Q92922:34 R.RK[1907.01]DGGPATK.F Q92922:34 R.SPQVPAAQQMLNFPEK[1662.92]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.9]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 R.SPQVPAAQQMLNFPEK[1662.91]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.93]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.91]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.89]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.89]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.93]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.91]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 R.SPQVPAAQQMLNFPEK[1662.89]NK[284.17]EK.P Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.K[1680.92]VQEAAR.A Q92922:740 R.VASAAAK[1680.88]AALEEFSR.V Q92922:716 K.EK[2140.23]PVDLQNFGLR.T Q92922:592 K.NKEK[1295.7]PVDLQNFGLR.T Q92922:592 R.TDIYSK[284.17]K[998.55]TLAK.S Q92922:609 R.TDIYSK[284.17]K[998.55]TLAK.S Q92922:609 R.TDIYSK[284.17]K[998.56]TLAK.S Q92922:609 R.TDIYSK[284.17]K[998.53]TLAK.S Q92922:609 R.ESDTGK[2675.41]K.K Q92922:854 K.ERESDTGK[2675.41]K.K Q92922:854 K.ERESDTGK[2675.41]K.K Q92922:854 K.ERESDTGK[2675.41]K.K Q92922:854 R.ESDTGK[2675.41]K.K Q92922:854 K.ERESDTGK[2675.41]K.K Q92922:854 K.ERESDTGK[2675.41]K.K Q92922:854 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.EEVPLELVEAHVK[2041.12]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.16]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.16]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.15]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.14]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.16]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.11]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.14]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.16]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.15]K[284.17]VQEAAR.A Q92922:739 R.EEVPLELVEAHVK[2041.16]K[284.17]VQEAAR.A Q92922:739 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[1029.54]AALEEFSR.V Q92922:716 K.ERESDTGK[1785.96]K.K Q92922:854 K.ERESDTGK[1785.96]K.K Q92922:854 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 R.VASAAAK[1785.95]AALEEFSR.V Q92922:716 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 R.VASAAAK[1785.97]AALEEFSR.V Q92922:716 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 R.VASAAAK[1785.95]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 K.K[1786.01]VEHEISEGNVATAAAAALASAATK.A Q92922:856 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 K.K[1785.99]VEHEISEGNVATAAAAALASAATK.A Q92922:856 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 K.K[1785.98]VEHEISEGNVATAAAAALASAATK.A Q92922:856 R.VASAAAK[1388.79]AALEEFSR.V Q92922:716 R.VASAAAK[1388.81]AALEEFSR.V Q92922:716 K.K[1785.96]VQEAAR.A Q92922:740 K.K[1785.96]VQEAAR.A Q92922:740 K.K[1785.96]VQEAAR.A Q92922:740 K.K[1785.96]VQEAAR.A Q92922:740 K.K[1785.92]KVEHEISEGNVATAAAAALASAATK.A Q92922:855 K.K[1785.91]KVEHEISEGNVATAAAAALASAATK.A Q92922:855 K.K[1785.91]K[284.17]VEHEISEGNVATAAAAALASAATK.A Q92922:855 R.VASAAAK[2803.51]AALEEFSR.V Q92922:716 R.VASAAAK[2803.51]AALEEFSR.V Q92922:716 K.K[1785.96]K[284.17]VEHEISEGNVATAAAAALASAATK.A Q92922:855 R.VASAAAK[2803.51]AALEEFSR.V Q92922:716 K.K[1785.94]K[284.17]VEHEISEGNVATAAAAALASAATK.A Q92922:855 R.ESDTGKK[1785.96]K.V Q92922:855 R.ESDTGKK[1785.96]K.V Q92922:855 R.K[1345.68]ASANAR.K Q92922:317 R.VREEVPLELVEAHVK[1501.74]K.V Q92922:739 K.EK[982.52]QVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWK.V Q92922:227 K.EK[982.53]QVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWK.V Q92922:227 R.K[4931.38]ASANAR.K Q92922:317 K.KK[1038.54]VEHEISEGNVATAAAAALASAATK.A Q92922:856 R.RK[2675.41]DGGPATK.F Q92922:34 K.K[2675.41]VQEAAR.A Q92922:740 K.K[2675.41]VQEAAR.A Q92922:740 K.K[2675.41]VQEAAR.A Q92922:740 K.K[2675.41]VQEAAR.A Q92922:740 K.K[2675.41]VQEAAR.A Q92922:740 K.K[2675.41]VQEAAR.A Q92922:740 K.K[2675.41]VQEAAR.A Q92922:740 K.K[3815.79]VQEAAR.A Q92922:740 K.K[3815.79]VQEAAR.A Q92922:740 K.K[1066.61]VQEAAR.A Q92922:740 K.K[1066.61]VQEAAR.A Q92922:740 K.LANK[1253.68]LK.D Q92922:183 K.K[1066.59]DSENTPVK.G Q92922:393 K.K[982.59]GQASLYGK[284.17]R.R Q92922:346 K.K[1253.68]GQASLYGK.R Q92922:346 K.K[1253.68]GQASLYGK.R Q92922:346 K.K[982.56]GQASLYGK[284.17]R.R Q92922:346 R.K[1244.69]ASANAR.K Q92922:317 R.K[1244.69]ASANAR.K Q92922:317 K.GQASLYGK[1253.68]R.R Q92922:354 R.K[284.17]DGGPATK[982.52]FWESPETVSQLDSVR.V Q92922:41 R.K[284.17]DGGPATK[982.56]FWESPETVSQLDSVR.V Q92922:41 R.K[284.17]DGGPATK[982.56]FWESPETVSQLDSVR.V Q92922:41 R.K[2671.31]ASANAR.K Q92922:317 R.K[284.17]DGGPATK[982.57]FWESPETVSQLDSVR.V Q92922:41 R.K[284.17]DGGPATK[982.49]FWESPETVSQLDSVR.V Q92922:41 R.K[284.17]DGGPATK[982.51]FWESPETVSQLDSVR.V Q92922:41 R.K[3337.81]ASANAR.K Q92922:317 R.K[3337.81]ASANAR.K Q92922:317 R.K[3337.81]ASANAR.K Q92922:317 R.K[3337.81]ASANAR.K Q92922:317 R.K[3337.81]ASANAR.K Q92922:317 R.K[3337.81]ASANAR.K Q92922:317 R.K[3747.08]ASANAR.K Q92922:317 K.TLAGLVVQLLQFQEDAFGK[982.48]HVTNPAFTKLPAK.C Q92922:94 R.K[3747.08]ASANAR.K Q92922:317 R.K[1879.98]ASANAR.K Q92922:317 R.K[1879.98]ASANAR.K Q92922:317 R.DRK[1879.98]ASANAR.K Q92922:317 R.DRK[1879.98]ASANAR.K Q92922:317 R.K[982.55]DGGPATK[284.17]FWESPETVSQLDSVR.V Q92922:34 R.RK[1253.68]DGGPATK.F Q92922:34 R.K[1038.57]ASANAR.K Q92922:317 R.K[1194.67]ASANAR.K Q92922:317 R.K[1194.67]ASANAR.K Q92922:317 R.K[1066.61]ASANAR.K Q92922:317 R.K[1253.68]ASANAR.K Q92922:317 R.K[3283.57]ASANAR.K Q92922:317 R.K[3283.57]ASANAR.K Q92922:317 K.GK[2795.41]QGGPTYYIDTNALR.V O96019:62 R.EK[3395.62]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[3395.62]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.GK[2795.41]QGGPTYYIDTNALR.V O96019:62 R.EK[3395.62]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[3395.62]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[3395.62]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.83]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.83]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.EK[1859.81]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.82]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.83]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VERK.C O96019:421 R.EK[1876.81]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.82]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.EK[1859.81]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.EK[1859.85]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.EK[1876.85]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2951.51]QC[160.03]VER.K O96019:421 R.EK[1859.84]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[1859.82]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VERK.C O96019:421 R.EK[1859.88]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2951.51]QC[160.03]VER.K O96019:421 R.EK[1859.85]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.84]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.82]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1876.89]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.REK[1859.81]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.81]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1876.88]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.EK[1859.88]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2951.51]QC[160.03]VER.K O96019:421 R.EK[1876.89]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1845.81]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[3260.59]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[3395.62]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.DDGSTLMEIDGDK[2795.41]GK.Q O96019:60 R.DDGSTLMEIDGDK[2795.47]GKQGGPTYYIDTNALR.V O96019:60 R.DDGSTLMEIDGDK[2795.41]GK.Q O96019:60 R.EK[3260.59]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.DDGSTLMEIDGDK[2795.41]GK.Q O96019:60 R.DDGSTLMEIDGDK[2795.41]GK.Q O96019:60 R.DDGSTLMEIDGDK[2795.41]GK.Q O96019:60 R.DDGSTLMEIDGDK[2795.47]GKQGGPTYYIDTNALR.V O96019:60 R.EK[1845.91]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[3395.62]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.DDGSTLMEIDGDK[2795.41]GK.Q O96019:60 K.REK[2777.39]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[2777.38]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[2777.41]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[2777.37]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[2777.44]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[2777.45]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[2811.45]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[2777.41]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[2777.4]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.REK[2777.44]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.ELSQK[1636.95]TPPSMR.L O96019:371 R.ELSQK[1793.05]TPPSMR.L O96019:371 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.61]SPLAGDFITMQC[160.03]R.E O96019:194 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3662.66]SPLAGDFITMQC[160.03]R.E O96019:194 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3662.66]SPLAGDFITMQC[160.03]R.E O96019:194 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.72]SPLAGDFITMQC[160.03]R.E O96019:194 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.73]SPLAGDFITMQC[160.03]R.E O96019:194 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.68]SPLAGDFITMQC[160.03]R.E O96019:194 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.68]SPLAGDFITMQC[160.03]R.E O96019:194 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.79]SPLAGDFITMQC[160.03]R.E O96019:194 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.61]SPLAGDFITM[147.04]QC[160.03]R.E O96019:194 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.64]SPLAGDFITMQC[160.03]R.E O96019:194 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.65]SPLAGDFITMQC[160.03]R.E O96019:194 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3646.69]SPLAGDFITM[147.04]QC[160.03]R.E O96019:194 R.STGLILDSGATHTTAIPVHDGYVLQQGIVK[3678.63]SPLAGDFITMQC[160.03]R.E O96019:194 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 R.ENMEAISPLK[4833.48]NGMVEDWDSFQAILDHTYK.M O96019:89 K.MHVK[4142]SEASLHPVLMSEAPWNTR.A O96019:112 K.MHVK[4142]SEASLHPVLMSEAPWNTR.A O96019:112 K.MHVK[4142]SEASLHPVLMSEAPWNTR.A O96019:112 K.MHVK[4142]SEASLHPVLMSEAPWNTR.A O96019:112 R.K[1309.68]EK[284.17]LPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1309.7]EK[284.17]LPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1309.69]EK[284.17]LPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1309.67]EK[284.17]LPQVTR.S O96019:240 R.K[1309.65]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1764.93]EKLPQVTR.S O96019:240 R.K[1764.93]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1291.68]EKLPQVTR.S O96019:240 R.K[1291.65]EKLPQVTR.S O96019:240 R.K[1291.66]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1309.69]EK[284.17]LPQVTR.S O96019:240 R.K[1764.93]EKLPQVTR.S O96019:240 R.K[1291.63]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1309.65]EKLPQVTR.S O96019:240 R.K[1309.71]EK[284.17]LPQVTR.S O96019:240 R.K[1291.66]EK[284.17]LPQVTR.S O96019:240 R.K[1764.93]EKLPQVTR.S O96019:240 R.K[1309.67]EK[284.17]LPQVTR.S O96019:240 R.K[1309.66]EK[284.17]LPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1309.67]EK[284.17]LPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1291.66]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.K[284.17]EK[1309.67]LPQVTR.S O96019:242 R.KEK[1291.65]LPQVTR.S O96019:242 R.EGSPANWK[1363.82]R.K O96019:238 R.K[284.17]EK[1309.67]LPQVTR.S O96019:242 R.KEK[1291.64]LPQVTR.S O96019:242 R.KEK[1309.68]LPQVTR.S O96019:242 R.KEK[1764.93]LPQVTR.S O96019:242 R.KEK[1309.66]LPQVTR.S O96019:242 R.KEK[1291.67]LPQVTR.S O96019:242 R.KEK[1291.66]LPQVTR.S O96019:242 R.KEK[1764.93]LPQVTR.S O96019:242 K.EK[1309.68]LPQVTR.S O96019:242 R.KEK[1764.93]LPQVTR.S O96019:242 K.EAVREGSPANWK[1519.89]R.K O96019:238 R.KEK[1764.93]LPQVTR.S O96019:242 R.KEK[1309.65]LPQVTR.S O96019:242 K.E[111.03]AVREGSPANWK[1363.8]R.K O96019:238 R.KEK[1309.68]LPQVTR.S O96019:242 R.KEK[1291.66]LPQVTR.S O96019:242 R.EGSPANWK[1363.82]R.K O96019:238 R.K[284.17]EK[1291.65]LPQVTR.S O96019:242 R.KEK[1291.69]LPQVTR.S O96019:242 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.KEK[1309.65]LPQVTR.S O96019:242 R.EGSPANWK[1363.82]R.K O96019:238 R.KEK[1309.69]LPQVTR.S O96019:242 R.KEK[1309.67]LPQVTR.S O96019:242 R.KEK[1309.66]LPQVTR.S O96019:242 R.KEK[1764.93]LPQVTR.S O96019:242 R.KEK[1309.68]LPQVTR.S O96019:242 K.EK[1437.77]LPQVTR.S O96019:242 R.KEK[1309.66]LPQVTR.S O96019:242 K.EK[1437.77]LPQVTR.S O96019:242 R.KEK[1291.65]LPQVTR.S O96019:242 R.AGYAGEDC[160.03]PK[2785.4]VDFPTAIGMVVER.D O96019:34 R.AGYAGEDC[160.03]PK[2785.4]VDFPTAIGMVVER.D O96019:34 R.AGYAGEDC[160.03]PK[2785.4]VDFPTAIGMVVER.D O96019:34 R.AGYAGEDC[160.03]PK[2785.4]VDFPTAIGMVVER.D O96019:34 K.M[147.04]HVK[2747.34]SEASLHPVLMSEAPWNTR.A O96019:112 K.MHVK[2763.28]SEASLHPVLMSEAPWNTR.A O96019:112 K.MHVK[2747.33]SEASLHPVLM[147.04]SEAPWNTR.A O96019:112 R.AGYAGEDC[160.03]PK[2785.4]VDFPTAIGMVVER.D O96019:34 K.M[147.04]HVK[2747.31]SEASLHPVLMSEAPWNTR.A O96019:112 R.AGYAGEDC[160.03]PK[2785.4]VDFPTAIGMVVER.D O96019:34 K.MHVK[2763.29]SEASLHPVLMSEAPWNTR.A O96019:112 R.AGYAGEDC[160.03]PK[2785.4]VDFPTAIGMVVER.D O96019:34 K.MHVK[4142]SEASLHPVLMSEAPWNTR.A O96019:112 K.MHVK[4142]SEASLHPVLMSEAPWNTR.A O96019:112 K.MHVK[4142]SEASLHPVLMSEAPWNTR.A O96019:112 R.K[1363.81]EK[284.17]LPQVTR.S O96019:240 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 R.DDGSTLM[147.04]EIDGDKGK[2747.31]QGGPTYYIDTNALR.V O96019:62 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.ELFQEMNIELVPPYMIASK[1519.89]EAVR.E O96019:226 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 K.SK[1710.92]SNSSAAR.E Q9BQE9:61 K.SK[1710.92]SNSSAAR.E Q9BQE9:61 K.SK[1710.92]SNSSAAR.E Q9BQE9:61 K.SK[1710.92]SNSSAAR.E Q9BQE9:61 K.TFGQK[3632.77]PVK[284.17]FQLEDDGEFYM[147.04]IGSEVGNYLR.M Q12824:13 R.GSLYK[1990.08]R.Y Q12824:45 K.YK[1180.67]AVSISTEPPTYLR.E Q12824:108 K.YK[1180.67]AVSISTEPPTYLR.E Q12824:108 R.EQK[988.57]AK[284.17]R.N Q12824:124 R.EQK[988.55]AKR.N Q12824:124 R.GQLSWHQK[1180.7]TYAFSENPLPTVEIAIR.N Q12824:324 R.GQLSWHQK[1180.67]TYAFSENPLPTVEIAIR.N Q12824:324 K.K[1582.84]IRDQDR.N Q12824:364 K.K[1582.84]IRDQDR.N Q12824:364 R.LDM[147.04]EIDGQK[1195.65]LR.D Q12824:199 K.K[1582.84]IRDQDR.N Q12824:364 K.K[1582.84]IRDQDR.N Q12824:364 K.K[1582.84]IRDQDR.N Q12824:364 K.K[1582.84]IRDQDR.N Q12824:364 K.K[1582.84]IRDQDR.N Q12824:364 K.K[1582.84]IRDQDR.N Q12824:364 R.LDM[147.04]EIDGQK[681.45]LR.D Q12824:199 K.K[1582.84]IRDQDR.N Q12824:364 K.K[1582.84]IRDQDR.N Q12824:364 K.K[1582.84]IRDQDR.N Q12824:364 K.K[1582.84]IRDQDR.N Q12824:364 R.SVTGK[1839.98]IQK.L P51532:496 R.SVTGK[1839.98]IQK.L P51532:496 K.LTK[1125.66]AVATYHANTEREQK.K P51532:502 R.SVTGK[2225.18]IQK.L P51532:496 K.K[2022.97]DKR.L P51532:546 R.Q[111.03]HK[811.49]AAQVAK.E P51532:572 K.VIHVESGK[2736.37]ILTGTDAPK.A P51532:626 R.WK[2030.14]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2030.14]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2030.14]YMIVDEGHR.M P51532:876 P51531:846 K.VIHVESGK[2151.07]ILTGTDAPK.A P51532:626 K.VIHVESGK[2151.07]ILTGTDAPK.A P51532:626 R.K[1139.63]PVDFK.K P51532:1503 P51531:1445 K.IK[1164.58]LGR.K P51532:1598 K.IK[1164.58]LGR.K P51532:1598 R.NHK[1164.58]YR.S P51532:1518 P51531:1460 K.YK[1094.66]DSSSGR.Q P51532:1473 K.YK[1300.71]DSSSGR.Q P51532:1473 R.IRNHK[851.56]YR.S P51532:1518 P51531:1460 R.K[982.54]EK[284.17]AQDR.L P51532:1602 R.K[1251.72]EKAQDR.L P51532:1602 R.K[1251.72]EKAQDR.L P51532:1602 R.IRNHK[1300.71]YR.S P51532:1518 P51531:1460 K.K[1717.93]SSR.K P51532:1408 K.K[1717.93]SSR.K P51532:1408 K.K[1931.95]SSR.K P51532:1408 K.K[1931.95]SSR.K P51532:1408 R.K[1154.65]RDSDAGSSTPTTSTR.S P51532:1414 K.K[2081.16]SSR.K P51532:1408 K.GGTK[4288.09]TLMNTIMQLR.K P51532:1033 K.GGTK[1922.88]TLMNTIMQLR.K P51532:1033 K.LIDQK[2011.05]K.D P51532:545 P51531:521 K.LIDQK[2011.05]K.D P51532:545 P51531:521 R.KLIDQK[1325.69]K.D P51532:545 P51531:521 K.LIDQK[1325.69]K.D P51532:545 P51531:521 K.LIDQK[1325.69]K.D P51532:545 P51531:521 K.KDK[2011.05]R.L P51532:548 K.AVATYHANTEREQK[1467.77]K.E P51532:516 R.IEK[2011.05]ER.M P51532:524 P51531:500 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 R.IEK[2011.05]ER.M P51532:524 P51531:500 R.IEK[2011.05]ER.M P51532:524 P51531:500 K.ENERIEK[2011.05]ER.M P51532:524 R.IEK[2011.05]ER.M P51532:524 P51531:500 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.AVATYHANTEREQK[1467.76]K.E P51532:516 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 R.YNQMK[2040.09]GMGMR.S P51532:94 R.YNQMK[2040.09]GMGMR.S P51532:94 R.GQPLPDHLQM[147.04]AVQGK[1480.69]R.P P51532:207 R.GQPLPDHLQM[147.04]AVQGK[1480.68]R.P P51532:207 R.GQPLPDHLQMAVQGK[1496.69]R.P P51532:207 R.YNQMK[2040.09]GMGMR.S P51532:94 R.GQPLPDHLQM[147.04]AVQGK[1496.67]R.P P51532:207 K.KK[939.54]IPDPDSDDVSEVDAR.H P51532:689 K.LIDQK[1467.77]K.D P51532:545 P51531:521 R.KLIDQK[1467.77]K.D P51532:545 P51531:521 R.KLIDQK[1467.77]K.D P51532:545 P51531:521 R.KLIDQK[1467.77]K.D P51532:545 P51531:521 R.KLIDQK[1467.77]K.D P51532:545 P51531:521 R.KLIDQK[1467.77]K.D P51532:545 P51531:521 R.KLIDQK[1467.77]K.D P51532:545 P51531:521 K.LIDQK[1467.77]K.D P51532:545 P51531:521 R.LC[160.03]TVNSVEEK[1502.85]ILAAAK.Y P51532:1213 P51531:1183 K.VSYK[2011.1]GSPAAR.R P51532:835 K.VSYK[2011.1]GSPAAR.R P51532:835 R.LC[160.03]TVNSVEEK[1300.7]ILAAAK.Y P51532:1213 P51531:1183 R.K[2828.48]ELPEYYELIR.K P51532:1492 P51531:1434 R.K[2828.48]ELPEYYELIR.K P51532:1492 P51531:1434 R.GMLLK[1718]TFNEPGSEYFIFLLSTR.A P51532:1140 K.VSYK[2828.48]GSPAAR.R P51532:835 R.GM[147.04]LLK[1300.68]TFNEPGSEYFIFLLSTR.A P51532:1140 R.GM[147.04]LLK[1300.68]TFNEPGSEYFIFLLSTR.A P51532:1140 R.GM[147.04]LLK[1300.69]TFNEPGSEYFIFLLSTR.A P51532:1140 R.GM[147.04]LLK[1300.68]TFNEPGSEYFIFLLSTR.A P51532:1140 K.AEDRGMLLK[1300.7]TFNEPGSEYFIFLLSTR.A P51532:1140 K.VK[1139.63]IK[284.17]LGR.K P51532:1596 K.VK[795.49]IK[284.17]LGR.K P51532:1596 K.VK[795.49]IK[284.17]LGR.K P51532:1596 R.K[1234.81]EK[284.17]AQDR.L P51532:1602 R.K[752.52]EK[284.17]AQDR.L P51532:1602 R.AQIMAYK[2040.09]MLAR.G P51532:188 R.AQIMAYK[2040.09]MLAR.G P51532:188 R.YNQMK[1560.85]GMGMR.S P51532:94 R.AQIMAYK[1480.69]M[147.04]LAR.G P51532:188 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LM[147.04]EEDELPSWIIK[1922.86]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LMEEDELPSWIIK[1922.92]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LMEEDELPSWIIK[1938.84]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LM[147.04]EEDELPSWIIK[1922.86]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.89]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LM[147.04]EEDELPSWIIK[1922.85]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1904.91]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LM[147.04]EEDELPSWIIK[1938.86]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.88]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LMEEDELPSWIIK[1922.93]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.84]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.87]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LMEEDELPSWIIK[1922.86]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1922.84]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.85]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LM[147.04]EEDELPSWIIK[1922.87]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LMEEDELPSWIIK[1922.83]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.9]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.82]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1922.81]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LM[147.04]EEDELPSWIIK[1922.84]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1922.87]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.94]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.84]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LMEEDELPSWIIK[1922.93]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.92]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LM[147.04]EEDELPSWIIK[1922.92]DDAEVER.L P51532:1349 P51531:1286 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.HRK[2085.03]EVDYSDSLTEK.Q P51532:1375 R.K[2085.03]RDSDAGSSTPTTSTR.S P51532:1414 K.VIQAGM[147.04]FDQK[1931.95]SSSHER.R P51532:1237 P51531:1207 R.LK[2085.03]GGR.R P51532:1610 K.VSYK[2085.03]GSPAAR.R P51532:835 K.VSYK[2085.03]GSPAAR.R P51532:835 K.VSYK[2085.03]GSPAAR.R P51532:835 K.VSYK[2241.13]GSPAAR.R P51532:835 K.VIQAGM[147.04]FDQK[1300.72]SSSHER.R P51532:1237 P51531:1207 R.SVK[795.49]VK[284.17]IK.L P51532:1594 P51531:1536 R.K[825.53]EK[284.17]AQDR.L P51532:1602 R.GFK[1931.95]YLR.L P51532:1122 R.GFK[1922.88]YLR.L P51532:1122 R.GFK[1971.99]YLR.L P51532:1122 R.GFK[1971.99]YLR.L P51532:1122 R.KEK[1048.6]AQDR.L P51532:1604 R.GFK[1717.93]YLR.L P51532:1122 R.GFK[1370.7]YLR.L P51532:1122 R.GFK[1370.7]YLR.L P51532:1122 R.GFK[1370.7]YLR.L P51532:1122 R.GFK[2081.16]YLR.L P51532:1122 R.GFK[982.53]YLR.L P51532:1122 R.WK[2151.07]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2022.97]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2022.97]YMIVDEGHR.M P51532:876 P51531:846 K.KK[2736.37]IPDPDSDDVSEVDAR.H P51532:689 K.K[2736.37]IPDPDSDDVSEVDAR.H P51532:689 K.KK[2736.37]IPDPDSDDVSEVDAR.H P51532:689 R.VDK[2196.23]QSALMVNGVLK.Q P51532:744 K.K[1931.95]IKER.I P51532:1509 P51531:1451 K.K[1931.95]IKER.I P51532:1509 P51531:1451 K.K[1931.95]IKER.I P51532:1509 P51531:1451 R.SVK[1931.95]VK.I P51532:1594 P51531:1536 R.K[1295.7]RDSDAGSSTPTTSTR.S P51532:1414 K.VSYK[1931.95]GSPAAR.R P51532:835 R.K[2081.16]RDSDAGSSTPTTSTR.S P51532:1414 K.YK[1931.95]DSSSGR.Q P51532:1473 R.NHK[1931.95]YR.S P51532:1518 P51531:1460 R.NHK[1931.95]YR.S P51532:1518 P51531:1460 R.IRNHK[1931.95]YR.S P51532:1518 P51531:1460 R.K[2030.14]RDSDAGSSTPTTSTR.S P51532:1414 R.K[1931.95]PVDFK.K P51532:1503 P51531:1445 R.K[1931.95]PVDFK.K P51532:1503 P51531:1445 R.LK[1931.95]GGR.R P51532:1610 R.LK[1931.95]GGR.R P51532:1610 R.LK[1931.95]GGR.R P51532:1610 R.LK[1931.95]GGRR.R P51532:1610 K.IK[1931.95]LGR.K P51532:1598 R.K[1931.95]ELPEYYELIR.K P51532:1492 P51531:1434 R.K[1931.95]ELPEYYELIR.K P51532:1492 P51531:1434 R.K[1931.95]ELPEYYELIR.K P51532:1492 P51531:1434 K.VSYK[1922.88]GSPAAR.R P51532:835 K.VSYK[1922.88]GSPAAR.R P51532:835 R.NHK[1922.88]YR.S P51532:1518 P51531:1460 R.IRNHK[1922.88]YR.S P51532:1518 P51531:1460 R.NHK[1922.88]YR.S P51532:1518 P51531:1460 R.LTC[160.03]EEEEEK[1971.99]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[1931.95]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[1931.93]M[147.04]FGR.G P51532:1365 R.LTC[160.03]EEEEEK[1931.95]M[147.04]FGR.G P51532:1365 R.LTC[160.03]EEEEEK[1931.95]MFGR.G P51532:1365 R.LK[1922.88]GGR.R P51532:1610 K.KK[811.5]IPDPDSDDVSEVDAR.H P51532:689 K.KDK[2022.97]R.L P51532:548 R.LK[1717.93]GGR.R P51532:1610 R.LK[1717.93]GGR.R P51532:1610 K.IK[1717.93]LGR.K P51532:1598 R.K[2030.14]ELPEYYELIR.K P51532:1492 P51531:1434 K.VSYK[1717.93]GSPAAR.R P51532:835 K.VSYK[1717.93]GSPAAR.R P51532:835 K.VSYK[1717.93]GSPAAR.R P51532:835 R.K[284.17]EK[795.5]AQDR.L P51532:1604 R.LK[1139.63]GGRR.R P51532:1610 R.ITEK[1323.71]LEK.Q P51532:455 R.ITEK[1323.71]LEK.Q P51532:455 R.ITEK[1451.81]LEK.Q P51532:455 K.QQK[1125.66]IEQER.K P51532:461 P51531:437 R.QHK[1698.86]AAQVAK.E P51532:572 K.K[2736.37]KIPDPDSDDVSEVDAR.H P51532:688 K.K[2736.37]KIPDPDSDDVSEVDAR.H P51532:688 R.HIIENAK[2151.02]QDVDDEYGVSQALAR.G P51532:711 R.HIIENAK[2307.14]QDVDDEYGVSQALAR.G P51532:711 R.HIIENAK[2307.12]QDVDDEYGVSQALAR.G P51532:711 R.IRNHK[1344.65]YR.S P51532:1518 P51531:1460 R.IRNHK[1344.65]YR.S P51532:1518 P51531:1460 R.DK[1251.72]DDESK.K P51532:1433 K.LIDQK[2151.07]K.D P51532:545 P51531:521 R.KLIDQK[2022.97]K.D P51532:545 P51531:521 K.LIDQK[2022.97]K.D P51532:545 P51531:521 R.KLIDQK[2151.07]K.D P51532:545 P51531:521 R.KLIDQK[2151.07]K.D P51532:545 P51531:521 K.LIDQK[2151.07]K.D P51532:545 P51531:521 R.KLIDQK[2151.07]K.D P51532:545 P51531:521 K.LIDQK[2151.07]K.D P51532:545 P51531:521 K.RK[1922.88]PR.L P51532:1334 P51531:1271 K.RK[1922.88]PR.L P51532:1334 P51531:1271 K.RK[1931.95]PR.L P51532:1334 P51531:1271 K.RK[1931.95]PR.L P51532:1334 P51531:1271 K.RK[1971.99]PR.L P51532:1334 P51531:1271 K.RK[1971.99]PR.L P51532:1334 P51531:1271 K.RK[1971.99]PR.L P51532:1334 P51531:1271 R.LDGTTK[1922.88]AEDR.G P51532:1131 R.LDGTTK[1922.88]AEDR.G P51532:1131 R.LTC[160.03]EEEEEK[1370.69]M[147.04]FGR.G P51532:1365 R.LDGTTK[1922.88]AEDR.G P51532:1131 R.LDGTTK[1931.95]AEDR.G P51532:1131 R.LDGTTK[1931.95]AEDR.G P51532:1131 R.LDGTTK[1931.95]AEDR.G P51532:1131 R.LDGTTK[1931.95]AEDR.G P51532:1131 K.YLRLDGTTK[1931.95]AEDR.G P51532:1131 R.LK[1370.7]GGRR.R P51532:1610 R.LK[1370.7]GGR.R P51532:1610 R.LK[1370.7]GGR.R P51532:1610 R.LK[1370.7]GGR.R P51532:1610 R.LDGTTK[1971.99]AEDR.G P51532:1131 R.HRK[1370.67]EVDYSDSLTEK.Q P51532:1375 R.LDGTTK[1971.99]AEDR.G P51532:1131 R.LDGTTK[1971.99]AEDR.G P51532:1131 R.LDGTTK[1717.93]AEDR.G P51532:1131 K.IK[1370.7]LGR.K P51532:1598 R.LDGTTK[1295.73]AEDR.G P51532:1131 K.K[1802.95]SSR.K P51532:1408 R.LDGTTK[1154.67]AEDR.G P51532:1131 K.VSYK[1370.7]GSPAAR.R P51532:835 K.VSYK[1370.7]GSPAAR.R P51532:835 K.VSYK[1802.95]GSPAAR.R P51532:835 K.VSYK[1370.7]GSPAAR.R P51532:835 K.VSYK[1802.95]GSPAAR.R P51532:835 R.GMLLK[1370.71]TFNEPGSEYFIFLLSTR.A P51532:1140 R.GM[147.04]LLK[1370.68]TFNEPGSEYFIFLLSTR.A P51532:1140 R.GM[147.04]LLK[1370.71]TFNEPGSEYFIFLLSTR.A P51532:1140 R.GM[147.04]LLK[1370.74]TFNEPGSEYFIFLLSTR.A P51532:1140 R.GM[147.04]LLK[1370.7]TFNEPGSEYFIFLLSTR.A P51532:1140 R.IRNHK[1370.7]YR.S P51532:1518 P51531:1460 K.K[1313.8]MKK.I P51532:1461 R.K[795.5]EK[284.17]AQDR.L P51532:1602 R.K[795.5]EK[284.17]AQDR.L P51532:1602 R.K[795.49]EK[284.17]AQDR.L P51532:1602 R.K[795.47]EK[284.17]AQDR.L P51532:1602 K.IK[2081.16]LGR.K P51532:1598 K.IK[2081.16]LGR.K P51532:1598 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.IRNHK[2081.16]YR.S P51532:1518 P51531:1460 R.IRNHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.IRNHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.IRNHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.NHK[2081.16]YR.S P51532:1518 P51531:1460 R.LK[2081.16]GGR.R P51532:1610 R.GRPPAEK[795.48]LSPNPPNLTK.K P51532:1450 R.K[2081.16]PVDFK.K P51532:1503 P51531:1445 R.K[2081.16]PVDFK.K P51532:1503 P51531:1445 R.K[2081.16]PVDFK.K P51532:1503 P51531:1445 K.K[2081.16]MKK.I P51532:1461 K.IK[1971.99]LGR.K P51532:1598 K.IK[1971.99]LGR.K P51532:1598 K.IK[1971.99]LGR.K P51532:1598 R.HRK[1717.9]EVDYSDSLTEK.Q P51532:1375 R.HRK[1717.92]EVDYSDSLTEK.Q P51532:1375 R.LK[1971.99]GGR.R P51532:1610 R.LK[1678.83]GGR.R P51532:1610 R.K[1971.99]RDSDAGSSTPTTSTR.S P51532:1414 R.K[1971.99]RDSDAGSSTPTTSTR.S P51532:1414 R.K[1971.99]RDSDAGSSTPTTSTR.S P51532:1414 R.K[1931.95]EVDYSDSLTEK.Q P51532:1375 R.NHK[1971.99]YR.S P51532:1518 P51531:1460 R.IRNHK[1971.99]YR.S P51532:1518 P51531:1460 R.HRK[982.53]EVDYSDSLTEK.Q P51532:1375 K.VSYK[1971.99]GSPAAR.R P51532:835 R.HRK[2081.16]EVDYSDSLTEK.Q P51532:1375 R.HRK[825.52]EVDYSDSLTEK.Q P51532:1375 R.LK[1300.71]GGR.R P51532:1610 R.LK[3090.29]GGR.R P51532:1610 R.LK[3090.29]GGR.R P51532:1610 R.LK[2030.14]GGR.R P51532:1610 R.WK[795.49]YMIVDEGHR.M P51532:876 P51531:846 R.WK[795.49]YMIVDEGHR.M P51532:876 P51531:846 K.VK[284.17]IK[1139.63]LGR.K P51532:1598 R.K[284.17]EK[851.58]AQDR.L P51532:1604 R.KEK[851.56]AQDR.L P51532:1604 K.IK[1139.63]LGR.K P51532:1598 R.K[1234.8]EK[284.17]AQDR.L P51532:1602 R.K[851.55]EK[284.17]AQDR.L P51532:1602 R.K[851.55]EK[284.17]AQDR.L P51532:1602 R.K[851.55]EKAQDR.L P51532:1602 R.K[851.56]EK[284.17]AQDR.L P51532:1602 K.IK[1139.63]LGR.K P51532:1598 K.IK[1441.89]ER.I P51532:1511 P51531:1453 K.IK[1313.8]ER.I P51532:1511 P51531:1453 K.KIK[1313.8]ER.I P51532:1511 P51531:1453 R.LK[1313.8]GGR.R P51532:1610 R.LHK[2736.37]VLRPFLLR.R P51532:970 P51531:940 R.LHK[2736.37]VLRPFLLR.R P51532:970 P51531:940 R.LHK[2736.37]VLRPFLLR.R P51532:970 P51531:940 R.WK[2736.37]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2736.37]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2736.37]YMIVDEGHR.M P51532:876 P51531:846 R.HIIENAK[1714.84]QDVDDEYGVSQALAR.G P51532:711 R.WK[2736.37]YMIVDEGHR.M P51532:876 P51531:846 R.HIIENAK[1714.8]QDVDDEYGVSQALAR.G P51532:711 R.WK[2736.37]YMIVDEGHR.M P51532:876 P51531:846 K.TIQTIALITYLMEHK[2736.37]R.I P51532:800 P51531:770 R.EQKK[939.54]ENER.I P51532:517 R.EQK[284.17]K[939.54]ENER.I P51532:517 K.K[1137.71]ENER.I P51532:517 K.LIDQK[1310.72]K.D P51532:545 P51531:521 K.YK[1931.95]LNVDQK.V P51532:1221 P51531:1191 K.ILAAAK[284.17]YK[1300.72]LNVDQK.V P51532:1221 P51531:1191 K.YK[1300.71]LNVDQK.V P51532:1221 P51531:1191 R.EEARNPK[1717.93]R.K P51532:1332 R.EEARNPK[1717.93]R.K P51532:1332 R.EEARNPK[1931.95]R.K P51532:1332 R.K[1264.69]PVDFK.K P51532:1503 P51531:1445 K.IQK[1264.69]LTK.A P51532:499 R.K[1154.66]RDSDAGSSTPTTSTR.S P51532:1414 R.K[1154.66]RDSDAGSSTPTTSTR.S P51532:1414 R.K[1154.68]RDSDAGSSTPTTSTR.S P51532:1414 R.QK[998.58]KSSR.K P51532:1407 R.AKDDIK[1311.76]K.V Q9BQE9:19 Q8WUZ0:19 R.WEK[2136.13]R.W Q8WUZ0:33 K.VMATIEK[1238.71]VR.R Q8WUZ0:27 R.AK[1311.76]DDIKK.V Q9BQE9:15 Q8WUZ0:15 K.VM[147.04]ATIEK[1082.61]VR.R Q8WUZ0:27 K.VM[147.04]ATIEK[1082.65]VR.R Q8WUZ0:27 R.AK[2136.13]DDIKK.V Q9BQE9:15 Q8WUZ0:15 R.AK[2136.13]DDIKK.V Q9BQE9:15 Q8WUZ0:15 R.AK[2136.13]DDIKK.V Q9BQE9:15 Q8WUZ0:15 K.VMATIEK[2136.13]VR.R Q8WUZ0:27 R.K[1526.85]WEK.K Q9BQE9:30 Q4VC05:30 R.K[1526.85]WEK.K Q9BQE9:30 Q4VC05:30 R.KWEK[1110.64]K.W Q9BQE9:33 Q4VC05:33 R.AK[1624.92]DDIKR.V Q4VC05:15 R.IYK[1266.72]WVPVTEPK.V Q4VC05:47 R.AK[1624.92]DDIKR.V Q4VC05:15 R.AK[1624.92]DDIKR.V Q4VC05:15 R.AK[1624.92]DDIKR.V Q4VC05:15 R.VMAAIEK[1266.72]VR.K Q9BQE9:27 Q4VC05:27 R.VMAAIEK[1266.72]VR.K Q9BQE9:27 Q4VC05:27 R.VMAAIEK[1266.72]VR.K Q9BQE9:27 Q4VC05:27 R.AK[1281.75]DDIKR.V Q4VC05:15 R.AK[1281.75]DDIKR.V Q4VC05:15 R.VM[147.04]AAIEK[1266.71]VR.K Q9BQE9:27 Q4VC05:27 R.VM[147.04]AAIEK[1110.64]VR.K Q9BQE9:27 Q4VC05:27 R.AK[1281.75]DDIKR.V Q4VC05:15 R.AK[1281.75]DDIKR.V Q4VC05:15 R.AK[1281.75]DDIKR.V Q4VC05:15 R.AK[1281.75]DDIKR.V Q4VC05:15 R.AK[1281.75]DDIKR.V Q4VC05:15 R.VM[147.04]AAIEK[1110.63]VR.K Q9BQE9:27 Q4VC05:27 R.AK[1281.75]DDIKR.V Q4VC05:15 R.AK[1526.85]DDIKR.V Q4VC05:15 R.K[1110.64]WEKK.W Q9BQE9:30 Q4VC05:30 K.K[1624.92]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 K.K[1624.92]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 K.K[1624.92]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 K.K[1624.92]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 K.K[1624.92]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 K.VDDK[1526.85]NKNK.K Q4VC05:59 K.VDDK[1526.85]NK.N Q4VC05:59 K.K[1920.04]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 K.K[1920.04]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 R.AKDDIK[1281.75]R.V Q4VC05:19 K.VDDK[1281.75]NKNK.K Q4VC05:59 R.VMAAIEK[1225.67]VRK.W Q9BQE9:27 Q4VC05:27 K.VDDK[1409.84]NKNK.K Q4VC05:59 K.VDDK[1281.75]NK.N Q4VC05:59 R.VMAAIEK[1526.85]VR.K Q9BQE9:27 Q4VC05:27 R.VMAAIEK[1526.85]VR.K Q9BQE9:27 Q4VC05:27 K.K[1297.74]WVTVGDTSLR.I Q9BQE9:34 Q4VC05:34 R.KWEK[1281.75]K.W Q9BQE9:33 Q4VC05:33 K.WEK[1281.75]K.W Q9BQE9:33 Q4VC05:33 R.VMAAIEK[1624.92]VR.K Q9BQE9:27 Q4VC05:27 R.IYK[1297.75]WVPVTEPK.V Q4VC05:47 R.IYK[1297.72]WVPVTEPK.V Q4VC05:47 R.VMAAIEK[1624.92]VR.K Q9BQE9:27 Q4VC05:27 K.K[1281.75]GKDEK.C Q4VC05:65 R.VM[147.04]AAIEK[983.58]VR.K Q9BQE9:27 Q4VC05:27 R.K[1281.75]WEKK.W Q9BQE9:30 Q4VC05:30 R.VM[147.04]AAIEK[855.48]VR.K Q9BQE9:27 Q4VC05:27 R.K[1281.75]WEK.K Q9BQE9:30 Q4VC05:30 R.K[1281.75]WEK.K Q9BQE9:30 Q4VC05:30 R.K[1281.75]WEK.K Q9BQE9:30 Q4VC05:30 R.VM[147.04]AAIEK[855.48]VR.K Q9BQE9:27 Q4VC05:27 R.K[1281.75]WEKK.W Q9BQE9:30 Q4VC05:30 R.K[1301.82]DLYANTVLSGGSTM[147.04]YPGIADR.M Q562R1:292 K.SHRNIK[4431.3]LLEDEPR.S Q8NFD5:1904 K.K[1465.93]NNLFVVDR.S Q8NFD5:1781 K.K[1465.93]NNLFVVDR.S Q8NFD5:1781 K.FDK[284.17]LPIK[1369.78]IVK.K Q8NFD5:1777 K.K[1465.93]NNLFVVDR.S Q8NFD5:1781 K.K[1465.93]NNLFVVDR.S Q8NFD5:1781 K.K[1075.71]NNLFVVDR.S Q8NFD5:1781 K.K[1465.93]NNLFVVDR.S Q8NFD5:1781 K.K[1465.93]NNLFVVDR.S Q8NFD5:1781 R.K[1812.96]LWVDR.Y Q8NFD5:1057 K.ITK[2151.12]VYELGNEPER.K Q8NFD5:1046 R.K[1812.96]LWVDR.Y Q8NFD5:1057 R.K[1812.96]LWVDR.Y Q8NFD5:1057 R.GSPVSSLPAVGK[284.17]K[1812.95]PLDLFR.L Q8NFD5:1083 K.K[1941.06]PLDLFR.L Q8NFD5:1083 K.K[1812.96]PLDLFR.L Q8NFD5:1083 R.GSPVSSLPAVGK[284.17]K[1812.93]PLDLFR.L Q8NFD5:1083 R.SSTISVHDPFSDVSDSSFPK[1919.87]R.N Q8NFD5:1237 R.SSTISVHDPFSDVSDSSFPK[1919.89]R.N Q8NFD5:1237 R.HMDGMYGPPAK[2560.24]R.H Q8NFD5:1372 R.HMDGMYGPPAK[2560.24]R.H Q8NFD5:1372 K.IVK[1522.87]KNNLFVVDR.S Q8NFD5:1780 R.QEK[1680.91]FYATLVR.Y Q8NFD5:2097 R.QEK[1680.91]FYATLVR.Y Q8NFD5:2097 R.NIK[1680.91]LLEDEPR.S Q8NFD5:1904 R.NIK[3456.74]LLEDEPR.S Q8NFD5:1904 R.NIK[1680.91]LLEDEPR.S Q8NFD5:1904 R.NIK[1680.91]LLEDEPR.S Q8NFD5:1904 R.NIK[3456.74]LLEDEPR.S Q8NFD5:1904 R.K[4426.14]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.K[4426.14]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.K[4426.14]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.K[4270.04]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.K[4270.04]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.K[4426.14]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1038.58]R.H Q8NFD5:1360 R.HMDGMYGPPAK[4426.14]R.H Q8NFD5:1372 R.HMDGMYGPPAK[4426.14]R.H Q8NFD5:1372 R.HMDGMYGPPAK[4426.14]R.H Q8NFD5:1372 R.HMDGMYGPPAK[4426.14]R.H Q8NFD5:1372 R.HMDGMYGPPAK[4426.14]R.H Q8NFD5:1372 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1640.77]R.H Q8NFD5:1360 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1640.76]R.H Q8NFD5:1360 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.76]R.H Q8NFD5:1360 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.77]R.H Q8NFD5:1360 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1656.77]R.H Q8NFD5:1360 R.HMDGMYGPPAK[4426.14]R.H Q8NFD5:1372 R.HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.78]R.H Q8NFD5:1360 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1640.84]R.H Q8NFD5:1360 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1624.8]R.H Q8NFD5:1360 R.HMDGMYGPPAK[4270.04]R.H Q8NFD5:1372 R.RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1656.75]R.H Q8NFD5:1360 R.HMDGMYGPPAK[4426.14]R.H Q8NFD5:1372 R.HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYK[1656.79]R.H Q8NFD5:1360 R.HMDGMYGPPAK[4270.04]R.H Q8NFD5:1372 R.K[1624.79]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.K[1624.79]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.K[1624.79]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.HMDGM[147.04]YGPPAK[1038.55]R.H Q8NFD5:1372 R.HM[147.04]DGM[147.04]YGPPAK[1038.57]R.H Q8NFD5:1372 R.HMDGM[147.04]YGPPAK[1038.55]R.H Q8NFD5:1372 R.HMDGM[147.04]YGPPAK[1038.55]R.H Q8NFD5:1372 R.HMDGM[147.04]YGPPAK[1038.54]R.H Q8NFD5:1372 R.LVLETLC[160.03]K[2336.13]LSIQDNNVDLILATPPFSR.Q Q8NFD5:2075 K.GVAC[160.03]SK[2002.98]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 R.APQTYEK[2574.2]EEDEDK.G Q8NFD5:1984 R.APQTYEK[2574.2]EEDEDK.G Q8NFD5:1984 K.GVAC[160.03]SK[2002.91]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 K.GVAC[160.03]SK[2002.96]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 K.GVAC[160.03]SK[1846.87]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 K.GVAC[160.03]SK[2003]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 K.GVAC[160.03]SK[1846.86]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 K.GVAC[160.03]SK[2002.97]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 R.APQTYEK[2574.2]EEDEDK.G Q8NFD5:1984 K.GVAC[160.03]SK[2002.97]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 K.GVAC[160.03]SK[2002.92]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 R.APQTYEK[2574.2]EEDEDK.G Q8NFD5:1984 R.APQTYEK[2574.2]EEDEDK.G Q8NFD5:1984 K.GVAC[160.03]SK[1846.9]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 K.K[1872.02]NNLFVVDR.S Q8NFD5:1781 R.NIK[1519.84]LLEDEPR.S Q8NFD5:1904 R.NIK[1519.84]LLEDEPR.S Q8NFD5:1904 R.NIK[1519.84]LLEDEPR.S Q8NFD5:1904 R.NIK[1519.84]LLEDEPR.S Q8NFD5:1904 R.K[1903.9]LWVDR.Y Q8NFD5:1057 R.K[2239.14]LWVDR.Y Q8NFD5:1057 R.SDK[3440.71]LGR.V Q8NFD5:1792 R.EITFPPGSVEASQPVLK[2649.33]QR.R Q8NFD5:1608 R.SRDETPLC[160.03]TIAHWQDSLAK[2348.27]R.C Q8NFD5:1930 R.SRDETPLC[160.03]TIAHWQDSLAK[2348.24]R.C Q8NFD5:1930 R.EITFPPGSVEASQPVLK[2649.33]QR.R Q8NFD5:1608 R.EITFPPGSVEASQPVLK[2649.33]QR.R Q8NFD5:1608 R.EITFPPGSVEASQPVLK[2649.33]QR.R Q8NFD5:1608 R.EITFPPGSVEASQPVLK[2649.33]QR.R Q8NFD5:1608 R.K[1903.9]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 R.MPYEPNK[4426.14]DPFGGMR.K Q8NFD5:1266 R.MPYEPNK[4426.14]DPFGGMR.K Q8NFD5:1266 R.HMDGMYGPPAK[1903.9]R.H Q8NFD5:1372 R.HMDGMYGPPAK[1903.9]R.H Q8NFD5:1372 R.MPYEPNK[1624.78]DPFGGM[147.04]R.K Q8NFD5:1266 R.MPYEPNK[2239.14]DPFGGMR.K Q8NFD5:1266 R.MPYEPNK[2239.14]DPFGGMR.K Q8NFD5:1266 R.SGHPSC[160.03]LQFTPVMMAAVK[2599.25]TYR.W Q92785:318 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 R.SGHPSC[160.03]LQFTPVMMAAVK[2443.1]TYR.W Q92785:318 R.SGHPSC[160.03]LQFTPVMM[147.04]AAVK[2087.93]TYR.W Q92785:318 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 R.SGHPSC[160.03]LQFTPVM[147.04]MAAVK[2087.93]TYR.W Q92785:318 R.SGHPSC[160.03]LQFTPVM[147.04]MAAVK[2087.91]TYR.W Q92785:318 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 R.SGHPSC[160.03]LQFTPVMMAAVK[2088.02]TYR.W Q92785:318 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.91]TYR.W Q92785:318 R.SGHPSC[160.03]LQFTPVM[147.04]MAAVK[2087.96]TYR.W Q92785:318 R.SGHPSC[160.03]LQFTPVMM[147.04]AAVK[2087.98]TYR.W Q92785:318 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.93]TYR.W Q92785:318 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 R.SGHPSC[160.03]LQFTPVMMAAVK[2088]TYR.W Q92785:318 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 R.LSFPSIK[1123.62]PDTDQTLK[284.17]K.E Q92785:99 R.TDPLEK[2854.49]R.G Q92785:130 R.LSFPSIK[1123.62]PDTDQTLKK.E Q92785:99 R.LSFPSIK[1123.62]PDTDQTLKK.E Q92785:99 R.LSFPSIK[1123.63]PDTDQTLK.K Q92785:99 R.LSFPSIK[1123.6]PDTDQTLKK.E Q92785:99 R.TDPLEK[1211.7]R.G Q92785:130 K.GK[1123.62]GVGSAR.K Q92785:188 K.GK[1123.62]GVGSAR.K Q92785:188 R.TDPLEK[2606.21]R.G Q92785:130 R.TDPLEK[2087.96]R.G Q92785:130 R.TDPLEK[4125.94]R.G Q92785:130 R.TDPLEK[4125.94]R.G Q92785:130 K.GK[2087.96]GVGSAR.K Q92785:188 K.GK[2087.96]GVGSAR.K Q92785:188 K.INK[284.17]K[996.57]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.SKGK[2087.96]GVGSAR.K Q92785:188 K.GK[4125.94]GVGSAR.K Q92785:188 K.GK[4125.94]GVGSAR.K Q92785:188 K.NRPGLSYHYAHSHLAEEEGEDK[996.57]EDSQPPTPVSQR.S Q92785:241 K.GK[4125.94]GVGSAR.K Q92785:188 R.SGHPSC[160.03]LQFTPVMMAAVK[996.53]TYR.W Q92785:318 K.GK[1552.88]GVGSAR.K Q92785:188 R.KK[1211.7]LDASILEDR.D Q92785:196 K.GK[1552.88]GVGSAR.K Q92785:188 K.GK[1552.88]GVGSAR.K Q92785:188 R.DK[1552.88]PYAC[160.03]DIC[160.03]GK[284.17]R.Y Q92785:207 R.DK[1552.89]PYAC[160.03]DIC[160.03]GK[284.17]R.Y Q92785:207 R.DK[1708.92]PYAC[160.03]DIC[160.03]GK[284.17]R.Y Q92785:207 R.TDPLEK[2083.16]R.G Q92785:130 R.TDPLEK[2083.16]R.G Q92785:130 R.TDPLEK[2083.16]R.G Q92785:130 K.K[2979.58]EGLISQDGSSLEALLR.T Q92785:108 K.K[2979.58]EGLISQDGSSLEALLR.T Q92785:108 K.PDTDQTLK[2081.2]KEGLISQDGSSLEALLR.T Q92785:107 K.PDTDQTLK[1955.07]K[284.17]EGLISQDGSSLEALLR.T Q92785:107 K.PDTDQTLK[1955.01]KEGLISQDGSSLEALLR.T Q92785:107 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 K.PDTDQTLK[1955.04]K[284.17]EGLISQDGSSLEALLR.T Q92785:107 K.PDTDQTLK[1955.08]K[284.17]EGLISQDGSSLEALLR.T Q92785:107 K.K[2961.44]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2961.44]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2833.34]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2961.44]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2961.44]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 R.SEEQK[4125.94]SK.K Q92785:258 R.SEEQK[4125.94]SK.K Q92785:258 K.NRPGLSYHYAHSHLAEEEGEDK[1100.54]EDSQPPTPVSQR.S Q92785:241 K.NRPGLSYHYAHSHLAEEEGEDK[1384.76]EDSQPPTPVSQR.S Q92785:241 R.SEEQK[4125.94]SK.K Q92785:258 R.LPFLDSQTGVAQSNC[160.03]YIWMEK[4125.94]RHR.G Q92785:59 R.LPFLDSQTGVAQSNC[160.03]YIWMEK[4125.94]RHR.G Q92785:59 K.K[4125.94]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 K.K[4125.94]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 R.SEEQK[2646.31]SK.K Q92785:258 R.SEEQK[2646.31]SK.K Q92785:258 R.SEEQK[2646.31]SK.K Q92785:258 R.SEEQK[2606.21]SK.K Q92785:258 R.SEEQK[2606.21]SK.K Q92785:258 R.SEEQK[2606.21]SK.K Q92785:258 R.SEEQK[2606.21]SK.K Q92785:258 R.SEEQK[2606.21]SK.K Q92785:258 R.SEEQK[2606.21]SK.K Q92785:258 K.K[1100.56]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 R.SEEQK[2606.21]SK.K Q92785:258 K.K[1100.52]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 R.SEEQK[2606.21]SK.K Q92785:258 K.K[1100.51]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 R.SEEQK[2606.21]SK.K Q92785:258 R.SGHPSC[160.03]LQFTPVMMAAVK[3218.48]TYR.W Q92785:318 R.SGHPSC[160.03]LQFTPVMMAAVK[3062.38]TYR.W Q92785:318 R.SGHPSC[160.03]LQFTPVMMAAVK[3218.48]TYR.W Q92785:318 K.GK[3218.48]GVGSAR.K Q92785:188 K.GK[3218.48]GVGSAR.K Q92785:188 K.SKGK[3218.48]GVGSAR.K Q92785:188 K.GK[3218.48]GVGSAR.K Q92785:188 K.GK[3218.48]GVGSAR.K Q92785:188 R.ILEPDDFLDDLDDEDYEEDTPK[996.53]R.R Q92785:178 K.GK[3062.38]GVGSAR.K Q92785:188 K.SK[3218.48]GK.G Q92785:186 R.ILEPDDFLDDLDDEDYEEDTPK[1367.79]RR.G Q92785:178 R.ILEPDDFLDDLDDEDYEEDTPK[1367.77]RR.G Q92785:178 R.K[3218.48]KLDASILEDR.D Q92785:195 R.K[3218.48]KLDASILEDR.D Q92785:195 R.ILEPDDFLDDLDDEDYEEDTPK[1708.94]RR.G Q92785:178 R.RGK[3062.38]GK.S Q92785:182 R.RGK[3062.38]GK.S Q92785:182 R.RGK[3062.38]GK.S Q92785:182 R.RGK[3062.38]GK.S Q92785:182 R.GKGK[3218.48]SK.G Q92785:184 R.GKGK[3218.48]SK.G Q92785:184 R.LSFPSIK[3218.48]PDTDQTLK.K Q92785:99 R.LSFPSIK[3218.48]PDTDQTLK.K Q92785:99 R.SEEQK[3062.38]SK.K Q92785:258 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 R.LSFPSIK[2081.16]PDTDQTLK[284.17]K.E Q92785:99 K.K[1955.1]EGLISQDGSSLEALLR.T Q92785:108 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 K.K[1955.11]EGLISQDGSSLEALLR.T Q92785:108 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 K.K[1955.1]EGLISQDGSSLEALLR.T Q92785:108 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 K.K[2854.49]EGLISQDGSSLEALLR.T Q92785:108 K.K[2081.14]EGLISQDGSSLEALLR.T Q92785:108 K.K[3218.48]EGLISQDGSSLEALLR.T Q92785:108 R.TDPLEK[2081.14]R.G Q92785:130 R.TDPLEK[2081.14]R.G Q92785:130 R.TDPLEK[2081.14]R.G Q92785:130 R.TDPLEK[2081.14]R.G Q92785:130 R.TDPLEK[2081.14]R.G Q92785:130 R.TDPLEK[2081.14]R.G Q92785:130 R.TDPLEK[2081.14]R.G Q92785:130 R.TDPLEK[2081.14]R.G Q92785:130 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 R.TDPLEK[2081.14]R.G Q92785:130 R.K[1052.58]LDQTIM[147.04]R.K Q6STE5:131 Q96GM5:156 R.VEGK[681.45]LLDDPSK.Q Q92925:237 Q6STE5:189 R.TPTTQETDGFQVK[3261.58]RPGDLSVR.C Q6STE5:241 R.YLAFTEEK[1169.64]AMGMTNLPAVGR.K O14497:1034 R.K[2464.25]PLDLYR.L O14497:1047 K.K[1898.05]SSSSTTTNEK.I O14497:997 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1769.96]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1769.96]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1769.96]PLDLYR.L O14497:1047 R.K[1769.96]PLDLYR.L O14497:1047 R.K[1769.96]PLDLYR.L O14497:1047 R.K[1769.96]PLDLYR.L O14497:1047 R.K[1769.96]MWVDR.Y O14497:1021 R.K[1769.96]MWVDR.Y O14497:1021 K.ITK[1115.58]LYELGGEPER.K O14497:1010 R.K[1769.96]MWVDR.Y O14497:1021 R.LEK[3064.51]LYSTMVR.F O14497:2146 R.LEK[3064.51]LYSTMVR.F O14497:2146 R.NIK[3220.54]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 K.LILLHHK[3064.51]HPER.K O14497:2020 K.LILLHHK[3064.51]HPERK.Q O14497:2020 K.LILLHHK[3064.51]HPER.K O14497:2020 R.K[1657.98]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 K.LILLHHK[3064.51]HPER.K O14497:2020 R.K[1657.96]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 R.K[1786.06]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 K.SSEAIK[3064.51]ESSK.F O14497:1934 K.SSEAIK[3064.51]ESSK.F O14497:1934 K.SSEAIK[3673.85]ESSKFPFGISPAQSHR.N O14497:1934 K.SSEAIK[1786.07]ESSK.F O14497:1934 K.SSEAIK[1657.98]ESSK.F O14497:1934 R.IGGGDTTEHIQTHFESK[2757.46]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 R.IGGGDTTEHIQTHFESK[2601.27]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 R.C[160.03]LIEIFGILK[3999.01]EYEVGDPGQR.T O14497:1732 R.C[160.03]LIEIFGILK[3999.01]EYEVGDPGQR.T O14497:1732 R.C[160.03]LIEIFGILK[3999.01]EYEVGDPGQR.T O14497:1732 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.NIK[1520.82]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.NIK[1504.78]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.NIK[1520.82]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 R.NIK[1520.81]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[1687.91]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.NIK[1520.82]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 R.LEK[1687.91]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.NIK[1504.83]ILEDEPHSK[284.17]DETPLC[160.03]TLLDWQDSLAK.R O14497:1953 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[1687.91]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 K.LILLHHK[3673.85]HPERK.Q O14497:2020 K.LILLHHK[3673.85]HPERK.Q O14497:2020 K.LILLHHK[3673.85]HPER.K O14497:2020 R.NIK[1786.07]ILEDEPHSK.D O14497:1953 R.NIK[1657.96]ILEDEPHSK.D O14497:1953 R.NIK[1657.97]ILEDEPHSK.D O14497:1953 K.LILLHHK[1687.92]HPERK.Q O14497:2020 K.LILLHHK[1687.91]HPER.K O14497:2020 R.NIK[1786.07]ILEDEPHSK.D O14497:1953 K.LILLHHK[3673.85]HPER.K O14497:2020 K.LILLHHK[3673.85]HPERK.Q O14497:2020 K.FDK[1940.01]LPVK.I O14497:1811 K.FDK[1940.01]LPVK.I O14497:1811 K.FDK[1940.01]LPVK.I O14497:1811 R.K[2762.24]PLDLYR.L O14497:1047 R.K[2762.24]PLDLYR.L O14497:1047 R.K[2538.2]PLDLYR.L O14497:1047 R.K[1939.88]PLDLYR.L O14497:1047 R.K[1939.88]PLDLYR.L O14497:1047 R.MSYEPNK[1169.71]DPYGSM[147.04]R.K O14497:1230 R.K[1434.72]PLDLYR.L O14497:1047 R.K[1434.72]PLDLYR.L O14497:1047 R.K[1434.72]PLDLYR.L O14497:1047 R.K[1434.72]PLDLYR.L O14497:1047 K.SSEAIK[3064.51]ESSKFPFGISPAQSHR.N O14497:1934 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[2655.37]R.I O14497:1905 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1657.95]R.I O14497:1905 K.LILLHHK[3064.51]HPER.K O14497:2020 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1657.95]R.I O14497:1905 K.LILLHHK[3064.51]HPER.K O14497:2020 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1657.98]R.I O14497:1905 K.LILLHHK[3064.51]HPER.K O14497:2020 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1657.98]R.I O14497:1905 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1786.09]R.I O14497:1905 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1786.08]R.I O14497:1905 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1658.01]R.I O14497:1905 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1786.06]R.I O14497:1905 K.LILLHHK[3064.51]HPER.K O14497:2020 R.NIKILEDEPHSK[3064.53]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 R.NIKILEDEPHSK[3064.45]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 R.NIK[3220.63]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1504.78]R.I O14497:1905 R.SSTLTEDGAK[3064.51]SSEAIK.E O14497:1928 R.SSTLTEDGAK[3064.51]SSEAIK.E O14497:1928 R.SSTLTEDGAK[3064.51]SSEAIKESSK.F O14497:1928 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1888.96]R.I O14497:1905 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.K[1939.84]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1939.81]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.K[1939.88]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1939.83]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.83]APGSDPFMSSGQGPNGGM[147.04]GDPYSR.A O14497:1238 R.K[1939.83]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.86]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.82]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.91]APGSDPFMSSGQGPNGGM[147.04]GDPYSR.A O14497:1238 R.K[1939.83]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.88]APGSDPFMSSGQGPNGGM[147.04]GDPYSR.A O14497:1238 R.K[1955.82]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.MSYEPNK[1038.54]DPYGSMR.K O14497:1230 R.LTMK[1939.88]DIGTPEAWR.V O14497:1662 R.LTMK[1939.88]DIGTPEAWR.V O14497:1662 K.IVQK[2504.38]NDPFVVDC[160.03]SDKLGR.V O14497:1819 R.IGGGDTTEHIQTHFESK[1887.02]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 R.NIKILEDEPHSK[1786.02]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 K.LILLHHK[3318.63]HPER.K O14497:2020 R.NIK[284.17]ILEDEPHSK[1504.79]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.NIKILEDEPHSK[1504.77]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 R.K[1657.98]QAPLTYEK.E O14497:2025 R.RLTM[147.04]K[1782.91]DIGTPEAWR.V O14497:1662 R.SSTLTEDGAK[2040.04]SSEAIK.E O14497:1928 R.SSTLTEDGAK[2040.04]SSEAIK.E O14497:1928 K.E[111.03]SSK[1888.96]FPFGISPAQSHR.N O14497:1938 K.ESSK[1888.97]FPFGISPAQSHR.N O14497:1938 R.SSTLTEDGAK[2040.04]SSEAIK.E O14497:1928 K.E[111.03]SSK[1888.95]FPFGISPAQSHR.N O14497:1938 K.E[111.03]SSK[1888.95]FPFGISPAQSHR.N O14497:1938 R.SSTLTEDGAK[2040.04]SSEAIK.E O14497:1928 K.E[111.03]SSK[1888.98]FPFGISPAQSHR.N O14497:1938 R.SSTLTEDGAK[2040.04]SSEAIK.E O14497:1928 R.SSTLTEDGAK[2040.04]SSEAIK.E O14497:1928 R.SSTLTEDGAK[2040.04]SSEAIK.E O14497:1928 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.SNSVGIQDAFNDGSDSTFQK[1939.84]R.N O14497:1201 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.SNSVGIQDAFNDGSDSTFQK[1955.86]R.N O14497:1201 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.K[2538.12]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.SNSVGIQDAFNDGSDSTFQK[2762.24]R.N O14497:1201 R.K[2464.25]MWVDR.Y O14497:1021 R.K[1169.68]MWVDR.Y O14497:1021 R.SLSFVPGNDFEMSK[1786.08]HPGLLLILGK.L O14497:2003 R.SLSFVPGNDFEMSK[1657.92]HPGLLLILGK.L O14497:2003 K.LILLHHK[2864.55]HPER.K O14497:2020 K.LILLHHK[2864.55]HPERK.Q O14497:2020 R.SLSFVPGNDFEMSK[1657.97]HPGLLLILGK.L O14497:2003 K.LILLHHK[2864.55]HPER.K O14497:2020 K.LILLHHK[2864.55]HPER.K O14497:2020 K.LILLHHK[2864.55]HPER.K O14497:2020 K.LILLHHK[2864.55]HPER.K O14497:2020 K.LILLHHK[2864.55]HPER.K O14497:2020 R.SLSFVPGNDFEMSK[1786.02]HPGLLLILGK.L O14497:2003 K.LILLHHK[2864.55]HPER.K O14497:2020 K.LILLHHK[2864.55]HPER.K O14497:2020 K.LILLHHK[2864.55]HPER.K O14497:2020 K.LILLHHK[2864.55]HPER.K O14497:2020 K.LILLHHK[2864.55]HPER.K O14497:2020 K.ADGTPK[1382.76]TESK.S O14497:990 K.KSSSSTTTNEK[1038.56]ITK.L O14497:1007 R.K[1648.85]MWVDR.Y O14497:1021 R.K[1648.85]MWVDR.Y O14497:1021 R.LEK[2040.04]LYSTMVR.F O14497:2146 K.ESSK[1520.82]FPFGISPAQSHR.N O14497:1938 K.LILLHHK[2040.04]HPERK.Q O14497:2020 K.LILLHHK[2712.32]HPER.K O14497:2020 K.LILLHHK[2712.32]HPER.K O14497:2020 K.LILLHHK[2712.32]HPER.K O14497:2020 K.LILLHHK[3464.74]HPER.K O14497:2020 K.LILLHHK[3464.74]HPER.K O14497:2020 R.IGGGDTTEHIQTHFESK[3220.64]TELLPSRPHAPC[160.03]PPAPR.K O14497:1862 R.K[3999.01]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 R.K[3999.01]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 K.K[2571.3]AEQQQR.E O14497:26 K.K[2571.3]AEQQQREEAGGEAAAAAAAER.G O14497:26 R.GEMK[2507.23]AAAGQESEGPAVGPPQPLGK.E O14497:51 K.K[2571.3]AEQQQREEAGGEAAAAAAAER.G O14497:26 K.K[2571.3]AEQQQR.E O14497:26 R.GEM[147.04]K[2507.25]AAAGQESEGPAVGPPQPLGK.E O14497:51 K.K[3925.91]AEQQQR.E O14497:26 K.K[2571.3]AEQQQR.E O14497:26 R.VAPEEHPVLLTEAPLNPK[719.37]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.35]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.36]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.37]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.35]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.38]ANR.E P60709:113 R.EIVRDIK[2560.4]EK.L P60709:213 R.EIVRDIK[2560.4]EK.L P60709:213 R.VAPEEHPVLLTEAPLNPK[3775.9]ANR.E P60709:113 R.K[1429.91]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.82]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1429.88]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1429.91]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.77]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.81]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2600.5]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.8]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.79]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.82]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2600.45]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2600.45]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.48]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2600.53]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2598.5]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.8]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.81]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.79]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2600.5]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.8]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1429.88]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.75]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.81]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2598.44]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.76]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2600.49]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2600.42]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.84]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.76]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.85]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2598.47]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.79]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.76]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2598.52]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.84]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.48]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.46]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.48]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.44]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.51]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.EITALAPSTMK[2608.32]IK.I P60709:326 R.K[2598.5]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.45]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.5]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.5]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.45]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.56]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2598.48]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1683.94]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 K.EITALAPSTMK[2608.32]IK.I P60709:326 R.K[2598.49]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.51]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.EITALAPSTMK[2608.32]IK.I P60709:326 R.K[2600.46]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.EITALAPSTMK[2608.32]IK.I P60709:326 K.EITALAPSTMK[2608.32]IK.I P60709:326 R.K[2600.5]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1668]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2598.48]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.45]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1667.89]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.EITALAPSTMK[2608.32]IK.I P60709:326 R.K[2600.5]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.EITALAPSTMK[2608.32]IK.I P60709:326 K.EITALAPSTMK[2608.32]IK.I P60709:326 R.K[1667.92]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1683.93]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.53]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.EITALAPSTM[147.04]K[2608.3]IK[284.17]IIAPPER.K P60709:326 R.K[2600.45]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[2600.44]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.49]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1667.92]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1667.96]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1667.9]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.45]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.EITALAPSTM[147.04]K[2608.27]IK[284.17]IIAPPER.K P60709:326 K.EITALAPSTMK[2608.32]IK.I P60709:326 R.K[2600.48]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.47]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1683.94]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.54]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.45]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1665.9]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1683.9]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2600.52]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.GILTLK[1619.82]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.HQGVMVGM[147.04]GQK[284.17]DSYVGDEAQSK[2928.51]R.G P60709:61 R.HQGVMVGMGQK[284.17]DSYVGDEAQSK[2788.31]R.G P60709:61 R.HQGVMVGM[147.04]GQK[2928.51]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2960.28]YPIEHGIVTNWDDMEKIWHHTFYNELR.V P60709:68 R.GILTLK[2944.46]YPIEHGIVTNWDDMEKIWHHTFYNELR.V P60709:68 R.GILTLK[2928.45]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2944.47]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2928.45]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2944.4]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2928.44]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2944.46]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2960.37]YPIEHGIVTNWDDMEKIWHHTFYNELR.V P60709:68 R.HQGVMVGM[147.04]GQK[2837.48]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2944.43]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2928.45]YPIEHGIVTNWDDM[147.04]EK[284.17]IWHHTFYNELR.V P60709:68 R.HQGVMVGMGQK[2853.52]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2944.44]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2928.42]YPIEHGIVTNWDDM[147.04]EK[284.17]IWHHTFYNELR.V P60709:68 R.GILTLK[2944.44]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2960.46]YPIEHGIVTNWDDMEKIWHHTFYNELR.V P60709:68 R.GILTLK[2944.54]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.HQGVMVGMGQK[2853.49]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2960.44]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.HQGVMVGM[147.04]GQK[2853.5]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVM[147.04]VGM[147.04]GQK[2837.47]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2788.35]YPIEHGIVTNWDDMEK.I P60709:68 R.GILTLK[2788.39]YPIEHGIVTNWDDMEK.I P60709:68 R.HQGVMVGMGQK[2853.49]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGMGQK[2853.48]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2928.44]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2928.42]YPIEHGIVTNWDDM[147.04]EK[284.17]IWHHTFYNELR.V P60709:68 R.HQGVMVGM[147.04]GQK[2837.52]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2960.42]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2772.35]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.HQGVM[147.04]VGM[147.04]GQK[2853.46]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2928.54]YPIEHGIVTNWDDM[147.04]EK[284.17]IWHHTFYNELR.V P60709:68 R.GILTLK[2928.35]YPIEHGIVTNWDDM[147.04]EK[284.17]IWHHTFYNELR.V P60709:68 R.HQGVMVGMGQK[2853.47]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2944.44]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.HQGVM[147.04]VGM[147.04]GQK[2853.47]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGM[147.04]GQK[2837.49]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGMGQK[2853.45]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2788.4]YPIEHGIVTNWDDMEK.I P60709:68 R.GILTLK[2960.39]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.HQGVMVGM[147.04]GQK[2853.45]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGM[147.04]GQK[2853.52]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2928.42]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.HQGVMVGM[147.04]GQK[2853.47]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGM[147.04]GQK[2853.48]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGM[147.04]GQK[2853.44]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGMGQK[2853.5]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2928.43]YPIEHGIVTNWDDM[147.04]EKIWHHTFYNELR.V P60709:68 R.GILTLK[2788.29]YPIEHGIVTNWDDMEK.I P60709:68 R.HQGVM[147.04]VGM[147.04]GQK[2837.44]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGMGQK[2853.51]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGMGQK[2853.54]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGMGQK[2853.55]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVM[147.04]VGM[147.04]GQK[2837.51]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGM[147.04]GQK[2837.47]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2788.42]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.HQGVMVGM[147.04]GQK[2837.56]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGMGQK[2853.45]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGM[147.04]GQK[2853.52]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVMVGM[147.04]GQK[2853.48]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVM[147.04]VGM[147.04]GQK[2853.45]DSYVGDEAQSK[284.17]R.G P60709:50 R.GILTLK[2788.33]YPIEHGIVTNWDDM[147.04]EK.I P60709:68 R.HQGVMVGMGQK[2853.53]DSYVGDEAQSK[284.17]R.G P60709:50 R.HQGVM[147.04]VGMGQK[2853.55]DSYVGDEAQSK[284.17]R.G P60709:50 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 R.VTASSGITIPK[1764.94]PPK.P Q969G3:61 R.HQEK[1735.97]KR.K Q969G3:255 R.K[1246.7]LEAELLQIEER.H Q969G3:240 R.HQEK[1735.97]K.R Q969G3:255 R.HQEKK[1735.97]R.K Q969G3:256 R.K[284.17]FLESTDSFNNELK[1039.61]R.L Q969G3:271 R.MQVLK[1824.01]R.Q Q969G3:228 R.MQVLK[1824.01]R.Q Q969G3:228 R.HQEK[1039.62]K[284.17]R.K Q969G3:255 R.LC[160.03]GLK[1039.61]VEVDM[147.04]EK.I Q969G3:277 R.K[1039.62]RQEER.E Q969G3:298 R.MQVLK[1110.61]R.Q Q969G3:228 R.MQVLK[1735.97]R.Q Q969G3:228 R.MQVLK[1735.97]R.Q Q969G3:228 R.MQVLK[1735.97]R.Q Q969G3:228 R.K[1039.61]LEAELLQIEER.H Q969G3:240 R.HQEKK[1936.98]R.K Q969G3:256 K.PPDK[2098.2]PLMPYMR.Y Q969G3:68 R.MEK[2204.11]GEPYMSIQPAEDPDDYDDGFSMK[284.17]HTATAR.F Q969G3:166 R.K[2204.14]RQEER.E Q969G3:298 R.MQVLK[2204.14]R.Q Q969G3:228 R.MQVLK[2204.14]R.Q Q969G3:228 R.DLTDEEK[2955.45]QEYLNEYEAEK.I Q969G3:112 R.DLTDEEK[2955.45]QEYLNEYEAEK.I Q969G3:112 R.KFLESTDSFNNELK[3066.57]R.L Q969G3:271 R.LC[160.03]GLK[1964.98]VEVDMEK.I Q969G3:277 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[1701.86]R.L Q969G3:271 R.KFLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[1701.86]R.L Q969G3:271 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[1701.86]R.L Q969G3:271 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 R.K[284.17]FLESTDSFNNELK[1685.89]R.L Q969G3:271 R.KFLESTDSFNNELK[3066.57]R.L Q969G3:271 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 R.LC[160.03]GLK[1964.98]VEVDMEK.I Q969G3:277 K.FLESTDSFNNELK[1685.88]R.L Q969G3:271 R.KFLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[1685.83]R.L Q969G3:271 R.LC[160.03]GLK[1965]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 R.LC[160.03]GLK[1964.98]VEVDMEK.I Q969G3:277 R.LC[160.03]GLK[1964.98]VEVDMEK.I Q969G3:277 R.KFLESTDSFNNELK[1701.84]R.L Q969G3:271 K.FLESTDSFNNELK[1701.87]R.L Q969G3:271 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 R.LC[160.03]GLK[1964.97]VEVDM[147.04]EKIAAEIAQAEEQAR.K Q969G3:277 R.KFLESTDSFNNELK[1701.85]R.L Q969G3:271 K.FLESTDSFNNELK[1701.86]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.86]R.L Q969G3:271 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 R.KFLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[1701.86]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.86]R.L Q969G3:271 R.LC[160.03]GLK[1964.98]VEVDMEK.I Q969G3:277 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 R.KFLESTDSFNNELK[3066.57]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.86]R.L Q969G3:271 R.K[284.17]FLESTDSFNNELK[1701.89]R.L Q969G3:271 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 R.LC[160.03]GLK[1964.98]VEVDMEK.I Q969G3:277 K.FLESTDSFNNELK[1685.85]R.L Q969G3:271 R.K[284.17]FLESTDSFNNELK[1701.82]R.L Q969G3:271 K.FLESTDSFNNELK[1701.89]R.L Q969G3:271 R.KFLESTDSFNNELK[1685.84]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.83]R.L Q969G3:271 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 R.KFLESTDSFNNELK[1701.87]R.L Q969G3:271 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 R.K[284.17]FLESTDSFNNELK[1685.89]R.L Q969G3:271 K.FLESTDSFNNELK[1701.86]R.L Q969G3:271 K.FLESTDSFNNELK[1701.87]R.L Q969G3:271 K.FLESTDSFNNELK[1701.9]R.L Q969G3:271 K.FLESTDSFNNELK[1701.89]R.L Q969G3:271 K.FLESTDSFNNELK[1701.82]R.L Q969G3:271 R.LC[160.03]GLK[1964.98]VEVDMEK.I Q969G3:277 R.K[2093.08]RQEER.E Q969G3:298 K.FLESTDSFNNELK[2495.29]RLC[160.03]GLK.V Q969G3:271 K.FLESTDSFNNELK[2495.19]RLC[160.03]GLK.V Q969G3:271 K.FLESTDSFNNELK[2495.27]RLC[160.03]GLK.V Q969G3:271 R.LC[160.03]GLK[284.17]VEVDMEK[1950.89]IAAEIAQAEEQAR.K Q969G3:284 R.LC[160.03]GLK[284.17]VEVDMEK[1951.01]IAAEIAQAEEQAR.K Q969G3:284 R.MEK[1039.59]GEPYMSIQPAEDPDDYDDGFSMK[284.17]HTATAR.F Q969G3:166 R.K[1425.71]RQEER.E Q969G3:298 R.K[1425.71]RQEER.E Q969G3:298 R.K[1425.71]RQEER.E Q969G3:298 R.HQEK[1964.98]K.R Q969G3:255 R.KFLESTDSFNNELK[1246.72]R.L Q969G3:271 R.K[1246.7]FLESTDSFNNELK[284.17]R.L Q969G3:258 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.K[1246.68]FLESTDSFNNELKR.L Q969G3:258 R.K[934.52]FLESTDSFNNELKR.L Q969G3:258 R.K[1246.69]FLESTDSFNNELKR.L Q969G3:258 R.K[1246.69]FLESTDSFNNELK[284.17]R.L Q969G3:258 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.K[1246.72]FLESTDSFNNELKR.L Q969G3:258 R.HQEK[1936.98]KR.K Q969G3:255 R.HQEK[2093.08]K.R Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.K[1090.64]FLESTDSFNNELKR.L Q969G3:258 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]K.R Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.K[1090.59]FLESTDSFNNELKR.L Q969G3:258 R.LC[160.03]GLK[1967.93]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 R.LC[160.03]GLK[1968]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 R.LC[160.03]GLK[1967.97]VEVDM[147.04]EKIAAEIAQAEEQAR.K Q969G3:277 R.LC[160.03]GLK[1967.87]VEVDMEK[284.17]IAAEIAQAEEQAR.K Q969G3:277 K.K[998.58]IK[284.17]ER.I P51532:1509 P51531:1451 K.K[998.58]IK[284.17]ER.I P51532:1509 P51531:1451 K.ELPEYYELIRK[998.56]PVDFK.K P51532:1503 P51531:1445 R.K[982.54]PVDFK[284.17]K.I P51532:1503 P51531:1445 R.K[1251.72]PVDFK[284.17]K.I P51532:1503 P51531:1445 R.K[1251.72]PVDFK.K P51532:1503 P51531:1445 R.K[1251.72]PVDFKK.I P51532:1503 P51531:1445 R.K[1251.72]PVDFK.K P51532:1503 P51531:1445 R.K[982.53]PVDFKK.I P51532:1503 P51531:1445 R.K[1251.72]PVDFK.K P51532:1503 P51531:1445 R.K[1251.72]PVDFK.K P51532:1503 P51531:1445 R.IRNHK[998.56]YR.S P51532:1518 P51531:1460 R.K[1251.72]PVDFK.K P51532:1503 P51531:1445 R.K[1251.72]PVDFKK.I P51532:1503 P51531:1445 R.K[1251.72]PVDFK.K P51532:1503 P51531:1445 R.IRNHK[810.5]YR.S P51532:1518 P51531:1460 R.K[939.53]LIDQKK.D P51532:540 P51531:516 R.K[284.17]LIDQK[939.53]K.D P51532:545 P51531:521 R.K[284.17]LIDQK[939.55]K.D P51532:545 P51531:521 R.KLIDQK[939.54]K.D P51532:545 P51531:521 R.IEK[1137.71]ER.M P51532:524 P51531:500 R.LHK[939.54]VLRPFLLR.R P51532:970 P51531:940 K.RK[2682.31]PR.L P51532:1334 P51531:1271 K.RK[2682.31]PR.L P51532:1334 P51531:1271 K.RK[1717.93]PR.L P51532:1334 P51531:1271 R.DVDYSDALTEK[1904.92]QWLR.A P51531:1323 R.DVDYSDALTEK[1904.97]QWLR.A P51531:1323 R.LMEEDELPSWIIK[1717.89]DDAEVER.L P51532:1349 P51531:1286 R.K[2682.31]ELPEYYELIR.K P51532:1492 P51531:1434 R.LMEEDELPSWIIK[1904.89]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1904.9]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1904.87]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1904.89]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1904.98]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1904.93]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1904.95]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1904.88]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1904.88]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1904.88]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1904.86]DDAEVER.L P51532:1349 P51531:1286 R.LMEEDELPSWIIK[1904.9]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1904.87]DDAEVER.L P51532:1349 P51531:1286 R.K[2085.03]ELPEYYELIR.K P51532:1492 P51531:1434 K.VIQAGMFDQK[1717.91]SSSHERR.A P51532:1237 P51531:1207 K.DFK[2236.16]EYHR.S P51532:487 P51531:463 K.DFK[2236.16]EYHR.S P51532:487 P51531:463 K.AVATWHANTEREQK[1009.61]K.E P51531:492 R.EQK[1137.68]KETER.I P51531:492 K.LIDQK[1312.7]KDR.R P51531:521 K.ETERIEK[2034.06]ER.M P51531:500 K.ETERIEK[2034.06]ER.M P51531:500 K.ETERIEK[2034.06]ER.M P51531:500 K.GGAK[2104.05]TLMNTIMQLR.K P51531:1003 R.AALLK[1388.75]K.F P51531:1110 R.AALLK[1388.75]K.F P51531:1110 K.DK[2453.28]HILAK.I P51532:867 P51531:837 K.DK[2453.28]HILAK.I P51532:867 P51531:837 K.DK[2453.28]HILAK.I P51532:867 P51531:837 K.DK[2453.28]HILAK.I P51532:867 P51531:837 K.DK[2712.41]HILAK.I P51532:867 P51531:837 K.DK[2453.28]HILAK.I P51532:867 P51531:837 K.NHHC[160.03]K[1514.92]LTQVLNTHYVAPR.R P51532:892 P51531:862 K.DK[2712.41]HILAK.I P51532:867 P51531:837 R.MK[284.17]NHHC[160.03]K[1514.89]LTQVLNTHYVAPR.R P51532:892 P51531:862 K.DK[2453.28]HILAK.I P51532:867 P51531:837 K.NHHC[160.03]K[1514.89]LTQVLNTHYVAPR.R P51532:892 P51531:862 K.NHHC[160.03]K[1514.94]LTQVLNTHYVAPR.R P51532:892 P51531:862 K.DK[2453.28]HILAK.I P51532:867 P51531:837 R.MK[284.17]NHHC[160.03]K[1089.64]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MK[284.17]NHHC[160.03]K[1514.91]LTQVLNTHYVAPR.R P51532:892 P51531:862 K.NHHC[160.03]K[1514.95]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MK[284.17]NHHC[160.03]K[1089.6]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MK[284.17]NHHC[160.03]K[1514.89]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.M[147.04]KNHHC[160.03]K[1089.64]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.M[147.04]K[284.17]NHHC[160.03]K[1089.64]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MKNHHC[160.03]K[1514.91]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.M[147.04]KNHHC[160.03]K[1089.64]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.M[147.04]KNHHC[160.03]K[1089.64]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MK[284.17]NHHC[160.03]K[1089.64]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MKNHHC[160.03]K[1089.65]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.M[147.04]KNHHC[160.03]K[1514.94]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MKNHHC[160.03]K[1089.64]LTQVLNTHYVAPR.R P51532:892 P51531:862 K.DK[2712.41]HILAK.I P51532:867 P51531:837 K.NHHC[160.03]K[1514.88]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MK[284.17]NHHC[160.03]K[1089.67]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.M[147.04]KNHHC[160.03]K[1089.6]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MKNHHC[160.03]K[1514.93]LTQVLNTHYVAPR.R P51532:892 P51531:862 K.LSK[1095.66]AVATWHANTER.E P51531:478 K.YK[2011.1]LNVDQK.V P51532:1221 P51531:1191 K.YK[2011.1]LNVDQK.V P51532:1221 P51531:1191 R.LC[160.03]TVNSVEEK[1388.74]ILAAAK.Y P51532:1213 P51531:1183 R.WK[2154.2]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2154.2]YMIVDEGHR.M P51532:876 P51531:846 R.SGK[1714.88]FNVLLTTYEYIIK.D P51532:852 P51531:822 K.Q[111.03]IIETAK[2052.07]QDVDDEYSMQYSAR.G P51531:682 K.Q[111.03]IIETAK[2052.06]QDVDDEYSMQYSAR.G P51531:682 K.Q[111.03]IIETAK[2052.1]QDVDDEYSMQYSAR.G P51531:682 K.Q[111.03]IIETAK[2052.11]QDVDDEYSMQYSAR.G P51531:682 K.Q[111.03]IIETAK[2052.04]QDVDDEYSM[147.04]QYSAR.G P51531:682 K.Q[111.03]IIETAK[2052.13]QDVDDEYSM[147.04]QYSAR.G P51531:682 K.Q[111.03]IIETAK[2052.1]QDVDDEYSMQYSAR.G P51531:682 K.Q[111.03]IIETAK[2052.08]QDVDDEYSM[147.04]QYSAR.G P51531:682 K.QIIETAK[2052.08]QDVDDEYSMQYSAR.G P51531:682 K.ILLDPNSEEVSEK[2755.3]DAK.Q P51531:672 K.QIIETAK[2052.01]QDVDDEYSMQYSAR.G P51531:682 K.ILLDPNSEEVSEK[2755.3]DAK.Q P51531:672 K.ILLDPNSEEVSEK[2755.3]DAK.Q P51531:672 K.ILLDPNSEEVSEK[2755.3]DAK.Q P51531:672 K.ILLDPNSEEVSEK[2755.3]DAK.Q P51531:672 K.ILLDPNSEEVSEK[2755.3]DAK.Q P51531:672 R.EQKK[939.54]ETER.I P51531:493 K.K[1280.75]ETER.I P51531:493 R.EQKK[1280.73]ETER.I P51531:493 R.LHK[1717.93]VLRPFLLR.R P51532:970 P51531:940 K.NHHC[160.03]K[1717.89]LTQVLNTHYVAPR.R P51532:892 P51531:862 R.MK[1717.9]NHHC[160.03]K[284.17]LTQVLNTHYVAPR.R P51532:887 P51531:857 R.MK[1717.93]NHHC[160.03]K[284.17]LTQVLNTHYVAPR.R P51532:887 P51531:857 R.M[147.04]K[1717.92]NHHC[160.03]K[284.17]LTQVLNTHYVAPR.R P51532:887 P51531:857 R.MK[1717.88]NHHC[160.03]K[284.17]LTQVLNTHYVAPR.R P51532:887 P51531:857 R.MK[1717.9]NHHC[160.03]K[284.17]LTQVLNTHYVAPR.R P51532:887 P51531:857 R.K[1717.93]PVDFKK.I P51532:1503 P51531:1445 R.KPVDFK[1717.93]K.I P51532:1508 P51531:1450 R.WK[1717.93]YMIVDEGHR.M P51532:876 P51531:846 R.WK[1717.93]YMIVDEGHR.M P51532:876 P51531:846 R.WK[1717.93]YMIVDEGHR.M P51532:876 P51531:846 R.KPVDFK[982.53]K.I P51532:1508 P51531:1450 K.ISYK[2104.05]GTPAMR.R P51531:805 R.LDGTTK[1251.71]SEDR.A P51531:1101 R.LDGTTK[1388.75]SEDR.A P51531:1101 R.LDGTTK[1904.92]SEDR.A P51531:1101 R.ASGK[1004.67]FELLDR.I P51532:1081 P51531:1051 K.RK[1400.77]PR.L P51532:1334 P51531:1271 K.YK[2085.03]LNVDQK.V P51532:1221 P51531:1191 K.YK[2085.03]LNVDQK.V P51532:1221 P51531:1191 K.VIQAGM[147.04]FDQK[1272.68]SSSHER.R P51532:1237 P51531:1207 K.YK[2085.03]LNVDQK.V P51532:1221 P51531:1191 K.YK[2241.13]LNVDQK.V P51532:1221 P51531:1191 K.VIQAGMFDQK[1996.15]SSSHER.R P51532:1237 P51531:1207 K.YK[2241.13]LNVDQK.V P51532:1221 P51531:1191 K.YK[2085.03]LNVDQK.V P51532:1221 P51531:1191 K.VIQAGMFDQK[1996.12]SSSHER.R P51532:1237 P51531:1207 K.VIQAGM[147.04]FDQK[1272.71]SSSHER.R P51532:1237 P51531:1207 K.YK[2241.13]LNVDQK.V P51532:1221 P51531:1191 K.VIQAGM[147.04]FDQK[1272.7]SSSHER.R P51532:1237 P51531:1207 K.VIQAGM[147.04]FDQK[1272.72]SSSHERR.A P51532:1237 P51531:1207 K.YK[2241.13]LNVDQK.V P51532:1221 P51531:1191 K.YK[2241.13]LNVDQK.V P51532:1221 P51531:1191 K.YK[2085.03]LNVDQK.V P51532:1221 P51531:1191 K.YK[1717.93]LNVDQK.V P51532:1221 P51531:1191 R.IRNHK[1094.67]YR.S P51532:1518 P51531:1460 R.IRNHK[1094.66]YR.S P51532:1518 P51531:1460 K.K[982.53]IK[284.17]ER.I P51532:1509 P51531:1451 K.K[982.51]IK[284.17]ER.I P51532:1509 P51531:1451 K.K[982.53]IK[284.17]ER.I P51532:1509 P51531:1451 K.K[982.52]IK[284.17]ER.I P51532:1509 P51531:1451 R.K[1657.06]LIDQK.K P51532:540 P51531:516 R.K[1657.06]LIDQK.K P51532:540 P51531:516 K.LIDQK[1657.06]K.D P51532:545 P51531:521 R.LHK[1009.61]VLRPFLLR.R P51532:970 P51531:940 K.LIDQK[1657.06]K.D P51532:545 P51531:521 R.WK[2196.23]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2196.23]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2196.23]YMIVDEGHR.M P51532:876 P51531:846 R.WK[2196.23]YMIVDEGHR.M P51532:876 P51531:846 K.TIQTIALITYLMEHK[1714.84]R.I P51532:800 P51531:770 K.TIQTIALITYLMEHK[1698.8]R.I P51532:800 P51531:770 K.TIQTIALITYLMEHK[1714.84]R.I P51532:800 P51531:770 K.TIQTIALITYLM[147.04]EHK[1698.84]R.I P51532:800 P51531:770 K.TIQTIALITYLMEHK[1714.84]R.I P51532:800 P51531:770 K.TIQTIALITYLMEHK[1714.82]R.I P51532:800 P51531:770 Unique_(—) protein2 subunit2 realpep2 position2 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 RPGDLNVKCTLLLMLDHQPPQYK 297 1 SMARCD2 RPGDLNVKCTLLLMLDHQPPQYK 297 1 SMARCD2 RPGDLNVKCTLLLMLDHQPPQYK 297 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 RPGDLNVKCTLLLMLDHQPPQYK 297 1 SMARCD2 RPGDLNVKCTLLLMLDHQPPQYK 297 1 SMARCD2 RPGDLNVKCTLLLMLDHQPPQYK 297 1 SMARCD2 RPGDLNVKCTLLLMLDHQPPQYK 297 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 RPGDLNVKCTLLLMLDHQPPQYK 297 1 SMARCD2 RPGDLNVKCTLLLMLDHQPPQYK 297 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 LAGLLQHPDPIVINHVISVDPNDQKK 401 1 SMARCD2 IHETIESINQLKTQR 451 1 SMARCD2 HIFAKVQQR 514 1 SMARCD2 PLTQKR 191 1 SMARCD2 PLTQKRK 191 1 SMARCD2 PLTQKR 191 1 SMARCD2 PLTQKR 191 1 SMARCD2 PLTQKR 191 1 SMARCD2 PLTQKR 191 1 SMARCD2 PLTQKR 191 1 SMARCD2 PLTQKRK 191 1 SMARCD2 KPLTQKR 191 1 SMARCD2 MEIQEAIKKPLTQK 185 1 SMARCD2 KPLTQKR 186 1 SMARCD2 KPLTQKR 186 1 SMARCD2 RMEIQEAIKK 185 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 HIFAKVQQR 514 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 2 SMARCD2 VEGKLLDDPSK 237 2 SMARCD2 VEGKLLDDPSK 237 1 SMARCD2 FSEIPMKLAGLLQHPDPIVINHVISVDPNDQKK 401 1 SMARCD2 FSEIPMKLAGLLQHPDPIVINHVISVDPNDQKK 401 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 2 SMARCC2 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 2 SMARCC2 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 617 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 2 SMARCC2 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 KDSESAPVK 365 1 SMARCC2 KYIQAEPPTNK 37 1 SMARCC2 TKVER 848 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 TDMYTKKNVPSK 585 1 SMARCC2 TDMYTKKNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 KTKVER 848 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 846 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 2 SMARCC2 KIKSLVALLVETQMK 883 2 SMARCC2 KIKSLVALLVETQMK 883 2 SMARCC2 KIKSLVALLVETQMK 883 2 SMARCC2 KIKSLVALLVETQMK 883 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 KIKSLVALLVETQMK 883 2 SMARCC2 KIKSLVALLVETQMK 883 2 SMARCC2 KIKSLVALLVETQMK 883 2 SMARCC2 KIKSLVALLVETQMK 883 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 KIKSLVALLVETQMK 885 1 SMARCC2 KDSESAPVK 365 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 NVPSKSK 590 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 NVPSKSKAAASATR 592 1 SMARCC2 NVPSKSKAAASATR 592 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 SKAAASATR 592 1 SMARCC2 SKAAASATR 592 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 TVNTKKDSESAPVK 365 1 SMARCC2 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1 SMARCC2 TVNTKKDSESAPVK 364 1 SMARCC2 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1 SMARCC2 TVNTKKDSESAPVK 364 1 SMARCC2 TVNTKKDSESAPVK 364 1 SMARCC2 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1 SMARCC2 TVNTKKDSESAPVK 364 1 SMARCC2 TVNTKKDSESAPVK 364 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 EGGGAIEEEAKEKTSEAPK 789 1 SMARCC2 KTKVER 846 1 SMARCC2 NVPSKSK 590 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 KVHAK 236 1 SMARCC2 KVHAK 236 1 SMARCC2 KVHAK 236 1 SMARCC2 KVHAK 236 1 SMARCC2 KTKVER 846 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 846 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 EGQEEVLKEVVESEGERK 836 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KTKVER 846 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 TKVER 848 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 ISAKTLTDEVNSPDSDRR 275 1 SMARCC2 KGGNYK 292 1 SMARCC2 KGGNYK 292 1 SMARCC2 DKKGGNYK 292 1 SMARCC2 ISAKTLTDEVNSPDSDRR 275 1 SMARCC2 ISAKTLTDEVNSPDSDRR 275 1 SMARCC2 KKDGGPNVK 5 1 SMARCC2 KKDGGPNVK 5 1 SMARCC2 KKDGGPNVK 5 1 SMARCC2 ISAKTLTDEVNSPDSDRR 275 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 HQGTVTEDKNNASHVVYPVPGNLEEEEWVRPVMK 171 1 SMARCC2 KVHAK 236 1 SMARCC2 KVHAK 236 1 SMARCC2 KVHAK 236 1 SMARCC2 KVHAK 236 1 SMARCC2 KVHAK 236 1 SMARCC2 VASAAAKSALEEFSKMK 702 1 SMARCC2 TKVER 848 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 2 SMARCC2 LKDIIKR 157 2 SMARCC2 LKDIIKR 157 2 SMARCC2 LKDIIKR 157 1 SMARCC2 SLVQNNCLSRPNIFLCPEIEPKLLGK 151 2 SMARCC2 LKDIIKR 157 2 SMARCC2 LKDIIKR 157 2 SMARCC2 LKDIIK 157 2 SMARCC2 LKDIIKR 157 2 SMARCC2 LKDIIKR 157 1 SMARCC2 KKDGGPNVK 5 1 SMARCC2 KKDGGPNVK 5 1 SMARCC2 KKDGGPNVK 5 1 SMARCC2 KKDGGPNVK 5 1 SMARCC2 KKDGGPNVK 5 1 SMARCC2 SLSSLVVQLLQFQEEVFGKHVSNAPLTK 66 1 SMARCC2 KKDGGPNVK 5 1 SMARCC2 TSEAPKK 795 1 SMARCC2 DEEKGKEGDSEK 800 1 SMARCC2 LWLGKNYKK 36 1 SMARCC2 KVHAK 236 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 TKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 KYIQAEPPTNK 37 1 SMARCC2 KYIQAEPPTNK 37 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 TKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEERK 874 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 2 SMARCC2 KIKSLVALLVETQMK 885 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 LPIKCFLDFK 79 1 SMARCC2 LPIKCFLDFK 79 1 SMARCC2 LPIKCFLDFK 79 1 SMARCC2 LPIKCFLDFK 79 1 SMARCC2 LPIKCFLDFK 79 1 SMARCC2 LPIKCFLDFK 79 1 SMARCC2 LPIKCFLDFK 79 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCD1 LLEDSALSKYDATKQK 228 1 SMARCD1 LLEDSALSKYDATKQK 228 1 SMARCD1 LLEDSALSKYDATKQK 228 1 SMARCD1 LLEDSALSKYDATKQK 228 1 SMARCD1 YDATKQKR 228 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 EFVICDKYLQQIFESQR 341 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 THKLQDPHER 327 1 SMARCD1 YFYSKVQQR 498 2 SMARCD1 KMADKILPQR 131 2 SMARCD1 KMADKILPQR 131 2 SMARCD1 KMADKILPQR 131 1 SMARCD1 NHNAKK 124 1 SMARCD1 NHNAKK 124 1 SMARCD1 NHNAKK 124 1 SMARCD1 LHALLMPPEPIIINHVISVDPNDQKK 385 1 SMARCD1 LHALLMPPEPIIINHVISVDPNDQKK 385 1 SMARCD1 LHALLMPPEPIIINHVISVDPNDQKK 385 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 IFISNTFNPAKSDAEDGEGTVASWELR 194 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 IFISNTFNPAKSDAEDGEGTVASWELR 194 1 SMARCD1 IFISNTFNPAKSDAEDGEGTVASWELR 194 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 IFISNTFNPAKSDAEDGEGTVASWELR 194 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 2 SMARCD1 KMADKILPQR 131 2 SMARCD1 KMADKILPQR 131 2 SMARCD1 MADKILPQR 131 2 SMARCD1 KMADKILPQR 131 2 SMARCD1 KMADKILPQR 127 1 SMARCD1 NHNAKKK 125 1 SMARCD1 MKFSEIPQR 353 1 SMARCD1 LDIQEALKRPIK 173 1 SMARCD1 LDIQEALKRPIK 173 2 SMARCD1 MADKILPQR 131 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 2 SMARCD1 KLDQTIMR 156 1 SMARCD1 YFYSKVQQR 498 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 2 SMARCD1 KMADKILPQR 127 2 SMARCD1 KMADKILPQR 127 1 SMARCD1 MKFSEIPQR 353 1 SMARCD1 MKFSEIPQR 353 2 SMARCC1 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 639 2 SMARCC1 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 639 2 SMARCC1 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 639 2 SMARCC1 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 639 2 SMARCC1 EWTEQETLLLLEALEMYKDDWNKVSEHVGSR 639 1 SMARCC1 KGQASLYGK 346 1 SMARCC1 KKSGK 342 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 SKGASAGR 615 1 SMARCC1 TDIYSKKTLAK 608 1 SMARCC1 SKGASAGR 615 1 SMARCC1 KVQEAAR 740 1 SMARCC1 TLAKSKGASAGR 613 1 SMARCC1 TLAKSKGASAGR 613 1 SMARCC1 TLAKSKGASAGR 613 1 SMARCC1 TLAKSKGASAGR 613 1 SMARCC1 TLAKSK 613 1 SMARCC1 TLAKSK 613 1 SMARCC1 TDIYSKK 608 1 SMARCC1 TDIYSKK 608 1 SMARCC1 KDSENTPVK 393 1 SMARCC1 TLVQNNCLTRPNIYLIPDIDLKLANK 179 1 SMARCC1 AGGALCHILGAAYKYK 127 1 SMARCC1 AGGALCHILGAAYKYK 127 1 SMARCC1 NVEMFMNIEKTLVQNNCLTRPNIYLIPDIDLK 157 1 SMARCC1 LPAKCFMDFK 107 1 SMARCC1 KHSPSPPPPTPTESR 326 1 SMARCC1 KHSPSPPPPTPTESR 326 1 SMARCC1 KHSPSPPPPTPTESR 326 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KPVSFR 292 1 SMARCC1 ISTKNEEPVRSPER 303 1 SMARCC1 SKGASAGR 615 1 SMARCC1 GQASLYGKR 354 1 SMARCC1 NVNLKK 392 1 SMARCC1 HQGTFTDEKSK 199 1 SMARCC1 KDSENTPVK 393 1 SMARCC1 HQGTFTDEKSK 199 1 SMARCC1 QVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWK 261 1 SMARCC1 HQGTFTDEKSK 199 1 SMARCC1 DRKASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 HQGTFTDEKSK 199 1 SMARCC1 HQGTFTDEKSK 199 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 HQGTFTDEKSK 199 1 SMARCC1 HQGTFTDEKSK 199 1 SMARCC1 SKASHHIYPYSSSQDDEEWLRPVMR 201 1 SMARCC1 KKSGK 341 1 SMARCC1 KKSGK 341 1 SMARCC1 KKSGK 341 1 SMARCC1 KKSGK 341 1 SMARCC1 VREEVPLELVEAHVKK 739 1 SMARCC1 VREEVPLELVEAHVKK 739 1 SMARCC1 VREEVPLELVEAHVKK 739 1 SMARCC1 KVEHEISEGNVATAAAAALASAATK 856 1 SMARCC1 KVEHEISEGNVATAAAAALASAATK 856 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 ISTKNEEPVR 303 1 SMARCC1 KASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 ISTKNEEPVRSPER 303 1 SMARCC1 ISTKNEEPVRSPER 303 1 SMARCC1 DRKASANAR 317 1 SMARCC1 ISTKNEEPVRSPER 303 1 SMARCC1 KASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 ISTKNEEPVR 303 1 SMARCC1 KDGGPATK 34 1 SMARCC1 KDGGPATK 34 1 SMARCC1 RKDGGPATK 34 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 SPQVPAAQQMLNFPEKNKEK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 KVQEAAR 740 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 NKEKPVDLQNFGLR 592 1 SMARCC1 TDIYSKKTLAK 609 1 SMARCC1 TDIYSKKTLAK 609 1 SMARCC1 TDIYSKKTLAK 609 1 SMARCC1 TDIYSKKTLAK 609 1 SMARCC1 ESDTGKK 854 1 SMARCC1 ERESDTGKK 854 1 SMARCC1 ERESDTGKK 854 1 SMARCC1 ERESDTGKK 854 1 SMARCC1 ESDTGKK 854 1 SMARCC1 ERESDTGKK 854 1 SMARCC1 ERESDTGKK 854 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 EEVPLELVEAHVKKVQEAAR 739 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 ERESDTGKK 854 1 SMARCC1 ERESDTGKK 854 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KVEHEISEGNVATAAAAALASAATK 856 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KVEHEISEGNVATAAAAALASAATK 856 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KVEHEISEGNVATAAAAALASAATK 856 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KKVEHEISEGNVATAAAAALASAATK 855 1 SMARCC1 KKVEHEISEGNVATAAAAALASAATK 855 1 SMARCC1 KKVEHEISEGNVATAAAAALASAATK 855 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KKVEHEISEGNVATAAAAALASAATK 855 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KKVEHEISEGNVATAAAAALASAATK 855 1 SMARCC1 ESDTGKKK 855 1 SMARCC1 ESDTGKKK 855 1 SMARCC1 KASANAR 317 1 SMARCC1 VREEVPLELVEAHVKK 739 1 SMARCC1 EKQVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWK 227 1 SMARCC1 EKQVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWK 227 1 SMARCC1 KASANAR 317 1 SMARCC1 KKVEHEISEGNVATAAAAALASAATK 856 1 SMARCC1 RKDGGPATK 34 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 LANKLK 183 1 SMARCC1 KDSENTPVK 393 1 SMARCC1 KGQASLYGKR 346 1 SMARCC1 KGQASLYGK 346 1 SMARCC1 KGQASLYGK 346 1 SMARCC1 KGQASLYGKR 346 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 GQASLYGKR 354 1 SMARCC1 KDGGPATKFWESPETVSQLDSVR 41 1 SMARCC1 KDGGPATKFWESPETVSQLDSVR 41 1 SMARCC1 KDGGPATKFWESPETVSQLDSVR 41 1 SMARCC1 KASANAR 317 1 SMARCC1 KDGGPATKFWESPETVSQLDSVR 41 1 SMARCC1 KDGGPATKFWESPETVSQLDSVR 41 1 SMARCC1 KDGGPATKFWESPETVSQLDSVR 41 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 TLAGLVVQLLQFQEDAFGKHVTNPAFTKLPAK 94 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 KDGGPATKFWESPETVSQLDSVR 34 1 SMARCC1 RKDGGPATK 34 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVERK 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVERK 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A DDGSTLMEIDGDKGK 60 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 1 ACTL6A DDGSTLMEIDGDKGK 60 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A DDGSTLMEIDGDKGK 60 1 ACTL6A DDGSTLMEIDGDKGK 60 1 ACTL6A DDGSTLMEIDGDKGK 60 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A DDGSTLMEIDGDKGK 60 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A REKLTELMFEHYNIPAFFLCK 135 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 1 ACTL6A ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 1 ACTL6A ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 1 ACTL6A ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 1 ACTL6A ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A STGLILDSGATHTTAIPVHDGYVLQQGIVKSPLAGDFITMQCR 194 1 ACTL6A ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 1 ACTL6A ENMEAISPLKNGMVEDWDSFQAILDHTYK 89 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A MHVKSEASLHPVLMSEAPWNTR 112 1 ACTL6A KEKLPQVTR 240 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A ELFQEMNIELVPPYMIASKEAVR 226 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 BCL7B SKSNSSAAR 61 1 BCL7B SKSNSSAAR 61 1 BCL7B SKSNSSAAR 61 1 BCL7B SKSNSSAAR 61 1 SMARCB1 TFGQKPVKFQLEDDGEFYMIGSEVGNYLR 13 1 SMARCB1 GSLYKR 45 1 SMARCB1 YKAVSISTEPPTYLR 108 1 SMARCB1 YKAVSISTEPPTYLR 108 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 SMARCB1 GQLSWHQKTYAFSENPLPTVEIAIR 324 1 SMARCB1 GQLSWHQKTYAFSENPLPTVEIAIR 324 1 SMARCB1 KIRDQDR 364 1 SMARCB1 KIRDQDR 364 1 SMARCB1 LDMEIDGQKLR 199 1 SMARCB1 KIRDQDR 364 1 SMARCB1 KIRDQDR 364 1 SMARCB1 KIRDQDR 364 1 SMARCB1 KIRDQDR 364 1 SMARCB1 KIRDQDR 364 1 SMARCB1 KIRDQDR 364 1 SMARCB1 LDMEIDGQKLR 199 1 SMARCB1 KIRDQDR 364 1 SMARCB1 KIRDQDR 364 1 SMARCB1 KIRDQDR 364 1 SMARCB1 KIRDQDR 364 1 SMARCA4 SVTGKIQK 496 1 SMARCA4 SVTGKIQK 496 1 SMARCA4 LTKAVATYHANTEREQK 502 1 SMARCA4 SVTGKIQK 496 1 SMARCA4 KDKR 546 1 SMARCA4 QHKAAQVAK 572 1 SMARCA4 VIHVESGKILTGTDAPK 626 2 SMARCA4 WKYMIVDEGHR 876 2 SMARCA4 WKYMIVDEGHR 876 2 SMARCA4 WKYMIVDEGHR 876 1 SMARCA4 VIHVESGKILTGTDAPK 626 1 SMARCA4 VIHVESGKILTGTDAPK 626 2 SMARCA4 KPVDFK 1503 1 SMARCA4 IKLGR 1598 1 SMARCA4 IKLGR 1598 2 SMARCA4 NHKYR 1518 1 SMARCA4 YKDSSSGR 1473 1 SMARCA4 YKDSSSGR 1473 2 SMARCA4 IRNHKYR 1518 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 2 SMARCA4 IRNHKYR 1518 1 SMARCA4 KSSR 1408 1 SMARCA4 KSSR 1408 1 SMARCA4 KSSR 1408 1 SMARCA4 KSSR 1408 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 KSSR 1408 1 SMARCA4 GGTKTLMNTIMQLR 1033 1 SMARCA4 GGTKTLMNTIMQLR 1033 2 SMARCA4 LIDQKK 545 2 SMARCA4 LIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 LIDQKK 545 2 SMARCA4 LIDQKK 545 1 SMARCA4 KDKR 548 1 SMARCA4 AVATYHANTEREQKK 516 2 SMARCA4 IEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 2 SMARCA4 IEKER 524 2 SMARCA4 IEKER 524 1 SMARCA4 ENERIEKER 524 2 SMARCA4 IEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 AVATYHANTEREQKK 516 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 YNQMKGMGMR 94 1 SMARCA4 YNQMKGMGMR 94 1 SMARCA4 GQPLPDHLQMAVQGKR 207 1 SMARCA4 GQPLPDHLQMAVQGKR 207 1 SMARCA4 GQPLPDHLQMAVQGKR 207 1 SMARCA4 YNQMKGMGMR 94 1 SMARCA4 GQPLPDHLQMAVQGKR 207 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 2 SMARCA4 LIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 LIDQKK 545 2 SMARCA4 LCTVNSVEEKILAAAK 1213 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 2 SMARCA4 LCTVNSVEEKILAAAK 1213 2 SMARCA4 KELPEYYELIR 1492 2 SMARCA4 KELPEYYELIR 1492 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 AEDRGMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 VKIKLGR 1596 1 SMARCA4 VKIKLGR 1596 1 SMARCA4 VKIKLGR 1596 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 AQIMAYKMLAR 188 1 SMARCA4 AQIMAYKMLAR 188 1 SMARCA4 YNQMKGMGMR 94 1 SMARCA4 AQIMAYKMLAR 188 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 HRKEVDYSDSLTEK 1375 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 2 SMARCA4 VIQAGMFDQKSSSHER 1237 1 SMARCA4 LKGGR 1610 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 2 SMARCA4 VIQAGMFDQKSSSHER 1237 2 SMARCA4 SVKVKIK 1594 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 1 SMARCA4 KEKAQDR 1604 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 2 SMARCA4 WKYMIVDEGHR 876 2 SMARCA4 WKYMIVDEGHR 876 2 SMARCA4 WKYMIVDEGHR 876 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 1 SMARCA4 KIPDPDSDDVSEVDAR 689 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 1 SMARCA4 VDKQSALMVNGVLK 744 2 SMARCA4 KIKER 1509 2 SMARCA4 KIKER 1509 2 SMARCA4 KIKER 1509 2 SMARCA4 SVKVK 1594 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 YKDSSSGR 1473 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 IRNHKYR 1518 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 2 SMARCA4 KPVDFK 1503 2 SMARCA4 KPVDFK 1503 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGRR 1610 1 SMARCA4 IKLGR 1598 2 SMARCA4 KELPEYYELIR 1492 2 SMARCA4 KELPEYYELIR 1492 2 SMARCA4 KELPEYYELIR 1492 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 2 SMARCA4 NHKYR 1518 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 NHKYR 1518 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LKGGR 1610 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 1 SMARCA4 KDKR 548 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 1 SMARCA4 IKLGR 1598 2 SMARCA4 KELPEYYELIR 1492 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 KEKAQDR 1604 1 SMARCA4 LKGGRR 1610 1 SMARCA4 ITEKLEK 455 1 SMARCA4 ITEKLEK 455 1 SMARCA4 ITEKLEK 455 2 SMARCA4 QQKIEQER 461 1 SMARCA4 QHKAAQVAK 572 1 SMARCA4 KKIPDPDSDDVSEVDAR 688 1 SMARCA4 KKIPDPDSDDVSEVDAR 688 1 SMARCA4 HIIENAKQDVDDEYGVSQALAR 711 1 SMARCA4 HIIENAKQDVDDEYGVSQALAR 711 1 SMARCA4 HIIENAKQDVDDEYGVSQALAR 711 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 IRNHKYR 1518 1 SMARCA4 DKDDESK 1433 2 SMARCA4 LIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 LIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 LIDQKK 545 2 SMARCA4 KLIDQKK 545 2 SMARCA4 LIDQKK 545 2 SMARCA4 RKPR 1334 2 SMARCA4 RKPR 1334 2 SMARCA4 RKPR 1334 2 SMARCA4 RKPR 1334 2 SMARCA4 RKPR 1334 2 SMARCA4 RKPR 1334 2 SMARCA4 RKPR 1334 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 YLRLDGTTKAEDR 1131 1 SMARCA4 LKGGRR 1610 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 HRKEVDYSDSLTEK 1375 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 IKLGR 1598 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 KSSR 1408 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 1 SMARCA4 GMLLKTFNEPGSEYFIFLLSTR 1140 2 SMARCA4 IRNHKYR 1518 1 SMARCA4 KMKK 1461 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 IKLGR 1598 1 SMARCA4 IKLGR 1598 2 SMARCA4 NHKYR 1518 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 1 SMARCA4 LKGGR 1610 1 SMARCA4 GRPPAEKLSPNPPNLTK 1450 2 SMARCA4 KPVDFK 1503 2 SMARCA4 KPVDFK 1503 2 SMARCA4 KPVDFK 1503 1 SMARCA4 KMKK 1461 1 SMARCA4 IKLGR 1598 1 SMARCA4 IKLGR 1598 1 SMARCA4 IKLGR 1598 1 SMARCA4 HRKEVDYSDSLTEK 1375 1 SMARCA4 HRKEVDYSDSLTEK 1375 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 KEVDYSDSLTEK 1375 2 SMARCA4 NHKYR 1518 2 SMARCA4 IRNHKYR 1518 1 SMARCA4 HRKEVDYSDSLTEK 1375 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 HRKEVDYSDSLTEK 1375 1 SMARCA4 HRKEVDYSDSLTEK 1375 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 2 SMARCA4 WKYMIVDEGHR 876 2 SMARCA4 WKYMIVDEGHR 876 1 SMARCA4 VKIKLGR 1598 1 SMARCA4 KEKAQDR 1604 1 SMARCA4 KEKAQDR 1604 1 SMARCA4 IKLGR 1598 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 IKLGR 1598 2 SMARCA4 IKER 1511 2 SMARCA4 IKER 1511 2 SMARCA4 KIKER 1511 1 SMARCA4 LKGGR 1610 2 SMARCA4 LHKVLRPFLLR 970 2 SMARCA4 LHKVLRPFLLR 970 2 SMARCA4 LHKVLRPFLLR 970 2 SMARCA4 WKYMIVDEGHR 876 2 SMARCA4 WKYMIVDEGHR 876 2 SMARCA4 WKYMIVDEGHR 876 1 SMARCA4 HIIENAKQDVDDEYGVSQALAR 711 2 SMARCA4 WKYMIVDEGHR 876 1 SMARCA4 HIIENAKQDVDDEYGVSQALAR 711 2 SMARCA4 WKYMIVDEGHR 876 2 SMARCA4 TIQTIALITYLMEHKR 800 1 SMARCA4 EQKKENER 517 1 SMARCA4 EQKKENER 517 1 SMARCA4 KENER 517 2 SMARCA4 LIDQKK 545 2 SMARCA4 YKLNVDQK 1221 2 SMARCA4 ILAAAKYKLNVDQK 1221 2 SMARCA4 YKLNVDQK 1221 1 SMARCA4 EEARNPKR 1332 1 SMARCA4 EEARNPKR 1332 1 SMARCA4 EEARNPKR 1332 2 SMARCA4 KPVDFK 1503 1 SMARCA4 IQKLTK 499 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 QKKSSR 1407 2 BCL7C AKDDIKK 19 1 BCL7C WEKR 33 1 BCL7C VMATIEKVR 27 2 BCL7C AKDDIKK 15 1 BCL7C VMATIEKVR 27 1 BCL7C VMATIEKVR 27 2 BCL7C AKDDIKK 15 2 BCL7C AKDDIKK 15 2 BCL7C AKDDIKK 15 1 BCL7C VMATIEKVR 27 2 BCL7A KWEK 30 2 BCL7A KWEK 30 2 BCL7A KWEKK 33 1 BCL7A AKDDIKR 15 1 BCL7A IYKWVPVTEPK 47 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 2 BCL7A VMAAIEKVR 27 2 BCL7A VMAAIEKVR 27 2 BCL7A VMAAIEKVR 27 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 2 BCL7A VMAAIEKVR 27 2 BCL7A VMAAIEKVR 27 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 2 BCL7A VMAAIEKVR 27 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 2 BCL7A KWEKK 30 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 1 BCL7A VDDKNKNK 59 1 BCL7A VDDKNK 59 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWVTVGDTSLR 34 1 BCL7A AKDDIKR 19 1 BCL7A VDDKNKNK 59 2 BCL7A VMAAIEKVRK 27 1 BCL7A VDDKNKNK 59 1 BCL7A VDDKNK 59 2 BCL7A VMAAIEKVR 27 2 BCL7A VMAAIEKVR 27 2 BCL7A KWVTVGDTSLR 34 2 BCL7A KWEKK 33 2 BCL7A WEKK 33 2 BCL7A VMAAIEKVR 27 1 BCL7A IYKWVPVTEPK 47 1 BCL7A IYKWVPVTEPK 47 2 BCL7A VMAAIEKVR 27 1 BCL7A KGKDEK 65 2 BCL7A VMAAIEKVR 27 2 BCL7A KWEKK 30 2 BCL7A VMAAIEKVR 27 2 BCL7A KWEK 30 2 BCL7A KWEK 30 2 BCL7A KWEK 30 2 BCL7A VMAAIEKVR 27 2 BCL7A KWEKK 30 1 ACTBL2 KDLYANTVLSGGSTMYPGIADR 292 1 ARID1B SHRNIKLLEDEPR 1904 1 ARID1B KNNLFVVDR 1781 1 ARID1B KNNLFVVDR 1781 1 ARID1B FDKLPIKIVK 1777 1 ARID1B KNNLFVVDR 1781 1 ARID1B KNNLFVVDR 1781 1 ARID1B KNNLFVVDR 1781 1 ARID1B KNNLFVVDR 1781 1 ARID1B KNNLFVVDR 1781 1 ARID1B KLWVDR 1057 1 ARID1B ITKVYELGNEPER 1046 1 ARID1B KLWVDR 1057 1 ARID1B KLWVDR 1057 1 ARID1B GSPVSSLPAVGKKPLDLFR 1083 1 ARID1B KPLDLFR 1083 1 ARID1B KPLDLFR 1083 1 ARID1B GSPVSSLPAVGKKPLDLFR 1083 1 ARID1B SSTISVHDPFSDVSDSSFPKR 1237 1 ARID1B SSTISVHDPFSDVSDSSFPKR 1237 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B IVKKNNLFVVDR 1780 1 ARID1B QEKFYATLVR 2097 1 ARID1B QEKFYATLVR 2097 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 2 ARID1B KNPVCR 2110 2 ARID1B KNPVCR 2110 2 ARID1B KNPVCR 2110 2 ARID1B KNPVCR 2110 2 ARID1B KNPVCR 2110 2 ARID1B KNPVCR 2110 1 ARID1B RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B RHEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HEPYGQQYPGQGPPSGQPPYGGHQPGLYPQQPNYKR 1360 1 ARID1B HMDGMYGPPAKR 1372 2 ARID1B KNPVCR 2110 2 ARID1B KNPVCR 2110 2 ARID1B KNPVCR 2110 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B LVLETLCKLSIQDNNVDLILATPPFSR 2075 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B APQTYEKEEDEDK 1984 1 ARID1B APQTYEKEEDEDK 1984 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B APQTYEKEEDEDK 1984 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B APQTYEKEEDEDK 1984 1 ARID1B APQTYEKEEDEDK 1984 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 ARID1B KNNLFVVDR 1781 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 1 ARID1B KLWVDR 1057 1 ARID1B KLWVDR 1057 1 ARID1B SDKLGR 1792 1 ARID1B EITFPPGSVEASQPVLKQR 1608 1 ARID1B SRDETPLCTIAHWQDSLAKR 1930 1 ARID1B SRDETPLCTIAHWQDSLAKR 1930 1 ARID1B EITFPPGSVEASQPVLKQR 1608 1 ARID1B EITFPPGSVEASQPVLKQR 1608 1 ARID1B EITFPPGSVEASQPVLKQR 1608 1 ARID1B EITFPPGSVEASQPVLKQR 1608 2 ARID1B KNPVCR 2110 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B HMDGMYGPPAKR 1372 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B MPYEPNKDPFGGMR 1266 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 LSFPSIKPDTDQTLKK 99 1 DPF2 TDPLEKR 130 1 DPF2 LSFPSIKPDTDQTLKK 99 1 DPF2 LSFPSIKPDTDQTLKK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLKK 99 1 DPF2 TDPLEKR 130 1 DPF2 GKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 GKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 INKKTGQPEELVSCSDCGR 285 1 DPF2 SKGKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 1 DPF2 GKGVGSAR 188 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 GKGVGSAR 188 1 DPF2 KKLDASILEDR 196 1 DPF2 GKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 DKPYACDICGKR 207 1 DPF2 DKPYACDICGKR 207 1 DPF2 DKPYACDICGKR 207 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 PDTDQTLKKEGLISQDGSSLEALLR 107 1 DPF2 PDTDQTLKKEGLISQDGSSLEALLR 107 1 DPF2 PDTDQTLKKEGLISQDGSSLEALLR 107 1 DPF2 KEGLISQDGSSLEALLR 107 1 DPF2 PDTDQTLKKEGLISQDGSSLEALLR 107 1 DPF2 PDTDQTLKKEGLISQDGSSLEALLR 107 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 SEEQKSK 258 1 DPF2 SEEQKSK 258 1 DPF2 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 1 DPF2 NRPGLSYHYAHSHLAEEEGEDKEDSQPPTPVSQR 241 1 DPF2 SEEQKSK 258 1 DPF2 LPFLDSQTGVAQSNCYIWMEKRHR 59 1 DPF2 LPFLDSQTGVAQSNCYIWMEKRHR 59 1 DPF2 KGPDGLALPNNYCDFCLGDSK 261 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 SEEQKSK 258 1 DPF2 SEEQKSK 258 1 DPF2 SEEQKSK 258 1 DPF2 SEEQKSK 258 1 DPF2 SEEQKSK 258 1 DPF2 SEEQKSK 258 1 DPF2 SEEQKSK 258 1 DPF2 SEEQKSK 258 1 DPF2 SEEQKSK 258 1 DPF2 KGPDGLALPNNYCDFCLGDSK 261 1 DPF2 SEEQKSK 258 1 DPF2 KGPDGLALPNNYCDFCLGDSK 261 1 DPF2 SEEQKSK 258 1 DPF2 KGPDGLALPNNYCDFCLGDSK 261 1 DPF2 SEEQKSK 258 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 SGHPSCLQFTPVMMAAVKTYR 318 1 DPF2 GKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 SKGKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 GKGVGSAR 188 1 DPF2 ILEPDDFLDDLDDEDYEEDTPKR 178 1 DPF2 GKGVGSAR 188 1 DPF2 SKGK 186 1 DPF2 ILEPDDFLDDLDDEDYEEDTPKRR 178 1 DPF2 ILEPDDFLDDLDDEDYEEDTPKRR 178 1 DPF2 KKLDASILEDR 195 1 DPF2 KKLDASILEDR 195 1 DPF2 ILEPDDFLDDLDDEDYEEDTPKRR 178 1 DPF2 RGKGK 182 1 DPF2 RGKGK 182 1 DPF2 RGKGK 182 1 DPF2 RGKGK 182 1 DPF2 GKGKSK 184 1 DPF2 GKGKSK 184 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 SEEQKSK 258 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 LSFPSIKPDTDQTLKK 99 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 TDPLEKR 130 2 SMARCD3 KLDQTIMR 131 2 SMARCD3 VEGKLLDDPSK 189 1 SMARCD3 TPTTQETDGFQVKRPGDLSVR 241 1 ARID1A YLAFTEEKAMGMTNLPAVGR 1034 1 ARID1A KPLDLYR 1047 1 ARID1A KSSSSTTTNEK 997 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KMWVDR 1021 1 ARID1A KMWVDR 1021 1 ARID1A ITKLYELGGEPER 1010 1 ARID1A KMWVDR 1021 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPERK 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1 ARID1A LILLHHKHPER 2020 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1 ARID1A SSEAIKESSK 1934 1 ARID1A SSEAIKESSK 1934 1 ARID1A SSEAIKESSKFPFGISPAQSHR 1934 1 ARID1A SSEAIKESSK 1934 1 ARID1A SSEAIKESSK 1934 1 ARID1A IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 1 ARID1A IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 1 ARID1A CLIEIFGILKEYEVGDPGQR 1732 1 ARID1A CLIEIFGILKEYEVGDPGQR 1732 1 ARID1A CLIEIFGILKEYEVGDPGQR 1732 1 ARID1A LEKLYSTMVR 2146 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LILLHHKHPERK 2020 1 ARID1A LILLHHKHPERK 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A NIKILEDEPHSK 1953 1 ARID1A NIKILEDEPHSK 1953 1 ARID1A NIKILEDEPHSK 1953 1 ARID1A LILLHHKHPERK 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A NIKILEDEPHSK 1953 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPERK 2020 1 ARID1A FDKLPVK 1811 1 ARID1A FDKLPVK 1811 1 ARID1A FDKLPVK 1811 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A SSEAIKESSKFPFGISPAQSHR 1934 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A LILLHHKHPER 2020 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A LILLHHKHPER 2020 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A LILLHHKHPER 2020 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A LILLHHKHPER 2020 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A SSTLTEDGAKSSEAIK 1928 1 ARID1A SSTLTEDGAKSSEAIK 1928 1 ARID1A SSTLTEDGAKSSEAIKESSK 1928 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A IVQKNDPFVVDCSDKLGR 1819 1 ARID1A IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 1 ARID1A LILLHHKHPER 2020 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 1 ARID1A KQAPLTYEK 2025 1 ARID1A RLTMKDIGTPEAWR 1662 1 ARID1A SSTLTEDGAKSSEAIK 1928 1 ARID1A SSTLTEDGAKSSEAIK 1928 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A SSTLTEDGAKSSEAIK 1928 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A SSTLTEDGAKSSEAIK 1928 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A SSTLTEDGAKSSEAIK 1928 1 ARID1A SSTLTEDGAKSSEAIK 1928 1 ARID1A SSTLTEDGAKSSEAIK 1928 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A SNSVGIQDAFNDGSDSTFQKR 1201 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A SNSVGIQDAFNDGSDSTFQKR 1201 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A SNSVGIQDAFNDGSDSTFQKR 1201 1 ARID1A KMWVDR 1021 1 ARID1A KMWVDR 1021 1 ARID1A SLSFVPGNDFEMSKHPGLLLILGK 2003 1 ARID1A SLSFVPGNDFEMSKHPGLLLILGK 2003 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPERK 2020 1 ARID1A SLSFVPGNDFEMSKHPGLLLILGK 2003 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A SLSFVPGNDFEMSKHPGLLLILGK 2003 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A ADGTPKTESK 990 1 ARID1A KSSSSTTTNEKITK 1007 1 ARID1A KMWVDR 1021 1 ARID1A KMWVDR 1021 1 ARID1A LEKLYSTMVR 2146 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A LILLHHKHPERK 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A LILLHHKHPER 2020 1 ARID1A IGGGDTTEHIQTHFESKTELLPSRPHAPCPPAPR 1862 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1 ARID1A KAEQQQR 26 1 ARID1A KAEQQQREEAGGEAAAAAAAER 26 1 ARID1A GEMKAAAGQESEGPAVGPPQPLGK 51 1 ARID1A KAEQQQREEAGGEAAAAAAAER 26 1 ARID1A KAEQQQR 26 1 ARID1A GEMKAAAGQESEGPAVGPPQPLGK 51 1 ARID1A KAEQQQR 26 1 ARID1A KAEQQQR 26 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB EIVRDIKEK 213 1 ACTB EIVRDIKEK 213 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB EITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB EITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB EITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB EITALAPSTMKIK 326 1 ACTB EITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB EITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB EITALAPSTMKIK 326 1 ACTB EITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB EITALAPSTMKIKIIAPPER 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB EITALAPSTMKIKIIAPPER 326 1 ACTB EITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 61 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 61 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 68 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB GILTLKYPIEHGIVTNWDDMEK 68 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 ACTB HQGVMVGMGQKDSYVGDEAQSKR 50 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 VTASSGITIPKPPK 61 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 VTASSGITIPKPPK 61 1 SMARCE1 HQEKKR 255 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKKR 256 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 HQEKKR 255 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 KRQEER 298 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 KLEAELLQIEER 240 1 SMARCE1 HQEKKR 256 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 MEKGEPYMSIQPAEDPDDYDDGFSMKHTATAR 166 1 SMARCE1 KRQEER 298 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 DLTDEEKQEYLNEYEAEK 112 1 SMARCE1 DLTDEEKQEYLNEYEAEK 112 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 KRQEER 298 1 SMARCE1 FLESTDSFNNELKRLCGLK 271 1 SMARCE1 FLESTDSFNNELKRLCGLK 271 1 SMARCE1 FLESTDSFNNELKRLCGLK 271 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 284 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 284 1 SMARCE1 MEKGEPYMSIQPAEDPDDYDDGFSMKHTATAR 166 1 SMARCE1 KRQEER 298 1 SMARCE1 KRQEER 298 1 SMARCE1 KRQEER 298 1 SMARCE1 HQEKK 255 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 KFLESTDSFNNELKR 258 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1 SMARCE1 FLESTDSFNNELKR 277 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 277 2 SMARCA2 KIKER 1451 2 SMARCA2 KIKER 1451 2 SMARCA2 ELPEYYELIRKPVDFK 1445 2 SMARCA2 KPVDFKK 1445 2 SMARCA2 KPVDFKK 1445 2 SMARCA2 KPVDFK 1445 2 SMARCA2 KPVDFKK 1445 2 SMARCA2 KPVDFK 1445 2 SMARCA2 KPVDFKK 1445 2 SMARCA2 KPVDFK 1445 2 SMARCA2 KPVDFK 1445 2 SMARCA2 IRNHKYR 1460 2 SMARCA2 KPVDFK 1445 2 SMARCA2 KPVDFKK 1445 2 SMARCA2 KPVDFK 1445 2 SMARCA2 IRNHKYR 1460 2 SMARCA2 KLIDQKK 516 2 SMARCA2 KLIDQKK 521 2 SMARCA2 KLIDQKK 521 2 SMARCA2 KLIDQKK 521 2 SMARCA2 IEKER 500 2 SMARCA2 LHKVLRPFLLR 940 2 SMARCA2 RKPR 1271 2 SMARCA2 RKPR 1271 2 SMARCA2 RKPR 1271 1 SMARCA2 DVDYSDALTEKQWLR 1323 1 SMARCA2 DVDYSDALTEKQWLR 1323 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 KELPEYYELIR 1434 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 KELPEYYELIR 1434 2 SMARCA2 VIQAGMFDQKSSSHERR 1207 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 1 SMARCA2 AVATWHANTEREQKK 492 1 SMARCA2 EQKKETER 492 1 SMARCA2 LIDQKKDR 521 1 SMARCA2 ETERIEKER 500 1 SMARCA2 ETERIEKER 500 1 SMARCA2 ETERIEKER 500 1 SMARCA2 GGAKTLMNTIMQLR 1003 1 SMARCA2 AALLKK 1110 1 SMARCA2 AALLKK 1110 2 SMARCA2 DKHILAK 837 2 SMARCA2 DKHILAK 837 2 SMARCA2 DKHILAK 837 2 SMARCA2 DKHILAK 837 2 SMARCA2 DKHILAK 837 2 SMARCA2 DKHILAK 837 2 SMARCA2 NHHCKLTQVLNTHYVAPR 862 2 SMARCA2 DKHILAK 837 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 DKHILAK 837 2 SMARCA2 NHHCKLTQVLNTHYVAPR 862 2 SMARCA2 NHHCKLTQVLNTHYVAPR 862 2 SMARCA2 DKHILAK 837 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 NHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 DKHILAK 837 2 SMARCA2 NHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 862 1 SMARCA2 LSKAVATWHANTER 478 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 LCTVNSVEEKILAAAK 1183 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 SGKFNVLLTTYEYIIK 822 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 ILLDPNSEEVSEKDAK 672 1 SMARCA2 QIIETAKQDVDDEYSMQYSAR 682 1 SMARCA2 ILLDPNSEEVSEKDAK 672 1 SMARCA2 ILLDPNSEEVSEKDAK 672 1 SMARCA2 ILLDPNSEEVSEKDAK 672 1 SMARCA2 ILLDPNSEEVSEKDAK 672 1 SMARCA2 ILLDPNSEEVSEKDAK 672 1 SMARCA2 EQKKETER 493 1 SMARCA2 KETER 493 1 SMARCA2 EQKKETER 493 2 SMARCA2 LHKVLRPFLLR 940 2 SMARCA2 NHHCKLTQVLNTHYVAPR 862 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 857 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 857 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 857 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 857 2 SMARCA2 MKNHHCKLTQVLNTHYVAPR 857 2 SMARCA2 KPVDFKK 1445 2 SMARCA2 KPVDFKK 1450 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 KPVDFKK 1450 1 SMARCA2 ISYKGTPAMR 805 1 SMARCA2 LDGTTKSEDR 1101 1 SMARCA2 LDGTTKSEDR 1101 1 SMARCA2 LDGTTKSEDR 1101 2 SMARCA2 ASGKFELLDR 1051 2 SMARCA2 RKPR 1271 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 VIQAGMFDQKSSSHERR 1207 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 IRNHKYR 1460 2 SMARCA2 IRNHKYR 1460 2 SMARCA2 KIKER 1451 2 SMARCA2 KIKER 1451 2 SMARCA2 KIKER 1451 2 SMARCA2 KIKER 1451 2 SMARCA2 KLIDQK 516 2 SMARCA2 KLIDQK 516 2 SMARCA2 LIDQKK 521 2 SMARCA2 LHKVLRPFLLR 940 2 SMARCA2 LIDQKK 521 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 WKYMIVDEGHR 846 2 SMARCA2 TIQTIALITYLMEHKR 770 2 SMARCA2 TIQTIALITYLMEHKR 770 2 SMARCA2 TIQTIALITYLMEHKR 770 2 SMARCA2 TIQTIALITYLMEHKR 770 2 SMARCA2 TIQTIALITYLMEHKR 770 2 SMARCA2 TIQTIALITYLMEHKR 770

TABLE 7C SS18 Inter Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 #NAME? 1 :1057- 8.3325 ACTL6A:379 0 3.7721765 CW111116_112216_SS18_(—) N 8.3325 0.11909356 1//9 17//177 2uL.07711.07711.6 2 :315- 11.37525 ACTL6A:238 −3 5.25168467 CW111116_112216_SS18_(—) N 11.37525 0.20605097 2//16 14//82 70B.08006.08006.4 0 −4.5314194 CW111116_112216_SS18_(—) NP 10.037 0.17828342 2.58E−01 1//16 17//82 70B.08009.08009.4 3 :191- 11.46925 ACTL6A:242 −2 1.56647504 CW111116_112216_SS18_(—) NP 11.46925 0.25560496 3.79E−11 1//13 27//111 85B.11399.11399.4 2 #NAME? 1 :328- 6.5155 SMARCA4:516 0 −3.5674433 CW111116_112216_SS18_(—) NP 6.5155 0.18929952 3.51E−05 1//10 11//42 100B.05509.05509.4 −1 0.71746261 CW111116_112216_SS18_(—) NP 5.9785 0.23651001 5.11E−08 //10 8//51 100B.05515.05515.5 2 :328- 4.3035 SMARCA4:517 0 −0.9603377 CW111116_112216_SS18_(—) NP 4.3035 0.18461638 2.05E−02 //9 9//45 85B.05828.05828.4 3 :328- 5.66525 SMARCA4:524 0 −5.3106442 CW111116_112216_SS18_(—) NP 5.66525 0.18119233 2.91E−03 1//11 10//47 100B.06095.06095.4 3 BRD7- SMARCE1 1 BRD7:640- 18.29475 SMARCE1:1 −1 5.73540919 CW111116_112216_SS18_(—) N 18.29475 0.38762938 // 37//161 100B.08027.08027.6 4 SMARCA2- SMARCC1 1 SMARCA2:1365- 11.5585 SMARCC1:588 0 12.4617794 CW111116_112216_SS18_(—) N 11.5585 0.18268099 //11 27//114 85B.10478.10478.4 5 SMARCA2- SMARCC2 1 SMARCA2:437- 4.265 SMARCC2:592 0 1.60683545 CW111116_112216_SS18_(—) N 4.265 0.11795453 1//16 12//78 70B.06150.06150.4 6 PBRM- SMARCA4 1 PBRM:516- 4.647 SMARCA4:1131 0 0.08184244 CW111116_112216_SS18_(—) N 4.647 0.14910958 //15 18//82 50C.05697.05697.4 7 ARID2- SMARCD1 1 ARID2:1760- 12.681 SMARCD1:101 −1 −0.4727347 CW111116_112216_SS18_(—) NP 12.681 0.29978015 1.46E−10 //16 24//156 50C.07378.07378.5 −2 1.69601298 CW111116_112216_SS18_(—) NP 10.212 0.36183896 1.32E−06 //16 20//156 50C.07414.07414.5 8 SMARCC2- SMARCE1 1 SMARCC2:872- 20.35175 SMARCE1:228 0 −2.2244935 CW111116_112216_SS18_(—) NP 20.35175 0.34599169 2.32E−02 //18 38//147 70B.10293.10293.4 9 SMARCC2- SMARCD2 1 SMARCC2:2- 3.3625 SMARCD2:143 0 −1.2249378 CW111116_112216_SS18_(—) P 3.3625 0.1327032 3.46E−01 //11 10//47 85B.05973.05973.4 10 SMARCD1- SMARCE1 1 SMARCD1:223- 10.49175 SMARCE1:255 0 −1.9045664 CW111116_112216_SS18_(—) NP 10.49175 0.18597283 7.33E−02 2//16 24//85 85B.06289.06289.4 2 SMARCD1:223- 21.59325 SMARCE1:258 0 −1.7261348 CW111116_112216_SS18_(—) NP 21.59325 0.35076185 2.09E−03 2//15 26//121 70B.08478.08478.5 −1 −0.5810044 CW111116_112216_SS18_(—) NP 21.194 0.37299262 6.41E−06 2//15 24//121 70B.08471.08471.5 −2 −5.1751007 CW111116_112216_SS18_(—) NP 18.26625 0.39788383 4.47E−04 2//15 25//93 2uL.07712.07712.4 11 SMARCD1- SS18 1 SMARCD1:273- 13.937 SS18:13 0 5.12059648 CW111116_112216_SS18_(—) NP 13.937 0.22803803 3.81E−03 //13 34//159 85B.06907.06907.5 −1 0.331818 CW111116_112216_SS18_(—) NP 10.77325 0.1649657 7.39E−05 //13 23//118 85B.06909.06909.4 12 ACTL6A- SMARCE1 1 ACTL6A:379- 12.4655 SMARCE1:146 0 1.19638716 CW111116_112216_SS18_(—) NP 12.4655 0.50985725 8.37E−16 4//17 20//101 50C.08081.08081.4 13 ACTL6A- ARID1B 1 ACTL6A:379- 7.02475 ARID1B:2187 0 3.5111543 CW111116_112216_SS18_(—) N 7.02475 0.16413734 //16 16//103 2uL.07446.07446.4 −1 0.86279408 CW111116_112216_SS18_(—) N 6.55825 0.16268931 //16 14//103 2uL.07454.07454.4 2 ACTL6A:371- 10.27125 ARID1B:928 −1 −0.2851642 CW111116_112216_SS18_(—) NP 10.27125 0.22274088 1.56E−01 1//19 24//129 70B.07966.07966.4 3 ACTL6A:60- 11.75075 ARID1B:1996 0 7.88402088 CW111116_112216_SS18_(—) N 11.75075 0.16661822 //4 29//230 70B.10479.10479.5 14 ACTL6A- SMARCC1 1 ACTL6A:379- 4.61375 SMARCC1:317 0 −2.2519684 CW111116_112216_SS18_(—) NP 4.61375 0.21390157 1.33E−03 //13 7//77 50C.05341.05341.4 2 ACTL6A:371- 6.05825 SMARCC1:317 0 1.33767414 CW111116_112216_SS18_(—) NP 6.05825 0.23822304 6.29E−03 //13 8//65 85B.05306.05306.4 15 ACTL6A- ARID1A 1 ACTL6A:371- 13.16 ARID1A:250 −1 0.72280541 CW111116_112216_SS18_(—) N 13.16 0.45849665 //9 27//204 70B.06555.06555.4 −3 11.5009273 CW111116_112216_SS18_(—) N 12.449 0.48925133 //9 23//204 70B.06558.06558.4 −2 0.04779989 CW111116_112216_SS18_(—) NP 10.47475 0.55592559 1.99E−10 //9 22//204 70B.06561.06561.4 2 ACTL6A:421- 10.6015 ARID1A:2243 −1 1.60082105 CW111116_112216_SS18_(—) N 10.6015 0.25202962 //11 22//121 2uL.07908.07908.4 −2 3.09987907 CW111116_112216_SS18_(—) NP 7.57475 0.19392849 1.69E−03 //11 19//121 2uL.07922.07922.4 16 ACTL6A- SMARCA4 1 ACTL6A:379- 10.39625 SMARCA4:835 0 −1.133413 CW111116_112216_SS18_(—) NP 10.39625 0.21230919 6.04E−07 3//12 19//67 85B.06548.06548.4 0 −2.0763363 CW111116_112216_SS18_(—) NP 7.2665 0.20143317 5.72E−07 2//13 23//75 100B.06109.06109.4 2 ACTL6A:379- 8.57375 SMARCA4:1414 0 −0.3523274 CW111116_112216_SS18_(—) NP 8.57375 0.29225538 1.76E−10 2//17 14//100 100B.05633.05633.4 3 ACTL6A:371- 4.51075 SMARCA4:1414 −2 10.4376043 CW111116_112216_SS18_(—) N 4.51075 0.1697366 1//17 12//100 100B.05194.05194.4 17 ACTL6A- SMARCD1 1 ACTL6A:421- 4.05875 SMARCD1:327 0 −0.1553967 CW111116_112216_SS18_(—) NP 4.05875 0.18161174 5.85E−04 //15 7//93 50C.04878.04878.5 18 ACTL6A- SMARCA2 1 ACTL6A:379- 9.08375 SMARCA2:463 −1 1.31893117 CW111116_112216_SS18_(—) NP 9.08375 0.26541659 5.18E−08 //12 13//68 85B.06767.06767.4 0 −1.4129053 CW111116_112216_SS18_(—) NP 8.96775 0.1608464 5.00E−06 3//12 17//68 100B.06715.06715.4 19 SMARCC1- SMARCE1 1 SMARCC1:880- 27.054 SMARCE1:228 0 5.64216472 CW111116_112216_SS18_(—) P 27.054 0.32157758 1.69E−02 //18 43//170 85B.09139.09139.4 −1 −4.4658842 CW111116_112216_SS18_(—) P 18.537 0.42208206 2.15E−04 //18 41//235 50C.09026.09026.5 0 −0.0615281 CW111116_112216_SS18_(—) P 17.6175 0.43931176 3.71E−04 //18 37//235 50C.09032.09032.5 0 −1.9689264 CW111116_112216_SS18_(—) P 15.0265 0.41742597 1.31E−05 //18 34//235 50C.09111.09111.5 −1 0.82281115 CW111116_112216_SS18_(—) P 14.49525 0.37360818 2.94E−05 //18 31//235 50C.09117.09117.5 2 SMARCC1:740- 6.126 SMARCE1:228 0 −2.1076096 CW111116_112216_SS18_(—) NP 6.126 0.205674 1.27E−03 //8 7//36 85B.05196.05196.4 −2 2.24191753 CW111116_112216_SS18_(—) NP 5.62925 0.20703003 1.43E−01 //8 6//36 85B.05188.05188.4 −1 2.81234731 CW111116_112216_SS18_(—) NP 5.132 0.40098449 3.29E−02 //8 6//36 85B.05218.05218.4 0 5.04876935 CW111116_112216_SS18_(—) N 4.0565 0.14225347 //8 6//36 2uL.04138.04138.4 20 SMARCC1- SMARCC2 1 SMARCC1:740- 4.45775 SMARCC2:585 −1 0.65932287 CW111116_112216_SS18_(—) NP 4.45775 0.19363842 1.64E−03 1//8 8//35 85B.04087.04087.4 0 0.28020254 CW111116_112216_SS18_(—) NP 4.2915 0.22087547 1.09E−02 //8 7//35 85B.04090.04090.4 2 SMARCC1:740- 4.1925 SMARCC2:846 0 −1.2100034 CW111116_112216_SS18_(—) NP 4.1925 0.204617 2.76E−08 //8 6//36 50C.03424.03424.4 3 SMARCC1:588- 9.6135 SMARCC2:568 −2 12.8677636 CW111116_112216_SS18_(—) N 9.6135 0.20177353 //16 21//106 70B.09796.09796.4 4 SMARCC1:716- 6.75675 SMARCC2:848 0 −7.2491717 CW111116_112216_SS18_(—) NP 6.75675 0.20729724 4.92E−02 //17 17//93 70B.07934.07934.4 21 SMARCC1- SMARCD1 1 SMARCC1:608- 16.062 SMARCD1:101 0 −2.4666784 CW111116_112216_SS18_(—) NP 16.062 0.36797251 1.29E−05 1//16 32//124 50C.05981.05981.4 −2 0.09866209 CW111116_112216_SS18_(—) P 11.12025 0.47921784 4.12E−03 //16 18//124 50C.06031.06031.4 22 DPF2- SMARCE1 1 DPF2:107- 11.38825 SMARCE1:258 −1 2.71735452 CW111116_112216_SS18_(—) N 11.38825 0.23144262 1//10 26//146 85B.11412.11412.4 23 DPF2- SMARCC1 1 DPF2:59- 8.32575 SMARCC1:480 −1 −3.5665352 CW111116_112216_SS18_(—) P 8.32575 0.14550801 2.88E−08 1//14 25//179 100B.09165.09165.5 24 DPF2- DPF3 1 DPF2:107- 14.784 DPF3:108 −1 10.5765966 CW111116_112216_SS18_(—) N 14.784 0.42648819 //10 27//146 70B.11537.11537.4 2 DPF2:108- 9.3775 DPF3:108 −2 6.32289622 CW111116_112216_SS18_(—) P 9.3775 0.31950596 2.99E−01 //9 18//144 70B.11555.11555.4 25 SMARCB1- SMARCC1 1 SMARCB1:106- 8.219 SMARCC1:590 −4 14.7218873 CW111116_112216_SS18_(—) P 8.219 0.21393896 3.21E−03 1//17 8//92 50C.08037.08037.4 26 ARID1B- SMARCE1 1 ARID1B:1558- 6.551 SMARCE1:166 −4 15.6749301 CW111116_112216_SS18_(—) P 6.551 0.16591741 1.18E−01 1//14 19//154 70B.09171.09171.4 27 ARID1B- SMARCA4 1 ARID1B:2187- 11.41275 SMARCA4:458 0 −0.3976673 CW111116_112216_SS18_(—) NP 11.41275 0.25953109 1.09E−06 8//12 25//55 100B.06659.06659.4 28 ARID1B- SMARCD3 1 ARID1B:1904- 9.82825 SMARCD3:131 0 −4.5060515 CW111116_112216_SS18_(—) NP 9.82825 0.25085825 1.98E−10 2//12 16//54 100B.07038.07038.4 2 ARID1B:2097- 10.138 SMARCD3:131 0 −1.0954464 CW111116_112216_SS18_(—) NP 10.138 0.22013528 4.79E−05 3//12 15//55 70B.08300.08300.4 0 2.03205424 CW111116_112216_SS18_(—) N 10.0275 0.27959793 2//9 16//48 100B.08119.08119.4 0 −0.8915961 CW111116_112216_SS18_(—) NP 8.18075 0.17244414 1.00E−04 1//12 12//55 2uL.07554.07554.4 −1 3.49118524 CW111116_112216_SS18_(—) NP 7.41175 0.43684614 2.31E−09 //12 9//55 2uL.07549.07549.4 3 ARID1B:2110- 7.01175 SMARCD3:102 0 −1.9359581 CW111116_112216_SS18_(—) NP 7.01175 0.1998817 1.55E−05 //13 20//67 50C.04679.04679.4 29 ARID1B- SMARCD2 1 ARID1B:1904- 7.49775 SMARCD2:168 0 −0.9820808 CW111116_112216_SS18_(—) NP 7.49775 0.9098107 5.85E−13 //12 8//55 70B.07537.07537.4 2 ARID1B:2097- 15.0245 SMARCD2:168 0 0.47055841 CW111116_112216_SS18_(—) NP 15.0245 0.27128851 2.17E−09 //8 36//237 100B.09961.09961.5 0 −0.7256074 CW111116_112216_SS18_(—) NP 10.328 0.21160682 2.36E−07 4//12 17//56 70B.07941.07941.4 −1 0.11074487 CW111116_112216_SS18_(—) NP 8.11975 0.25943766 4.79E−12 //12 12//56 2uL.07145.07145.4 0 1.78344935 CW111116_112216_SS18_(—) NP 7.18375 0.97492705 5.62E−11 //12 9//56 2uL.07133.07133.4 3 ARID1B:2110- 6.78875 SMARCD2:185 0 6.26978732 CW111116_112216_SS18_(—) NP 6.78875 0.10188729 4.54E−02 //16 14//104 2uL.06253.06253.5 4 ARID1B:1930- 19.8505 SMARCD2:480 0 0.8295441 CW111116_112216_SS18_(—) NP 19.8505 0.30833573 2.98E−05 1//14 28//106 85B.10312.10312.4 −2 4.29011013 CW111116_112216_SS18_(—) NP 19.28325 0.35595027 7.16E−19 1//14 40//158 2uL.09360.09360.5 −1 −1.3807829 CW111116_112216_SS18_(—) NP 17.50975 0.41793369 8.20E−16 3//14 33//117 100B.09894.09894.4 −1 −6.059647 CW111116_112216_SS18_(—) NP 15.89975 0.35472302 7.59E−19 //14 32//158 2uL.09344.09344.5 −3 1.13249382 CW111116_112216_SS18_(—) N 15.244 0.24774705 2//14 26//141 85B.10327.10327.5 −1 −1.1125388 CW111116_112216_SS18_(—) NP 13.9855 0.26665968 1.72E−07 1//14 23//106 85B.10326.10326.4 −2 1.58135132 CW111116_112216_SS18_(—) NP 10.71225 0.22860603 7.44E−02 4//14 17//106 70B.11088.11088.4 30 ARID1B- SMARCD1 1 ARID1B:2110- 2.6395 SMARCD1:124 0 0.40076302 CW111116_112216_SS18_(—) P 2.6395 0.0774115 2.00E−03 //13 13//66 2uL.03724.03724.4 31 ARID1B- SMARCA2 1 ARID1B:2187- 5.39775 SMARCA2:434 0 −4.8431246 CW111116_112216_SS18_(—) NP 5.39775 0.17193846 8.46E−07 2//13 14//63 100B.06623.06623.4 32 ARID1A- SMARCE1 1 ARID1A:1662- 9.78425 SMARCE1:146 0 2.7650536 CW111116_112216_SS18_(—) N 9.78425 0.37338765 1//17 18//99 50C.08322.08322.4 −1 3.53464028 CW111116_112216_SS18_(—) NP 6.4625 0.25561159 2.58E−07 //17 13//99 50C.08899.08899.4 33 ARID1A- SMARCC1 1 ARID1A:1880- 16.08675 SMARCC1:740 −1 0.80586537 CW111116_112216_SS18_(—) N 16.08675 0.32160636 1//18 34//239 100B.05744.05744.5 −2 4.53861776 CW111116_112216_SS18_(—) N 7.117 0.21886003 //18 18//239 100B.05769.05769.5 2 ARID1A:1880- 10.8755 SMARCC1:882 −1 2.69798 CW111116_112216_SS18_(—) NP 10.8755 0.45328749 5.75E−11 //18 25//233 2uL.04849.04849.6 3 ARID1A:1880- 17.8935 SMARCC1:716 −1 4.4306168 CW111116_112216_SS18_(—) N 17.8935 0.52580773 //18 28//170 100B.07735.07735.4 4 ARID1A:1880- 11.809 SMARCC1:608 −2 2.15280244 CW111116_112216_SS18_(—) NP 11.809 0.55345175 2.72E−03 1//18 27//174 50C.05378.05378.4 5 ARID1A:1662- 5.49475 SMARCC1:925 0 3.82903051 CW111116_112216_SS18_(—) N 5.49475 0.11255351 //15 14//93 2uL.07968.07968.5 34 ARID1A- SMARCD2 1 ARID1A:2146- 11.155 SMARCD2:168 0 0.24184273 CW111116_112216_SS18_(—) NP 11.155 0.37462428 1.66E−12 //8 25//237 100B.11721.11721.5 −1 7.23799969 CW111116_112216_SS18_(—) NP 9.38875 0.34462981 2.74E−12 //8 21//237 100B.11657.11657.5 −1 1.91483679 CW111116_112216_SS18_(—) NP 8.4945 0.43904897 8.86E−09 //8 22//237 100B.11754.11754.5 −1 10.223972 CW111116_112216_SS18_(—) N 7.9225 0.34618746 //8 19//237 100B.11624.11624.5 0 −1.6945823 CW111116_112216_SS18_(—) NP 7.80925 0.15767344 5.33E−08 3//12 12//55 70B.07654.07654.4 −1 1.14636357 CW111116_112216_SS18_(—) NP 6.40775 0.8098774 1.77E−12 //12 9//55 70B.07641.07641.4 −2 −1.2514082 CW111116_112216_SS18_(—) P 6.36075 0.27833326 4.77E−04 //8 15//237 100B.11617.11617.5 −2 1.92866319 CW111116_112216_SS18_(—) P 6.24525 0.35351806 1.85E−04 //8 18//237 100B.11744.11744.5 0 −2.2469088 CW111116_112216_SS18_(—) P 6.23925 0.29311519 1.39E−06 //8 14//237 100B.11639.11639.5 −4 0.50454428 CW111116_112216_SS18_(—) P 5.92125 0.32660857 4.11E−03 //8 14//237 2uL.11529.11529.5 2 ARID1A:2159- 11.61025 SMARCD2:185 0 1.53531181 CW111116_112216_SS18_(—) N 11.61025 0.24063941 4//16 26//84 100B.06064.06064.4 −1 0.44360544 CW111116_112216_SS18_(—) NP 9.5165 0.21725185 1.81E−05 3//16 23//84 2uL.06162.06162.4 −1 1.79139691 CW111116_112216_SS18_(—) N 7.5165 0.17204166 1//16 17//84 100B.06059.06059.4 0 −0.5076916 CW111116_112216_SS18_(—) NP 7.5 0.16073208 3.15E−05 4//16 22//84 2uL.06167.06167.4 −1 5.48736779 CW111116_112216_SS18_(—) N 6.9675 0.13893182 //15 18//106 2uL.06341.06341.5 −1 3.21730229 CW111116_112216_SS18_(—) N 6.404 0.16559999 1//16 18//84 2uL.05658.05658.4 −1 2.76811513 CW111116_112216_SS18_(—) N 6.33175 0.14751244 //15 15//82 70B.08238.08238.4 0 1.96268465 CW111116_112216_SS18_(—) N 5.8685 0.14364567 1//16 17//84 2uL.05649.05649.4 0 5.16394828 CW111116_112216_SS18_(—) NP 5.291 0.13881856 5.79E−03 //16 14//104 2uL.06635.06635.5 −1 0.94920587 CW111116_112216_SS18_(—) N 3.93775 0.12509531 //16 12//84 100B.06168.06168.4 3 ARID1A:2159- 6.69275 SMARCD2:143 0 12.9717532 CW111116_112216_SS18_(—) N 6.69275 0.19617341 1//13 19//60 50C.06357.06357.4 35 ARID1A- SMARCB1 1 ARID1A:1905- 10.59425 SMARCB1:16 0 4.98899584 CW111116_112216_SS18_(—) N 10.59425 0.21113337 //9 17//170 100B.09686.09686.6 36 ARID1A- SS18 1 ARID1A:1201- 7.84575 SS18:13 −2 6.77765031 CW111116_112216_SS18_(—) NP 7.84575 0.18399329 1.88E−04 5//15 16//129 70B.08098.08098.4 2 ARID1A:2159- 8.56025 SS18:13 0 −1.1508868 CW111116_112216_SS18_(—) NP 8.56025 0.22061647 6.84E−03 1//13 13//58 50C.06310.06310.4 37 ARID1A- SMARCD3 1 ARID1A:2146- 8.91325 SMARCD3:131 0 −5.7308367 CW111116_112216_SS18_(—) NP 8.91325 0.21798383 1.15E−09 1//12 11//53 100B.07095.07095.4 0 −1.016649 CW111116_112216_SS18_(—) NP 8.81675 0.25606639 2.48E−07 2//12 13//55 70B.08057.08057.4 −1 0.11159658 CW111116_112216_SS18_(—) NP 8.767 0.27446192 3.24E−08 2//12 12//55 70B.08051.08051.4 −2 0.45698581 CW111116_112216_SS18_(—) N 7.468 0.18113684 1//12 11//56 70B.07512.07512.4 −1 −1.448318 CW111116_112216_SS18_(—) NP 6.7455 0.2079153 9.21E−05 1//12 10//53 100B.07117.07117.4 0 1.3122917 CW111116_112216_SS18_(—) N 6.613 0.16372662 3//12 14//55 70B.07522.07522.4 −1 −3.9113614 CW111116_112216_SS18_(—) P 4.1085 0.33699709 4.87E−02 //8 9//237 100B.11902.11902.5 2 ARID1A:2159- 6.9825 SMARCD3:102 0 1.79651942 CW111116_112216_SS18_(—) N 6.9825 0.19372694 //13 17//67 50C.04981.04981.4 0 −0.5521343 CW111116_112216_SS18_(—) NP 6.1155 0.158367 3.90E−04 //13 20//67 50C.05260.05260.4 3 ARID1A:2159- 10.785 SMARCD3:148 0 9.80950797 CW111116_112216_SS18_(—) P 10.785 0.13013025 2.22E−03 5//14 26//70 100B.06561.06561.4 0 −3.6840098 CW111116_112216_SS18_(—) NP 7.2805 0.13074319 9.47E−05 4//14 18//89 100B.06566.06566.5 0 0.82834173 CW111116_112216_SS18_(—) N 5.17525 0.11967833 1//14 15//71 50C.06104.06104.4 4 ARID1A:1953- 9.74 SMARCD3:131 −2 1.16687588 CW111116_112216_SS18_(—) NP 9.74 0.30415639 1.49E−09 1//14 19//245 100B.09902.09902.5 −1 −0.7755764 CW111116_112216_SS18_(—) P 3.24875 0.19150284 1.69E−03 //14 7//178 100B.09887.09887.4 5 ARID1A:1962- 4.33675 SMARCD3:131 0 14.6722491 CW111116_112216_SS18_(—) N 4.33675 0.11598845 //5 20//231 100B.09858.09858.5 38 ARID1A- ARID2 1 ARID1A:1938- 12.804 ARID2:1298 −1 1.77123286 CW111116_112216_SS18_(—) N 12.804 0.19616675 2//18 30//119 100B.06870.06870.5 −1 2.85512185 CW111116_112216_SS18_(—) N 11.4445 0.21433655 3//18 31//119 100B.06786.06786.5 −1 1.13896319 CW111116_112216_SS18_(—) N 11.33325 0.20085156 2//18 31//119 100B.06957.06957.5 −1 5.11321639 CW111116_112216_SS18_(—) N 10.821 0.18120772 1//18 33//119 2uL.06498.06498.5 39 ARID1A- SMARCA4 1 ARID1A:1962- 8.242 SMARCA4:437 −2 −5.3861728 CW111116_112216_SS18_(—) NP 8.242 0.16644957 1.11E−04 //8 18//219 100B.09952.09952.5 40 ARID1A- SMARCC2 1 ARID1A:1880- 17.808 SMARCC2:718 0 −2.336885 CW111116_112216_SS18_(—) NP 17.808 0.4481071 4.35E−09 //18 41//234 50C.04689.04689.5 −1 2.03940513 CW111116_112216_SS18_(—) NP 17.45975 0.46303737 7.90E−09 1//18 36//234 50C.04682.04682.5 −3 3.55300924 CW111116_112216_SS18_(—) NP 14.247 0.43884859 1.09E−08 1//18 34//234 50C.04677.04677.5 2 ARID1A:1880- 17.2015 SMARCC2:694 −1 0.01763557 CW111116_112216_SS18_(—) NP 17.2015 0.49533504 3.69E−10 1//18 31//229 50C.06743.06743.5 −3 3.20384353 CW111116_112216_SS18_(—) NP 12.137 0.46282914 2.86E−10 //18 21//229 50C.06778.06778.5 3 ARID1A:1880- 11.3645 SMARCC2:584 −2 2.7157238 CW111116_112216_SS18_(—) NP 11.3645 0.45510793 3.30E−03 //18 28//234 50C.05289.05289.5 −1 −0.5741147 CW111116_112216_SS18_(—) NP 10.61575 0.5730654 1.29E−03 //18 25//234 50C.05272.05272.5 0 −6.3393171 CW111116_112216_SS18_(—) NP 8.67075 0.33869456 6.89E−04 //18 26//234 50C.05279.05279.5 41 ARID1A- SMARCD1 1 ARID1A:250- 12.13 SMARCD1:101 −1 −5.305257 CW111116_112216_SS18_(—) NP 12.13 0.39648945 4.58E−16 //9 21//281 50C.05949.05949.5 −2 5.1297657 CW111116_112216_SS18_(—) NP 9.7295 0.50917131 7.41E−16 //9 19//281 50C.05921.05921.5 2 ARID1A:1201- 14.353 SMARCD1:101 −1 6.77369815 CW111116_112216_SS18_(—) NP 14.353 0.19832667 1.06E−05 //15 22//168 100B.07114.07114.5 3 ARID1A:1230- 11.38475 SMARCD1:101 0 0.30138791 CW111116_112216_SS18_(—) NP 11.38475 0.19175285 9.27E−13 1//16 28//157 100B.06539.06539.5 −1 −5.5523206 CW111116_112216_SS18_(—) P 3.76625 0.10383497 1.51E−03 //16 8//157 100B.06558.06558.5 4 ARID1A:2159- 2.93625 SMARCD1:124 0 −2.3088437 CW111116_112216_SS18_(—) P 2.93625 0.17504248 6.20E−04 1//7 5//30 2uL.02891.02891.4 5 ARID1A:2159- 12.00775 SMARCD1:173 0 0.24138367 CW111116_112216_SS18_(—) NP 12.00775 0.22289822 7.97E−09 5//14 25//71 100B.06944.06944.4 0 −2.897578 CW111116_112216_SS18_(—) NP 5.66925 0.19216494 8.53E−04 4//14 13//71 50C.06961.06961.4 42 DPF3- SMARCA4 1 DPF3:130- 9.80375 SMARCA4:688 0 9.20038355 CW111116_112216_SS18_(—) N 9.80375 0.20118717 1//15 23//113 85B.06040.06040.4 0 10.965395 CW111116_112216_SS18_(—) N 7.27975 0.78201203 //15 16//113 85B.06249.06249.4 43 SMARCA4- SMARCE1 1 SMARCA4:455- 8.477 SMARCE1:166 −4 −1.0412737 CW111116_112216_SS18_(—) P 8.477 0.27577345 3.54E−06 //14 20//157 70B.08148.08148.4 2 SMARCA4:458- 10.1375 SMARCE1:166 −1 1.41351882 CW111116_112216_SS18_(—) NP 10.1375 0.20866782 3.08E−05 //14 21//157 70B.08116.08116.4 −2 −0.9745708 CW111116_112216_SS18_(—) NP 6.45525 0.12602495 5.18E−02 //14 21//215 70B.08136.08136.5 44 SMARCA4- SMARCC1 1 SMARCA4:399- 4.861 SMARCC1:609 0 −1.0377774 CW111116_112216_SS18_(—) NP 4.861 0.14453067 3.22E−03 //8 8//37 70B.06175.06175.4 2 SMARCA4:405- 3.772 SMARCC1:588 0 −0.9150299 CW111116_112216_SS18_(—) NP 3.772 0.10056119 5.11E−05 //16 10//108 50C.08344.08344.4 −1 −3.6381624 CW111116_112216_SS18_(—) P 2.90425 0.11852872 3.16E−04 //16 5//108 50C.08286.08286.4 3 SMARCA4:357- 7.9005 SMARCC1:740 0 0.50513373 CW111116_112216_SS18_(—) NP 7.9005 0.21702882 8.61E−05 4//10 14//42 85B.05522.05522.4 4 SMARCA4:357- 8.1675 SMARCC1:716 0 7.38016252 CW111116_112216_SS18_(—) N 8.1675 0.14213741 //17 17//88 85B.08310.08310.4 5 SMARCA4:188- 7.30525 SMARCC1:590 −3 4.73995655 CW111116_112216_SS18_(—) P 7.30525 0.16552619 7.89E−01 //14 16//120 50B.11598.11598.4 −2 −2.2900684 CW111116_112216_SS18_(—) P 2.966 0.11228681 2.59E−01 //14 6//120 50B.11781.11781.4 45 SMARCA4- SMARCD1 1 SMARCA4:357- 8.42175 SMARCD1:464 0 0.65716853 CW111116_112216_SS18_(—) N 8.42175 0.26786311 //17 13//100 70B.08337.08337.4 46 SMARCA4- SMARCB1 1 SMARCA4:835- 3.65475 SMARCB1:124 0 0.33399651 CW111116_112216_SS18_(—) N 3.65475 0.17301001 //12 9//55 50C.04124.04124.4 2 SMARCA4:499- 3.17025 SMARCB1:124 0 0.87159254 CW111116_112216_SS18_(—) N 3.17025 0.10403131 3//8 8//30 50C.04051.04051.4 47 BCL7C- SMARCA4 1 BCL7C:15- 5.38175 SMARCA4:499 0 1.989697 CW111116_112216_SS18_(—) N 5.38175 0.14092224 2//7 9//32 100B.04830.04830.4 0 −5.6629206 CW111116_112216_SS18_(—) NP 4.07025 0.14320773 2.81E−04 3//10 12//42 50C.04996.04996.4 2 BCL7C:15- 3.191 SMARCA4:496 0 −0.9232515 CW111116_112216_SS18_(—) NP 3.191 0.26071326 1.72E−03 //10 5//42 85B.04882.04882.4 48 BCL7C- SMARCB1 1 BCL7C:20- 3.138 SMARCB1:124 0 −2.7791018 CW111116_112216_SS18_(—) NP 3.138 0.12251113 3.83E−03 //9 6//42 100B.04557.04557.4 49 BCL7C- SMARCA2 1 BCL7C:15- 3.2195 SMARCA2:475 0 0.3833078 CW111116_112216_SS18_(—) N 3.2195 0.13956563 //7 5//32 100B.04769.04769.4 Total unique inter crosslinks are: 94 Total counted inter crosslinks are: 173 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 2.58275 0.62068966 K.AFASNLPTLNVAKAASSGPGK[2322.29]PSGLQYESK.L Q9NZM4:1057 1 6.05475 1.53846154 R.M[147.04]QK[1291.65]EITALAPSTMK.I P60709:315 1 6.58725 1.60714286 R.MQK[1309.68]EITALAPSTMK.I P60709:315 1 8.4925 1.84210526 R.LDLAGRDLTDYLMK[1235.72]ILTER.G P60709:191 1 2.09325 1.4375 R.EQK[1301.81]KENER.I P51532:516 1 SMARCA4 1.82825 1 R.EQK[1301.81]KENER.I P51532:516 1 SMARCA4 2.9985 1.38888889 K.IK[940.5]IIAPPER.K P60709:328 1 0.9735 0.94444444 K.ENERIEK[1301.81]ER.M P51532:524 1 SMARCA4 17.2635 0.78205128 -.M[1445.65]SK[284.17]RPSYAPPPTPAPATQMPSTPGFVGYNPYSHLAYNNYR.L Q969G3:1 1 SMARCE1 10.447 2 R.SPQVPAAQQMLNFPEK[1349.7]NK[284.17]EK.P Q92922:588 1 SMARCC1 3.16425 1.11538462 K.NVPSKSK[1306.69]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.634 1.45833333 K.YLRLDGTTK[795.5]AEDR.G P51532:1131 1 SMARCA4 10.3905 1.89473684 R.K[2274.19]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 8.71925 1.63157895 R.K[2274.19]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 18.82625 2.63043478 R.DIGEGNLSTAAAAALAAAAVK[1039.62]AK.H Q8TAQ2:872 1 SMARCC2 3.17875 1.44444444 K.MADK[738.48]VLPQR.I Q92925:143 1 SMARCD2 9.14375 2.42857143 R.LLEDSALSK[934.52]YDATK.Q Q96GM5:223 1 SMARCD1 14.179 2.86666667 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 13.9065 2.8 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 11.68625 2.6 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 8.439 1.97619048 R.TATTQETDGFQVK[1477.85]RPGDVNVR.C Q96GM5:273 1 SMARCD1 5.2645 1.28571429 R.TATTQETDGFQVK[1477.85]RPGDVNVR.C Q96GM5:273 1 SMARCD1 7.048 1.55882353 K.AYHNSPAYLAYINAK[1636.95]SR.A Q969G3:146 1 SMARCE1 4.623 1.02941177 K.TPPSM[147.04]RLK[1280.77]LIANNTTVER.R O96019:379 1 ACTL6A 4.2085 0.97058824 K.TPPSM[147.04]RLK[1280.77]LIANNTTVER.R O96019:379 1 ACTL6A 8.37575 1.675 R.K[1538.81]AQEAAAAVMQAAANSAQSR.Q Q8NFD5:928 1 ARID1B 10.733 1.26785714 R.DDGSTLM[147.04]EIDGDK[2574.25]GK[284.17]QGGPTYYIDTNALR.V O96019:60 1 ACTL6A 2.4085 0.65384615 R.LK[982.56]LIANNTTVERR.F O96019:379 1 ACTL6A 2.96225 1 R.ELSQK[982.56]TPPSMR.L O96019:371 1 ACTL6A 11.19225 1.17647059 R.GGTPGSGAAAAAGSK[1538.82]PPPSSSASASSSSSSFAQQR.F O14497:250 1 ARID1A 10.42325 1.02941177 R.GGTPGSGAAAAAGSK[1538.76]PPPSSSASASSSSSSFAQQR.F O14497:250 1 ARID1A 8.70225 0.95714286 R.GGTPGSGAAAAAGSK[1538.81]PPPSSSASASSSSSSFAQQR.F O14497:250 1 ARID1A 8.75625 1.575 R.ALLALAK[1876.87]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 6.2765 1.16666667 R.ALLALAK[1876.86]VDENHSEFTLYESR.L O14497:2243 1 ARID1A 7.1695 2.25 R.LK[1300.71]LIANNTTVER.R O96019:379 1 ACTL6A 3.97875 2.07692308 R.LK[1300.71]LIANNTTVERR.F O96019:379 1 ACTL6A 3.359 1.21875 R.K[1636.95]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 2.474 0.78125 R.K[1538.78]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.5155 0.65384615 K.QEYEEGGK[1525.8]QC[160.03]VER.K O96019:421 1 ACTL6A 6.5675 1.70833333 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 5.6015 1.91666667 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 25.28975 2.88461539 K.VEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 17.912 2.31481482 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 16.781 2.2037037 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 14.4275 1.81481482 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 13.8355 1.75925926 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 3.246 1.5 K.K[1039.62]VQEAAR.A Q92922:740 1 SMARCC1 3.0025 1.42857143 K.K[1039.62]VQEAAR.A Q92922:740 1 SMARCC1 2.913 1.42857143 K.K[1039.62]VQEAAR.A Q92922:740 1 SMARCC1 2.4135 1.42857143 K.K[1055.63]VQEAAR.A Q92922:740 1 SMARCC1 2.54775 1.57142857 K.K[937.56]VQEAAR.A Q92922:740 1 SMARCC1 2.578 1.5 K.K[937.56]VQEAAR.A Q92922:740 1 SMARCC1 2.38975 1.21428571 K.K[1025.62]VQEAAR.A Q92922:740 1 SMARCC1 7.464 1.58823529 R.SPQVPAAQQMLNFPEK[1682.89]NK.E Q92922:588 1 SMARCC1 5.69225 1.66666667 R.VASAAAK[897.53]AALEEFSR.V Q92922:716 1 SMARCC1 14.76425 2.47368421 R.K[1119.62]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 10.465 1.52631579 R.K[1119.62]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 10.31725 1.75 K.PDTDQTLK[2093.09]KEGLISQDGSSLEALLR.T Q92785:107 1 DPF2 5.41775 1.22727273 R.LPFLDSQTGVAQSNC[160.03]YIWMEK[1848.01]R.H Q92785:59 1 DPF2 12.145 1.625 K.PDTDQTLK[2033.12]KEGLISQDGSSLEALLR.T Q92785:107 1 DPF2 7.67 1.08 K.PDTDQTLKK[2033.07]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.295 0.59375 K.ASEVEEILDGNDEK[1923.06]YK.A Q12824:106 1 SMARCB1 5.65925 0.96153846 R.MEK[2301.19]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 6.836 3.7 R.ITEKLEK[1280.76]QQK.I P51532:458 1 SMARCA4 4.75575 1.8 R.NIK[1397.81]LLEDEPR.S Q8NFD5:1904 1 ARID1B 5.163 2.05 R.QEK[1269.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 5.07925 2.5625 R.Q[111.03]EK[1397.8]FYATLVR.Y Q8NFD5:2097 1 ARID1B 3.95175 1.6 R.QEK[1269.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 3.77175 1.3 R.QEK[1269.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 4.90525 2.04545455 R.YVGDRK[857.47]NPVC[160.03]R.E Q8NFD5:2110 1 ARID1B 3.85875 1.25 R.NIK[1209.71]LLEDEPR.S Q8NFD5:1904 1 ARID1B 11.55325 1.74137931 K.LSIQDNNVDLILATPPFSRQEK[1209.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 5.554 2.2 R.QEK[1209.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 4.228 1.55 R.QEK[1209.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 3.36225 1 R.QEK[1209.71]FYATLVR.Y Q8NFD5:2097 1 ARID1B 4.46275 1.35714286 R.MEIQEAIK[1628.85]KPLTQK.R Q92925:185 1 SMARCD2 10.316 2.08333333 R.DETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 11.70725 2.55 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 8.8005 2.125 R.SRDETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 9.757 2.1 R.SRDETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 8.17325 1.79411765 R.DETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 8.769 1.80555556 R.DETPLC[160.03]TIAHWQDSLAK[2262.22]R.C Q8NFD5:1930 1 ARID1B 3.59625 0.88888889 R.DETPLC[160.03]TIAHWQDSLAK[2106.12]R.C Q8NFD5:1930 1 ARID1B 2.2135 1.13636364 R.YVGDRK[976.55]NPVC[160.03]R.E Q8NFD5:2110 1 ARID1B 2.91675 1.27272727 K.LEK[1280.76]QQKIEQER.K P51531:434 P51532:458 2 SMARCA2 6.701 1.65625 K.AYHNSPAYLAYINAK[1798.92]SR.A Q969G3:146 1 SMARCE1 3.59025 0.82352941 K.AYHNSPAYLAYINAK[1782.93]SR.A Q969G3:146 1 SMARCE1 13.50975 1.64814815 R.K[1066.61]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 5.897 0.72222222 R.K[1066.6]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 7.391 1.11111111 R.K[1388.78]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 13.4695 1.62962963 R.K[1785.94]HVTTAEGTPGTTDQEGPPPDGPPEK[284.17]R.I O14497:1880 1 ARID1A 10.793 1.2962963 R.K[1119.62]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 1.435 1.25 R.LTM[147.04]K[1395.72]DIGTPEAWR.V O14497:1662 1 ARID1A 8.0465 0.98275862 K.LSIQDNNVDLILATPPFSRLEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 6.74125 0.77586207 K.LSIQDNNVDLILATPPFSRLEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 7.049 0.89655172 K.LSIQDNNVDLILATPPFSRLEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 6.183 0.73214286 K.LSIQDNNVDLILATPPFSRLEK[1209.66]LYSTMVR.F O14497:2146 1 ARID1A 3.47075 1.55 R.LEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 3.05525 1.3 R.LEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 4.95275 0.53448276 K.LSIQDNNVDLILATPPFSRLEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 5.16875 0.67241379 K.LSIQDNNVDLILATPPFSRLEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 5.01275 0.51724138 K.LSIQDNNVDLILATPPFSRLEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 5.13025 0.53448276 K.LSIQDNNVDLILATPPFSRLEK[1209.71]LYSTMVR.F O14497:2146 1 ARID1A 7.8935 3.07692308 R.M[147.04]EIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 6.72625 2.28571429 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 4.0935 1.42307692 R.M[147.04]EIQEAIK[1038.57]KPLTQK.R Q92925:185 1 SMARCD2 5.59225 2.14285714 R.MEIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 4.19975 1.73076923 R.MEIQEAIK[1656.89]K[284.17]PLTQK.R Q92925:185 1 SMARCD2 3.19925 1.53846154 R.M[147.04]EIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 3.85325 1.73076923 R.MEIQEAIK[1038.56]K[284.17]PLTQK.R Q92925:185 1 SMARCD2 3.57975 1.65384615 R.M[147.04]EIQEAIK[1038.57]KPLTQK.R Q92925:185 1 SMARCD2 4.535 1.21428571 R.MEIQEAIK[1656.88]KPLTQK.R Q92925:185 1 SMARCD2 1.5835 0.73076923 R.M[147.04]EIQEAIK[1038.56]KPLTQK.R Q92925:185 1 SMARCD2 2.53825 1.9 R.FLSDRK[1322.7]NPVC[160.03]R.E O14497:2159 1 ARID1A 8.05225 0.96428571 K.TFGQKPVK[3220.56]FQLEDDGEFYMIGSEVGNYLR.M Q12824:16 1 SMARCB1 4.50975 1 R.SNSVGIQDAFNDGSDSTFQK[1477.85]R.N O14497:1201 1 ARID1A 2.13675 1.13636364 R.FLSDRK[1477.85]NPVC[160.03]R.E O14497:2159 1 ARID1A 3.492 1.45 R.LEK[1397.81]LYSTMVR.F O14497:2146 1 ARID1A 3.619 1.7 R.LEK[1269.71]LYSTMVR.F O14497:2146 1 ARID1A 3.603 1.55 R.LEK[1269.71]LYSTMVR.F O14497:2146 1 ARID1A 2.9095 1.61111111 R.LEK[1269.71]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 3.21375 1.4 R.LEK[1397.81]LYSTMVR.F O14497:2146 1 ARID1A 3.73775 2 R.LEK[1285.7]LYSTMVR.F O14497:2146 1 ARID1A 3.287 0.32758621 K.LSIQDNNVDLILATPPFSRLEK[1269.71]LYSTMVR.F O14497:2146 1 ARID1A 5.1535 2 R.FLSDRK[873.46]NPVC[160.03]R.E O14497:2159 1 ARID1A 4.62775 2.13636364 R.FLSDRK[857.47]NPVC[160.03]R.E O14497:2159 1 ARID1A 8.254 3.08333333 R.VDIQEALK[1038.56]RPMK.Q Q6STE5:148 1 SMARCD3 4.66775 2.04166667 R.VDIQEALK[1038.56]RPMK.Q Q6STE5:148 1 SMARCD3 3.073 1.54545455 R.VDIQEALK[1038.56]RPM[147.04]K.Q Q6STE5:148 1 SMARCD3 5.60075 0.77586207 R.NIK[1269.71]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 1.62175 0.18965517 R.NIK[1269.71]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 2.97 0.51785714 R.NIKILEDEPHSK[1269.64]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 1 ARID1A 10.25975 2.73333333 K.ESSK[1731.87]FPFGISPAQSHR.N O14497:1938 1 ARID1A 9.819 2.53333333 K.ESSK[1731.88]FPFGISPAQSHR.N O14497:1938 1 ARID1A 9.76225 2.6 K.ESSK[1731.87]FPFGISPAQSHR.N O14497:1938 1 ARID1A 8.67575 2.53333333 K.ESSK[1731.88]FPFGISPAQSHR.N O14497:1938 1 ARID1A 4.67575 0.72222222 K.ILEDEPHSK[1930.05]DETPLC[160.03]TLLDWQDSLAKR.C O14497:1962 1 ARID1A 15.214 2.27777778 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 14.86325 2.03703704 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 12.1285 1.7037037 R.K[1039.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 12.621 1.7037037 R.K[1773.95]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 7.48925 0.96296296 R.K[1773.95]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 10.19925 1.27777778 R.K[1151.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 9.25675 1.14814815 R.K[1151.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 7.36625 1 R.K[1151.59]HVTTAEGTPGTTDQEGPPPDGPPEKR.I O14497:1880 1 ARID1A 8.64775 0.9 R.GGTPGSGAAAAAGSK[2510.38]PPPSSSASASSSSSSFAQQR.F O14497:250 1 ARID1A 6.566 0.67142857 R.GGTPGSGAAAAAGSK[2510.38]PPPSSSASASSSSSSFAQQR.F O14497:250 1 ARID1A 6.443 1.40476191 R.SNSVGIQDAFNDGSDSTFQK[2510.38]R.N O14497:1201 1 ARID1A 8.40625 1.84210526 R.K[1939.88]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.19125 0.55263158 R.K[1939.88]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.067 1.08333333 R.K[976.55]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 2 ARID1A 8.70075 3.04166667 R.LDIQEALK[1038.56]RPIK.Q Q96GM5:173 1 SMARCD1 3.34125 1.33333333 R.LDIQEALK[1038.56]RPIK.Q Q96GM5:173 1 SMARCD1 7.86975 1.5 K.K[853.53]K[284.17]IPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 5.71875 1.17647059 K.K[853.53]K[284.17]IPDPDSDDVSEVDAR.H P51532:688 1 SMARCA4 7.5595 0.86538462 R.MEK[1509.88]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 8.396 0.98076923 R.MEK[1509.88]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 5.297 0.88461539 R.MEK[1509.88]GEPYMSIQPAEDPDDYDDGFSMK.H Q969G3:166 1 SMARCE1 2.6775 1.5 R.TK[825.53]ATIELK.A P51532:399 1 SMARCA4 2.792 0.52777778 R.SPQVPAAQQMLNFPEK[1508.93]NK.E Q92922:588 1 SMARCC1 1.57925 0.25 R.SPQVPAAQQMLNFPEK[1508.93]NK.E Q92922:588 1 SMARCC1 4.44775 2.25 R.ITPIQK[1066.61]PR.G P51532:357 1 SMARCA4 5.27575 1.71428571 R.VASAAAK[1217.73]AALEEFSR.V Q92922:716 1 SMARCC1 6.07475 1.175 R.SPQVPAAQQMLNFPEKNK[1560.85]EK.P Q92922:590 1 SMARCC1 0.751 0.275 R.SPQVPAAQQMLNFPEKNK[1560.85]EK.P Q92922:590 1 SMARCC1 6.103 1.36666667 R.DLK[1217.75]TMTDVVGNPEEER.R Q96GM5:464 1 SMARCD1 2.381 1.27777778 K.VSYK[1024.6]GSPAAR.R P51532:835 1 SMARCA4 1.95075 1.8 R.EQK[995.64]AKR.N Q12824:124 1 SMARCB1 3.4205 2.08333333 R.AK[995.64]DDIKK.V Q8WUZ0:15 1 BCL7C 2.795 1.6875 R.SRAK[995.64]DDIK.K Q8WUZ0:15 1 BCL7C 0.906 0.625 R.SVTGK[1082.63]IQK.L P51532:496 1 SMARCA4 2.0935 1.25 K.K[1024.6]VMATIEK.V Q8WUZ0:20 1 BCL7C 2.0495 1.33333333 R.AK[981.62]DDIKK.V Q8WUZ0:15 1 BCL7C realpep1 position1 immonium2 ion2 dot2 connective2 AFASNLPTLNVAKAASSGPGKPSGLQYESK 1057 //16 17//103 5.74975 1.38235294 MQKEITALAPSTMK 315 5//10 17//38 5.3205 3.71428571 MQKEITALAPSTMK 315 7//11 16//43 3.44975 2.16666667 LDLAGRDLTDYLMKILTER 191 //8 9//35 2.97675 1.4375 EQKKENER 516 //9 10//46 4.42225 1.61111111 EQKKENER 516 //9 10//56 4.15025 1.61111111 IKIIAPPER 328 1//6 6//27 1.305 1.7 ENERIEKER 524 //9 11//45 4.69175 1.83333333 MSKRPSYAPPPTPAPATQMPSTPGFVGYNPYSHLAYNNYR 1 3//14 8//69 1.03125 0.57692308 SPQVPAAQQMLNFPEKNKEK 588 2//9 4//34 1.1115 0.66666667 NVPSKSKAAASATR 592 //7 6//34 1.10075 1.41666667 YLRLDGTTKAEDR 1131 //5 4//20 1.013 0.75 KRPAPQQIQQVQQQAVQNR 101 //15 11//129 2.2905 0.67647059 KRPAPQQIQQVQQQAVQNR 101 //15 9//129 1.49275 0.52941177 DIGEGNLSTAAAAALAAAAVKAK 872 5//8 9//25 1.5255 1.75 MADKVLPQR 143 1//5 4//21 0.18375 0.75 LLEDSALSKYDATK 223 4//7 8//21 1.348 2.1 KFLESTDSFNNELKR 258 7//16 27//102 7.41425 2.78571429 KFLESTDSFNNELKR 258 7//16 26//102 7.2875 2.53571429 KFLESTDSFNNELKR 258 4//16 19//78 6.58 2 TATTQETDGFQVKRPGDVNVR 273 //12 12//73 5.498 1.58333333 TATTQETDGFQVKRPGDVNVR 273 //12 12//59 5.50875 1.58333333 AYHNSPAYLAYINAKSR 146 //12 11//61 5.4175 1.54166667 TPPSMRLKLIANNTTVER 379 //12 9//45 2.40175 1.11111111 TPPSMRLKLIANNTTVER 379 //12 9//45 2.34975 1.11111111 KAQEAAAAVMQAAANSAQSR 928 //13 7//56 1.8955 0.54545455 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //9 14//137 1.01775 0.52941177 LKLIANNTTVERR 379 //8 7//34 2.20525 1.5 ELSQKTPPSMR 371 1//8 9//37 3.096 1.85714286 GGTPGSGAAAAAGSKPPPSSSASASSSSSSFAQQR 250 //13 6//56 1.96775 0.65 GGTPGSGAAAAAGSKPPPSSSASASSSSSSFAQQR 250 1//13 7//56 2.02575 0.7 GGTPGSGAAAAAGSKPPPSSSASASSSSSSFAQQR 250 //13 5//56 1.7725 0.54545455 ALLALAKVDENHSEFTLYESR 2243 2//15 13//71 1.84525 0.91666667 ALLALAKVDENHSEFTLYESR 2243 //15 8//71 1.29825 0.57692308 LKLIANNTTVER 379 3//12 16//48 3.22675 1.95 LKLIANNTTVERR 379 1//12 13//47 3.28775 1.7 KRDSDAGSSTPTTSTR 1414 //12 13//61 5.21475 1.45833333 KRDSDAGSSTPTTSTR 1414 //13 7//56 2.03675 0.6 QEYEEGGKQCVER 421 //12 9//63 2.54325 1.1 LKLIANNTTVER 379 3//9 10//32 2.51625 1.42857143 LKLIANNTTVER 379 5//9 13//32 3.36625 2.28571429 VEHEISEGNVATAAAAALASAATKAK 880 4//8 9//25 1.76425 1.66666667 KVEHEISEGNVATAAAAALASAATKAK 880 //8 3//31 0.625 0.41666667 KVEHEISEGNVATAAAAALASAATKAK 880 3//8 6//31 0.8365 0.83333333 KVEHEISEGNVATAAAAALASAATKAK 880 //8 3//31 0.599 0.41666667 KVEHEISEGNVATAAAAALASAATKAK 880 1//8 4//31 0.65975 0.5 KVQEAAR 740 4//8 11//29 2.88 2.58333333 KVQEAAR 740 4//8 8//29 2.62675 1.66666667 KVQEAAR 740 4//8 7//29 2.219 1.58333333 KVQEAAR 740 3//8 8//29 1.643 1.7 KVQEAAR 740 2//7 7//30 1.91 1.66666667 KVQEAAR 740 2//7 7//30 1.7135 1.66666667 KVQEAAR 740 //7 6//31 1.80275 1.41666667 SPQVPAAQQMLNFPEKNK 588 //12 8//62 2.1495 1.13636364 VASAAAKAALEEFSR 716 1//5 4//22 1.0645 0.9 KRPAPQQIQQVQQQAVQNR 101 //9 6//30 1.29775 1 KRPAPQQIQQVQQQAVQNR 101 //9 3//30 0.65525 0.35714286 PDTDQTLKKEGLISQDGSSLEALLR 107 5//15 9//91 1.071 0.56666667 LPFLDSQTGVAQSNCYIWMEKR 59 //13 13//91 2.908 1.11538462 PDTDQTLKKEGLISQDGSSLEALLR 107 //17 8//98 2.639 0.6875 PDTDQTLKKEGLISQDGSSLEALLR 108 //17 5//98 1.7075 0.5 ASEVEEILDGNDEKYK 106 //14 14//79 6.924 1.71428571 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //16 5//104 0.89175 0.36111111 ITEKLEKQQK 458 1//12 14//49 4.57675 1.8 NIKLLEDEPR 1904 2//10 16//52 5.0725 2.5 QEKFYATLVR 2097 2//9 12//45 4.975 2 QEKFYATLVR 2097 3//10 20//52 4.94825 2.72222222 QEKFYATLVR 2097 1//9 12//45 4.229 2 QEKFYATLVR 2097 //9 7//45 3.64 1.5 YVGDRKNPVCR 2110 //6 7//26 2.1065 1.8 NIKLLEDEPR 1904 //9 7//44 3.639 1.5 LSIQDNNVDLILATPPFSRQEKFYATLVR 2097 //9 9//48 3.47125 1.625 QEKFYATLVR 2097 1//9 15//44 4.774 2.5 QEKFYATLVR 2097 //9 10//44 3.89175 1.6875 QEKFYATLVR 2097 //9 8//44 3.8215 1.5625 MEIQEAIKKPLTQK 185 //13 13//75 2.326 1.40909091 DETPLCTIAHWQDSLAKR 1930 //16 24//101 9.5345 2.02941177 SRDETPLCTIAHWQDSLAKR 1930 //16 22//132 7.576 1.61764706 SRDETPLCTIAHWQDSLAKR 1930 //17 21//94 8.70925 1.75 SRDETPLCTIAHWQDSLAKR 1930 //16 18//132 6.14275 1.47058824 DETPLCTIAHWQDSLAKR 1930 //16 20//132 7.07075 1.59375 DETPLCTIAHWQDSLAKR 1930 //16 20//101 5.2165 1.41176471 DETPLCTIAHWQDSLAKR 1930 //17 18//94 7.116 1.5 YVGDRKNPVCR 2110 //8 4//28 0.426 0.33333333 LEKQQKIEQER 434 1//12 9//47 2.481 1 AYHNSPAYLAYINAKSR 146 //15 7//71 3.08325 0.75 AYHNSPAYLAYINAKSR 146 //15 7//71 2.87225 0.69230769 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 2.577 1.71428571 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 5//40 1.22 0.85714286 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //10 9//57 3.4845 1.45 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 12//84 4.424 1.42857143 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //9 3//30 1.016 0.57142857 LTMKDIGTPEAWR 1662 //9 13//52 4.05975 2.125 LSIQDNNVDLILATPPFSRLEKLYSTMVR 2146 //9 7//48 3.1085 1.5 LSIQDNNVDLILATPPFSRLEKLYSTMVR 2146 //9 6//48 2.6475 1.25 LSIQDNNVDLILATPPFSRLEKLYSTMVR 2146 //9 4//48 1.4455 0.5625 LSIQDNNVDLILATPPFSRLEKLYSTMVR 2146 //9 5//48 1.7395 0.75 LEKLYSTMVR 2146 2//9 14//44 4.3385 2.125 LEKLYSTMVR 2146 //9 7//44 3.3525 1.5 LSIQDNNVDLILATPPFSRLEKLYSTMVR 2146 //9 4//48 1.408 0.5625 LSIQDNNVDLILATPPFSRLEKLYSTMVR 2146 //9 4//48 1.0765 0.5 LSIQDNNVDLILATPPFSRLEKLYSTMVR 2146 //9 4//48 1.2265 0.5 LSIQDNNVDLILATPPFSRLEKLYSTMVR 2146 //9 3//48 0.791 0.3125 MEIQEAIKKPLTQK 185 1//7 8//29 3.71675 1.83333333 MEIQEAIKKPLTQK 185 1//7 8//29 2.79025 1.5 MEIQEAIKKPLTQK 185 1//7 7//29 3.423 1.75 MEIQEAIKKPLTQK 185 1//7 7//29 1.90775 1 MEIQEAIKKPLTQK 185 2//13 18//75 2.76775 2 MEIQEAIKKPLTQK 185 1//7 8//29 3.20475 1.83333333 MEIQEAIKKPLTQK 185 1//7 7//28 2.4785 1.75 MEIQEAIKKPLTQK 185 1//7 6//29 2.28875 1.16666667 MEIQEAIKKPLTQK 185 //13 9//75 0.756 0.5 MEIQEAIKKPLTQK 185 1//7 7//29 2.35425 1.25 FLSDRKNPVCR 2159 //11 13//43 4.1545 1.9375 TFGQKPVKFQLEDDGEFYMIGSEVGNYLR 16 1//17 16//165 2.542 0.59615385 SNSVGIQDAFNDGSDSTFQKR 1201 //12 8//59 3.336 0.875 FLSDRKNPVCR 2159 //12 16//62 6.4235 1.70833333 LEKLYSTMVR 2146 2//10 17//52 5.42125 2.55555556 LEKLYSTMVR 2146 2//9 16//45 5.19775 2.6875 LEKLYSTMVR 2146 3//9 14//45 5.164 2.4375 LEKLYSTMVR 2146 2//9 11//45 4.5585 2.0625 LEKLYSTMVR 2146 //10 11//52 3.53175 1.83333333 LEKLYSTMVR 2146 2//9 11//45 2.87525 1.875 LSIQDNNVDLILATPPFSRLEKLYSTMVR 2146 //9 3//50 0.8215 0.3125 FLSDRKNPVCR 2159 //6 6//27 1.829 1.7 FLSDRKNPVCR 2159 //6 5//26 1.48775 1.3 VDIQEALKRPMK 148 1//7 8//31 2.531 1.5 VDIQEALKRPMK 148 1//7 7//38 2.61275 1.5 VDIQEALKRPMK 148 //7 5//31 2.10225 1.08333333 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 2//9 11//50 4.13925 1.9375 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //9 5//40 1.627 0.8125 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 //9 5//50 1.36675 0.625 ESSKFPFGISPAQSHR 1938 4//15 13//100 2.54425 0.82142857 ESSKFPFGISPAQSHR 1938 3//15 14//100 1.6255 0.57142857 ESSKFPFGISPAQSHR 1938 3//15 13//100 1.571 0.53571429 ESSKFPFGISPAQSHR 1938 5//15 15//100 2.14525 0.92857143 ILEDEPHSKDETPLCTLLDWQDSLAKR 1962 //17 10//110 3.56625 0.96666667 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 2.594 1.71428571 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 2.5965 1.71428571 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //8 7//40 2.1185 1.71428571 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 13//109 4.5805 1.16666667 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //17 12//109 4.64775 1.23333333 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 //9 6//37 1.16525 0.78571429 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1//9 6//37 1.359 0.78571429 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1880 1//9 6//37 1.3045 0.78571429 GGTPGSGAAAAAGSKPPPSSSASASSSSSSFAQQR 250 //16 11//156 3.48225 0.86842105 GGTPGSGAAAAAGSKPPPSSSASASSSSSSFAQQR 250 //16 10//156 3.1635 0.84210526 SNSVGIQDAFNDGSDSTFQKR 1201 //16 19//156 7.91 1.2631579 KRPAPQQIQQVQQQAVQNR 101 //16 11//104 2.9785 1.07142857 KRPAPQQIQQVQQQAVQNR 101 //16 8//104 1.575 0.64285714 KNPVCR 2159 1//8 6//28 0.86925 0.91666667 LDIQEALKRPIK 173 1//7 8//32 3.307 1.83333333 LDIQEALKRPIK 173 //7 6//32 2.328 1.41666667 KKIPDPDSDDVSEVDAR 688 //6 4//22 1.934 1.2 KKIPDPDSDDVSEVDAR 688 //6 4//22 1.561 1.2 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //12 5//51 0.9175 0.8 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //12 9//51 1.7415 1.25 MEKGEPYMSIQPAEDPDDYDDGFSMK 166 //12 8//65 1.15825 0.9 TKATIELK 399 1//6 9//25 2.1835 2 SPQVPAAQQMLNFPEKNK 588 //13 6//56 0.98 0.63636364 SPQVPAAQQMLNFPEKNK 588 //13 6//56 1.325 0.72727273 ITPIQKPR 357 1//8 8//38 3.45275 1.78571429 VASAAAKAALEEFSR 716 4//10 15//36 2.89175 2.28571429 SPQVPAAQQMLNFPEKNKEK 590 //13 7//58 1.2305 0.77272727 SPQVPAAQQMLNFPEKNKEK 590 1//13 8//58 2.215 0.95454546 DLKTMTDVVGNPEEER 464 3//10 10//36 2.31875 1.71428571 VSYKGSPAAR 835 3//8 9//30 1.27375 1.5 EQKAKR 124 1//8 5//30 1.2195 1.1 AKDDIKK 15 3//8 10//30 1.96125 2 SRAKDDIK 15 //8 6//30 1.27525 1.08333333 SVTGKIQK 496 //7 5//33 2.285 1.14285714 KVMATIEK 20 1//8 5//30 1.0445 0.91666667 AKDDIKK 15 1//8 6//29 1.17 1.2 peptide2 protein2 K.TPPSM[147.04]RLK[3255.73]LIANNTTVER.R O96019:379 R.E[111.03]GSPANWK[1829.95]R.K O96019:238 R.EGSPANWK[1813.97]R.K O96019:238 K.EK[2501.36]LPQVTR.S O96019:242 K.IK[1325.69]IIAPPER.K P60709:328 K.IK[1325.69]IIAPPER.K P60709:328 K.K[1301.81]ENER.I P51532:517 K.IK[1467.77]IIAPPER.K P60709:328 K.K[4847.39]TDVAEC[160.03]GPGGS. Q9NPI1:640 K.E[111.03]DVEK[284.17]AK[2705.36]K.R P51531:1365 K.Q[111.03]QK[1652.93]IEQER.K P51531:437 P51532:461 K.K[1802.95]NIR.K Q86U86:516 R.NLVFRDFTDEK[2510.38]EGPITK.H Q68CP9:1760 R.NLVFRDFTDEK[2510.38]EGPITK.H Q68CP9:1760 R.MQVLK[2349.29]R.Q Q969G3:228 M.A[1265.68]VRK.K Q8TAQ2:2 R.HQEK[1818.96]K.R Q969G3:255 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 R.GK[2584.32]GEITPAAIQK.M Q15532:13 R.GK[2584.32]GEITPAAIQK.M Q15532:13 R.LK[2204.14]LIANNTTVER.R O96019:379 R.AAK[2322.28]ALLAMAR.V Q8NFD5:2187 R.AAK[2322.28]ALLAMAR.V Q8NFD5:2187 R.ELSQK[2239.14]TPPSMR.L O96019:371 K.GVAC[160.03]SK[3567.74]DEWWWDC[160.03]LEVLR.D Q8NFD5:1996 R.K[1793.05]ASANAR.K Q92922:317 R.K[1538.81]ASANAR.K Q92922:317 R.ELSQK[3358.61]TPPSMR.L O96019:371 R.ELSQK[3358.55]TPPSMR.L O96019:371 R.ELSQK[3358.6]TPPSMR.L O96019:371 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2671.39]QC[160.03]VER.K O96019:421 K.VSYK[1636.95]GSPAAR.R P51532:835 K.VSYK[1793.05]GSPAAR.R P51532:835 R.LK[1931.95]LIANNTTVER.R O96019:379 R.ELSQK[1931.92]TPPSMR.L O96019:371 K.THK[1876.86]LQDPHER.E Q96GM5:327 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 R.MQVLK[2746.45]R.Q Q969G3:228 R.MQVLK[2874.55]R.Q Q969G3:228 R.MQVLK[2874.55]R.Q Q969G3:228 R.MQVLK[2874.55]R.Q Q969G3:228 R.MQVLK[2874.55]R.Q Q969G3:228 R.MQVLK[1066.61]R.Q Q969G3:228 R.MQVLK[1066.61]R.Q Q969G3:228 R.MQVLK[1066.61]R.Q Q969G3:228 R.M[147.04]QVLK[1066.62]R.Q Q969G3:228 K.K[1066.61]NVPSK.S Q8TAQ2:585 K.K[1066.61]NVPSK.S Q8TAQ2:585 R.K[1066.61]TKVER.D Q8TAQ2:846 K.E[111.03]K[2292.24]PTDMQNFGLR.T Q8TAQ2:568 K.TK[1785.96]VER.D Q8TAQ2:848 R.TDIYSK[2510.38]K.T Q92922:608 R.TDIYSK[2510.38]K.T Q92922:608 R.K[2979.59]FLESTDSFNNELKR.L Q969G3:258 K.NK[2908.43]SKTPEIYLAYR.N Q92922:480 Q8TAQ2:455 K.K[2979.63]DGFTSESTTLEALLR.G Q92784:108 K.K[2979.58]DGFTSESTTLEALLR.G Q92784:108 K.NK[2104.02]EKPVDLQNFGLR.T Q92922:590 R.SLENRMSPSK[3260.39]SPFLPSMK.M Q8NFD5:1558 R.AAK[1509.88]ALLAMAR.V Q8NFD5:2187 R.K[1491.83]LDQTIMRK.R Q6STE5:131 Q96GM5:156 R.K[1519.84]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[1502.81]LDQTIMRK.R Q6STE5:131 Q96GM5:156 R.K[1519.84]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[1519.84]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[1628.85]MADK.V Q6STE5:102 Q96GM5:127 Q92925:139 R.K[1491.83]LDQTIAR.K Q92925:168 R.K[3613.95]LDQTIAR.K Q92925:168 R.K[1519.84]LDQTIAR.K Q92925:168 R.K[1519.84]LDQTIAR.K Q92925:168 R.K[1519.84]LDQTIAR.K Q92925:168 R.YVGDRK[1922.09]NPVC[160.03]R.E Q8NFD5:2110 R.DLK[2406.2]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2649.33]IITDVIGNPEEER.R Q92925:480 R.DLK[2649.33]IITDVIGNPEEERR.A Q92925:480 R.DLK[2406.2]IITDVIGNPEEERR.A Q92925:480 R.DLK[2406.2]IITDVIGNPEEERR.A Q92925:480 R.DLK[2406.2]IITDVIGNPEEER.R Q92925:480 R.NHNAK[1628.85]K.K Q96GM5:124 R.AAK[1693.94]ALLAMAR.V Q8NFD5:2187 R.LTM[147.04]K[2204.13]DIGTPEAWR.V O14497:1662 R.LTMK[2204.14]DIGTPEAWR.V O14497:1662 K.K[3220.59]VQEAAR.A Q92922:740 K.K[3220.57]VQEAAR.A Q92922:740 K.AK[3064.51]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.VASAAAK[3220.57]AALEEFSR.V Q92922:716 R.TDIYSK[3064.51]K.T Q92922:608 R.EK[1798.92]EALEQQR.Q Q92922:925 R.K[3598.94]LDQTIAR.K Q92925:168 R.K[3598.94]LDQTIAR.K Q92925:168 R.K[3598.94]LDQTIAR.K Q92925:168 R.K[3598.9]LDQTIAR.K Q92925:168 R.K[1504.83]LDQTIAR.K Q92925:168 R.K[1504.83]LDQTIAR.K Q92925:168 R.K[3598.94]LDQTIAR.K Q92925:168 R.K[3598.94]LDQTIAR.K Q92925:168 R.K[3598.94]LDQTIAR.K Q92925:168 R.K[3598.94]LDQTIAR.K Q92925:168 R.K[1938.08]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1938.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1922.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.FLSDRK[2078.19]NPVC[160.03]R.E O14497:2159 R.K[1938.08]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[2078.16]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1938.09]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.FLSDRK[1922.09]NPVC[160.03]R.E O14497:2159 R.K[1938.08]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 K.MADK[1656.84]VLPQR.I Q92925:143 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[3632.75]R.I O14497:1905 R.GK[2538.2]GEITPAAIQK.M Q15532:13 R.GK[1656.88]GEITPAAIQK.M Q15532:13 R.K[1504.83]LDQTIMRK.R Q6STE5:131 Q96GM5:156 R.K[1504.83]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[1504.83]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[1520.83]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[1504.83]LDQTIMRK.R Q6STE5:131 Q96GM5:156 R.K[1504.83]LDQTIM[147.04]R.K Q6STE5:131 Q96GM5:156 R.K[3598.94]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[1656.87]M[147.04]ADK.V Q6STE5:102 Q96GM5:127 Q92925:139 R.K[1656.88]MADK.V Q6STE5:102 Q96GM5:127 Q92925:139 R.K[1692.96]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1692.96]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1708.95]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[3673.85]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[3673.85]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[3673.79]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.K[2040.05]YSDSSLPPSNSGK.I Q68CP9:1298 R.K[2040.05]YSDSSLPPSNSGK.I Q68CP9:1298 R.K[2040.05]YSDSSLPPSNSGK.I Q68CP9:1298 R.K[2040.06]YSDSSLPPSNSGK.I Q68CP9:1298 R.DTALETALNAK[3474.73]AYKR.S P51532:437 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.K[3064.51]VEEAAK.V Q8TAQ2:718 R.VASAAAK[3064.51]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[3064.51]SALEEFSK.M Q8TAQ2:694 R.TDMYTK[3064.51]K.N Q8TAQ2:584 R.TDMYTK[3064.51]K.N Q8TAQ2:584 R.TDMYTK[3064.51]K.N Q8TAQ2:584 R.K[3358.6]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[3358.6]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[2538.2]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.MSYEPNK[2510.38]DPYGSMR.K O14497:1230 R.MSYEPNK[2510.38]DPYGSMR.K O14497:1230 R.NHNAK[1038.56]K.K Q96GM5:124 R.K[1689.02]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 R.K[1689.02]NPVC[160.03]R.E O14497:2159 Q8NFD5:2110 K.K[2307.17]VDAR.E Q92784:130 K.K[2307.18]VDAR.E Q92784:130 R.ITEK[3260.39]LEKQQK.I P51532:455 R.ITEKLEK[3260.39]QQK.I P51532:458 R.ITEKLEK[3260.39]QQK.I P51532:458 K.K[1168.71]TLAK.S Q92922:609 R.TKATIELK[2292.19]ALR.L P51532:405 R.TKATIELK[2292.19]ALR.L P51532:405 K.K[1217.75]VQEAAR.A Q92922:740 R.ITPIQK[1785.94]PR.G P51532:357 R.AQIMAYK[2549.33]MLAR.G P51532:188 R.AQIMAYK[2549.33]MLAR.G P51532:188 R.ITPIQK[2098.02]PR.G P51532:357 R.EQK[1300.71]AKR.N Q12824:124 K.IQK[1024.6]LTK.A P51532:499 K.IQK[1082.63]LTK.A P51532:499 K.IQK[1197.67]LTK.A P51532:499 R.AK[1125.68]DDIKK.V Q8WUZ0:15 R.EQK[1184.68]AKR.N Q12824:124 K.IQK[1082.63]LSK.A P51531:475 Unique_(—) protein2 subunit2 realpep2 position2 1 ACTL6A TPPSMRLKLIANNTTVER 379 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A EKLPQVTR 242 1 IKIIAPPER 328 1 IKIIAPPER 328 1 SMARCA4 KENER 517 1 IKIIAPPER 328 1 BRD7 KTDVAECGPGGS 640 1 SMARCA2 EDVEKAKK 1365 2 SMARCA2 QQKIEQER 437 1 PBRM KNIR 516 1 ARID2 NLVFRDFTDEKEGPITK 1760 1 ARID2 NLVFRDFTDEKEGPITK 1760 1 SMARCE1 MQVLKR 228 1 SMARCC2 AVRK 2 1 SMARCE1 HQEKK 255 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SMARCD1 LLEDSALSKYDATK 223 1 SS18 GKGEITPAAIQK 13 1 SS18 GKGEITPAAIQK 13 1 ACTL6A LKLIANNTTVER 379 1 ARID1B AAKALLAMAR 2187 1 ARID1B AAKALLAMAR 2187 1 ACTL6A ELSQKTPPSMR 371 1 ARID1B GVACSKDEWWWDCLEVLR 1996 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A ELSQKTPPSMR 371 1 SMARCD1 THKLQDPHER 327 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCC2 KNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 KTKVER 846 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 TKVER 848 1 SMARCC1 TDIYSKK 608 1 SMARCC1 TDIYSKK 608 1 SMARCE1 KFLESTDSFNNELKR 258 2 SMARCC1 NKSKTPEIYLAYR 480 1 DPF3 KDGFTSESTTLEALLR 108 1 DPF3 KDGFTSESTTLEALLR 108 1 SMARCC1 NKEKPVDLQNFGLR 590 1 ARID1B SLENRMSPSKSPFLPSMK 1558 1 ARID1B AAKALLAMAR 2187 2 SMARCD3 KLDQTIMRK 131 2 SMARCD3 KLDQTIMR 131 2 SMARCD3 KLDQTIMRK 131 2 SMARCD3 KLDQTIMR 131 2 SMARCD3 KLDQTIMR 131 3 SMARCD3 KMADK 102 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 ARID1B YVGDRKNPVCR 2110 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEERR 480 1 SMARCD2 DLKIITDVIGNPEEER 480 1 SMARCD1 NHNAKK 124 1 ARID1B AAKALLAMAR 2187 1 ARID1A LTMKDIGTPEAWR 1662 1 ARID1A LTMKDIGTPEAWR 1662 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 2 SMARCC1 AKHLAAVEER 882 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 TDIYSKK 608 1 SMARCC1 EKEALEQQR 925 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 1 SMARCD2 KLDQTIAR 168 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 ARID1A FLSDRKNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 ARID1A FLSDRKNPVCR 2159 2 ARID1A KNPVCR 2159 1 SMARCD2 MADKVLPQR 143 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 SS18 GKGEITPAAIQK 13 1 SS18 GKGEITPAAIQK 13 2 SMARCD3 KLDQTIMRK 131 2 SMARCD3 KLDQTIMR 131 2 SMARCD3 KLDQTIMR 131 2 SMARCD3 KLDQTIMR 131 2 SMARCD3 KLDQTIMRK 131 2 SMARCD3 KLDQTIMR 131 2 SMARCD3 KLDQTIMR 131 3 SMARCD3 KMADK 102 3 SMARCD3 KMADK 102 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 2 SMARCD3 KLDQTIMR 131 2 SMARCD3 KLDQTIMR 131 2 SMARCD3 KLDQTIMR 131 1 ARID2 KYSDSSLPPSNSGK 1298 1 ARID2 KYSDSSLPPSNSGK 1298 1 ARID2 KYSDSSLPPSNSGK 1298 1 ARID2 KYSDSSLPPSNSGK 1298 1 SMARCA4 DTALETALNAKAYKR 437 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKK 584 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 SMARCD1 NHNAKK 124 2 ARID1A KNPVCR 2159 2 ARID1A KNPVCR 2159 1 DPF3 KVDAR 130 1 DPF3 KVDAR 130 1 SMARCA4 ITEKLEKQQK 455 1 SMARCA4 ITEKLEKQQK 458 1 SMARCA4 ITEKLEKQQK 458 1 SMARCC1 KTLAK 609 1 SMARCA4 TKATIELKALR 405 1 SMARCA4 TKATIELKALR 405 1 SMARCC1 KVQEAAR 740 1 SMARCA4 ITPIQKPR 357 1 SMARCA4 AQIMAYKMLAR 188 1 SMARCA4 AQIMAYKMLAR 188 1 SMARCA4 ITPIQKPR 357 1 SMARCB1 EQKAKR 124 1 SMARCA4 IQKLTK 499 1 SMARCA4 IQKLTK 499 1 SMARCA4 IQKLTK 499 1 BCL7C AKDDIKK 15 1 SMARCB1 EQKAKR 124 1 SMARCA2 IQKLSK 475

TABLE 7D SS18 Intra Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 SMARCC2 1 SMARCC2:584- 5.535 SMARCC2:724 −1 −1.475957 CW111116_112216_SS18_(—) NP 5.535 0.13940134 2.43E−01 1//13 12//63 85B.05335.05335.4 2 SMARCC2:584- 5.35175 SMARCC2:590 0 2.53883486 CW111116_112216_SS18_(—) N 5.35175 0.14262586 3//9 11//31 70B.06855.06855.4 3 SMARCC2:584- 6.47425 SMARCC2:592 0 2.69343308 CW111116_112216_SS18_(—) N 6.47425 0.15099587 //9 8//40 70B.06147.06147.4 −1 1.19098477 CW111116_112216_SS18_(—) N 5.4115 0.13439211 //9 8//39 70B.06139.06139.4 0 0.16996772 CW111116_112216_SS18_(—) N 4.63375 0.6555029 //9 7//39 70B.06145.06145.4 4 SMARCC2:704- 7.54925 SMARCC2:874 −2 0.33724753 CW111116_112216_SS18_(—) N 7.54925 0.16003837 //10 11//46 2uL.06473.06473.4 5 SMARCC2:704- 8.89925 SMARCC2:848 0 −1.6505796 CW111116_112216_SS18_(—) NP 8.89925 0.35808269 3.01E−03 //15 18//94 100B.06644.06644.4 6 SMARCC2:704- 15.60325 SMARCC2:718 0 0.67783393 CW111116_112216_SS18_(—) N 15.60325 0.26434313 2//8 7//32 100B.09015.09015.4 0 0.30078463 CW111116_112216_SS18_(—) NP 15.05625 0.27599813 1.03E−06 4//15 36//93 85B.06644.06644.4 −1 −6.9962342 CW111116_112216_SS18_(—) NP 13.096 0.21330206 2.09E−02 //11 32//130 100B.09005.09005.4 −2 9.36884342 CW111116_112216_SS18_(—) N 10.905 0.19948232 //8 8//33 85B.06433.06433.4 7 SMARCC2:704- 15.14 SMARCC2:704 0 8.06264981 CW111116_112216_SS18_(—) N 15.14 0.58081099 //15 15//86 70B.12116.12116.4 0 3.04109782 CW111116_112216_SS18_(—) N 3.897 0.65276382 //15 7//86 50B.13362.13362.4 8 SMARCC2:453- 9.16525 SMARCC2:457 −1 −4.3185875 CW111116_112216_SS18_(—) NP 9.16525 0.24978198 7.39E−03 1//14 13//66 100B.08233.08233.4 −1 10.6865913 CW111116_112216_SS18_(—) N 8.76225 0.18300439 //11 13//58 100B.08390.08390.4 9 SMARCC2:585- 3.66275 SMARCC2:592 0 0.11133704 CW111116_112216_SS18_(—) NP 3.66275 0.1507863 2.95E−04 //9 8//42 2uL.03742.03742.4 10 SMARCC2:341- 9.29925 SMARCC2:364 −1 14.7570095 CW111116_112216_SS18_(—) N 9.29925 0.21391601 1//16 13//101 50C.06841.06841.5 −3 −4.9459037 CW111116_112216_SS18_(—) NP 8.97775 0.16782253 1.19E−04 //4 15//243 50C.07259.07259.6 0 1.0338924 CW111116_112216_SS18_(—) P 5.64975 0.21057585 7.65E−04 //4 9//175 50C.07446.07446.4 11 SMARCC2:341- 8.87 SMARCC2:365 −2 −1.4427398 CW111116_112216_SS18_(—) NP 8.87 0.1996309 9.83E−06 //4 19//243 50C.07322.07322.6 −1 −3.4316535 CW111116_112216_SS18_(—) NP 8.18775 0.16385987 3.72E−05 //4 17//243 50C.07256.07256.5 −1 0.12380981 CW111116_112216_SS18_(—) N 7.37075 0.16666667 1//16 10//78 50C.06840.06840.6 −1 −5.3511954 CW111116_112216_SS18_(—) NP 6.69325 0.18981482 9.02E−07 //4 12//243 50C.07333.07333.5 −1 5.44361681 CW111116_112216_SS18_(—) P 6.5015 0.16963901 2.44E−04 //4 12//243 50C.07345.07345.6 −3 2.59090921 CW111116_112216_SS18_(—) P 4.18 0.12645973 2.75E−02 //4 14//243 50C.07347.07347.5 12 SMARCC2:724- 11.0635 SMARCC2:846 0 −1.0875405 CW111116_112216_SS18_(—) NP 11.0635 0.17653019 1.19E−04 //13 23//64 50C.04271.04271.4 0 −0.968806 CW111116_112216_SS18_(—) NP 7.94275 0.27668821 5.12E−07 4//13 19//64 50C.04131.04131.4 0 1.16841528 CW111116_112216_SS18_(—) NP 3.262 0.12020267 1.37E−03 //13 15//64 2uL.03741.03741.4 −1 6.22925419 CW111116_112216_SS18_(—) N 2.95675 0.38107359 //7 5//39 100B.05133.05133.5 13 SMARCC2:724- 5.8905 SMARCC2:848 0 −1.1637782 CW111116_112216_SS18_(—) NP 5.8905 0.26394085 4.92E−06 2//13 18//64 100B.04519.04519.4 14 SMARCC2:151- 8.4405 SMARCC2:157 −2 −3.3599749 CW111116_112216_SS18_(—) NP 8.4405 0.15702672 3.52E−03 1//12 21//160 100B.09385.09385.4 15 SMARCC2:694- 8.693 SMARCC2:846 0 1.12362413 CW111116_112216_SS18_(—) NP 8.693 0.17465819 1.26E−03 //17 21//90 100B.06740.06740.4 0 0.61612207 CW111116_112216_SS18_(—) NP 6.752 0.12653555 1.11E−03 //17 17//90 100B.06613.06613.4 16 SMARCC2:694- 14.55425 SMARCC2:702 −1 −1.1261318 CW111116_112216_SS18_(—) NP 14.55425 0.27847829 2.93E−04 2//10 32//180 100B.09228.09228.5 17 SMARCC2:694- 6.9415 SMARCC2:848 0 3.86370048 CW111116_112216_SS18_(—) NP 6.9415 0.17340961 1.83E−02 //17 20//93 70B.07494.07494.4 18 SMARCC2:694- 12.72975 SMARCC2:874 0 −2.7174458 CW111116_112216_SS18_(—) NP 12.72975 0.23795704 6.18E−06 3//17 25//86 100B.07296.07296.4 19 SMARCC2:848- 4.83475 SMARCC2:874 0 1.60706059 CW111116_112216_SS18_(—) N 4.83475 0.23673065 //5 4//23 50C.04889.04889.4 −1 1.9678814 CW111116_112216_SS18_(—) N 4.77125 0.22591146 //5 4//23 50C.04895.04895.4 20 SMARCC2:359- 6.4775 SMARCC2:365 −2 −1.5016645 CW111116_112216_SS18_(—) P 6.4775 0.15102236 2.73E−04 //12 22//138 50B.08201.08201.4 21 SMARCC2:718- 12.73075 SMARCC2:728 −2 −2.8978987 CW111116_112216_SS18_(—) NP 12.73075 0.30929156 7.36E−08 //17 38//309 70B.07553.07553.5 22 SMARCC2:718- 5.179 SMARCC2:846 0 0.54628934 CW111116_112216_SS18_(—) NP 5.179 0.30891739 1.03E−06 //8 6//36 100B.03405.03405.4 23 SMARCC2:718- 4.387 SMARCC2:848 0 −0.9147936 CW111116_112216_SS18_(—) NP 4.387 0.22695292 1.20E−04 //8 6//36 100B.03598.03598.4 24 SMARCC2:718- 3.3025 SMARCC2:874 0 0.04247489 CW111116_112216_SS18_(—) P 3.3025 0.08961157 1.07E−03 //10 8//53 100B.04891.04891.4 25 SMARCC2:566- 10.9335 SMARCC2:566 −1 13.3918479 CW111116_112216_SS18_(—) N 10.9335 0.15413841 1//14 13//78 70B.08654.08654.4 26 SMARCC2:566- 10.87725 SMARCC2:568 −2 16.1929324 CW111116_112216_SS18_(—) N 10.87725 0.17608849 1//14 19//78 70B.08642.08642.4 27 SMARCC2:275- 10.1425 SMARCC2:291 0 −1.897185 CW111116_112216_SS18_(—) NP 10.1425 0.24853586 1.71E−07 //16 24//110 100B.05835.05835.4 28 SMARCC2:275- 8.41875 SMARCC2:6 0 −1.1248253 CW111116_112216_SS18_(—) NP 8.41875 0.20891235 3.40E−09 //16 21//143 50C.05715.05715.5 29 SMARCC2:836- 8.388 SMARCC2:874 −1 11.2301959 CW111116_112216_SS18_(—) N 8.388 0.12803077 //11 7//67 50C.06554.06554.5 30 SMARCC2:836- 16.15525 SMARCC2:848 0 0.5699834 CW111116_112216_SS18_(—) N 16.15525 0.22440029 //16 10//131 70B.10988.10988.5 0 −6.3926675 CW111116_112216_SS18_(—) NP 12.45875 0.21292095 9.08E−04 2//17 28//209 85B.09898.09898.5 0 0.90333286 CW111116_112216_SS18_(—) N 3.63475 0.12425009 //8 5//26 50C.08117.08117.4 −1 4.94729178 CW111116_112216_SS18_(—) N 3.1935 0.10407196 //8 5//26 50C.08108.08108.4 31 SMARCC2:836- 5.753 SMARCC2:846 0 1.03590144 CW111116_112216_SS18_(—) NP 5.753 0.12841518 1.94E−05 //17 19//100 85B.08037.08037.4 −3 −0.8536947 CW111116_112216_SS18_(—) P 2.34675 0.05851953 4.26E−01 //17 10//100 70B.07789.07789.4 32 SMARCC2:37- 12.1275 SMARCC2:99 0 −5.4941126 CW111116_112216_SS18_(—) NP 12.1275 0.21889411 4.12E−08 6//18 25//93 100B.08297.08297.4 33 SMARCC2:564- 16.92225 SMARCC2:568 0 −7.1926891 CW111116_112216_SS18_(—) NP 16.92225 0.22748782 2.58E−10 //14 34//111 70B.08597.08597.4 0 0.39541152 CW111116_112216_SS18_(—) N 15.73625 0.21496435 //12 14//62 70B.09211.09211.4 0 0.44130701 CW111116_112216_SS18_(—) NP 15.41575 0.20772164 5.60E−09 //14 26//111 70B.08752.08752.4 0 3.4285229 CW111116_112216_SS18_(—) NP 14.917 0.20656945 3.40E−06 //14 29//111 70B.08627.08627.4 −1 0.20457158 CW111116_112216_SS18_(—) N 13.7385 0.22283045 //12 14//62 70B.08287.08287.4 −1 1.61846613 CW111116_112216_SS18_(—) N 13.3425 0.20931874 //12 12//62 70B.09194.09194.4 −2 1.90258512 CW111116_112216_SS18_(—) N 11.5875 0.25630958 //12 10//62 70B.09117.09117.4 0 0.33839038 CW111116_112216_SS18_(—) N 9.2875 0.61893972 //12 9//62 70B.09404.09404.4 −1 0.9974978 CW111116_112216_SS18_(—) N 9.02925 0.13304723 //12 10//62 70B.08097.08097.4 0 9.80144405 CW111116_112216_SS18_(—) N 7.57625 0.10510162 //12 9//62 70B.08106.08106.4 −1 −1.8157005 CW111116_112216_SS18_(—) P 1.811 0.19821595 7.76E−03 //14 7//111 70B.08579.08579.4 34 SMARCC2:592- 4.73275 SMARCC2:846 0 −3.5394502 CW111116_112216_SS18_(—) NP 4.73275 0.29061128 1.06E−03 //9 9//43 50C.03681.03681.4 −1 1.11019921 CW111116_112216_SS18_(—) NP 4.3735 0.22036076 3.57E−03 //9 9//43 50C.03674.03674.4 35 SMARCC2:592- 2.746 SMARCC2:848 0 2.16571434 CW111116_112216_SS18_(—) P 2.746 0.20141563 6.26E−03 //9 7//41 85B.03946.03946.4 2 SMARCD1 1 SMARCD1:101- 18.79225 SMARCD1:464 −2 −5.936156 CW111116_112216_SS18_(—) NP 18.79225 0.55042251 7.87E−16 5//16 26//117 100B.07202.07202.4 −1 9.96662078 CW111116_112216_SS18_(—) N 18.14075 0.48789065 //17 15//94 100B.07188.07188.4 2 SMARCD1:194- 19.65425 SMARCD1:273 0 5.86220566 CW111116_112216_SS18_(—) NP 19.65425 0.32022957 2.88E−08 //7 30//214 85B.08781.08781.5 0 0.95299715 CW111116_112216_SS18_(—) P 18.498 0.23277441 2.02E−03 //7 43//254 85B.08924.08924.6 −1 −3.6603655 CW111116_112216_SS18_(—) P 18.486 0.24537418 4.44E−03 //7 31//214 85B.08754.08754.5 −1 3.28155978 CW111116_112216_SS18_(—) NP 18.422 0.27178708 1.13E−04 //7 42//254 100B.08872.08872.5 −3 −2.5095335 CW111116_112216_SS18_(—) NP 17.02525 0.24026941 1.92E−03 //7 32//214 70B.09102.09102.5 0 −4.7071981 CW111116_112216_SS18_(—) NP 16.2185 0.36232742 1.68E−06 //7 31//156 85B.08760.08760.4 −1 −0.2652536 CW111116_112216_SS18_(—) NP 15.67475 0.22700579 6.56E−05 //7 42//254 85B.08792.08792.5 −2 −1.4489627 CW111116_112216_SS18_(—) NP 15.56475 0.2529887 1.50E−05 //7 27//214 70B.09204.09204.5 −2 −1.7109196 CW111116_112216_SS18_(—) NP 14.89725 0.27974743 1.05E−02 //7 26//214 70B.09115.09115.6 −2 −0.0983448 CW111116_112216_SS18_(—) NP 14.44275 0.23707732 4.76E−06 //7 35//254 85B.08805.08805.5 −1 1.70135692 CW111116_112216_SS18_(—) NP 13.74775 0.32700427 9.04E−05 //7 24//156 70B.09147.09147.4 −2 3.74872066 CW111116_112216_SS18_(—) NP 12.8455 0.21929256 6.69E−03 //7 27//254 85B.08894.08894.6 −2 −0.4112989 CW111116_112216_SS18_(—) NP 12.44925 0.2381606 2.17E−03 //7 28//254 85B.08983.08983.5 −1 7.65860524 CW111116_112216_SS18_(—) P 11.4695 0.30004055 1.55E−05 //7 23//156 2uL.08364.08364.4 0 3.68710636 CW111116_112216_SS18_(—) P 11.29975 0.31026222 6.30E−04 //7 23//156 2uL.08368.08368.4 −3 3.58310687 CW111116_112216_SS18_(—) NP 11.02725 0.21271907 2.38E−07 //7 24//214 70B.09182.09182.5 −1 −4.3000915 CW111116_112216_SS18_(—) NP 9.943 0.27630957 7.60E−08 //7 21//183 85B.08913.08913.4 −3 −1.2875704 CW111116_112216_SS18_(—) P 7.132 0.25166287 3.56E−04 //7 17//254 100B.08912.08912.5 −2 1.18249684 CW111116_112216_SS18_(—) P 6.465 0.69643434 8.97E−03 //7 12//254 2uL.08573.08573.6 −4 4.67998108 CW111116_112216_SS18_(—) P 4.1435 0.18144199 1.69E−01 //7 11//156 70B.09054.09054.4 3 SMARCD1:273- 6.70825 SMARCD1:385 −1 4.41357032 CW111116_112216_SS18_(—) P 6.70825 0.16366376 3.42E−02 1//15 21//214 2uL.08357.08357.5 4 SMARCD1:173- 5.8465 SMARCD1:179 0 −0.9705087 CW111116_112216_SS18_(—) P 5.8465 0.17378316 1.64E−03 //11 16//48 50C.06882.06882.4 5 SMARCD1:173- 7.91925 SMARCD1:177 0 −0.035204 CW111116_112216_SS18_(—) P 7.91925 0.14310303 4.70E−05 //11 14//46 85B.07647.07647.4 0 −1.9513924 CW111116_112216_SS18_(—) NP 7.3475 0.2246255 2.12E−06 //11 17//48 50C.06995.06995.4 6 SMARCD1:131- 4.29425 SMARCD1:353 0 11.3180868 CW111116_112216_SS18_(—) N 4.29425 0.21023451 //9 7//46 50C.07051.07051.4 3 SMARCC1 1 SMARCC1:341- 5.4465 SMARCC1:346 0 2.51491079 CW111116_112216_SS18_(—) N 5.4465 0.19475435 //6 6//27 85B.05401.05401.4 2 SMARCC1:341- 6.88625 SMARCC1:354 0 0.4008766 CW111116_112216_SS18_(—) N 6.88625 0.18870574 //6 6//26 50C.05347.05347.4 3 SMARCC1:369- 7.41525 SMARCC1:392 −3 12.1541723 CW111116_112216_SS18_(—) NP 7.41525 0.1332025 5.20E−04 //3 15//251 85B.08620.08620.5 4 SMARCC1:369- 6.73125 SMARCC1:393 −2 −4.8319634 CW111116_112216_SS18_(—) NP 6.73125 0.12282967 4.21E−04 //3 16//251 85B.08640.08640.5 −1 3.0306568 CW111116_112216_SS18_(—) P 1.769 0.06413022 1.98E−03 //3 9//180 85B.08621.08621.4 5 SMARCC1:303- 8.76125 SMARCC1:317 0 −1.6353462 CW111116_112216_SS18_(—) NP 8.76125 0.27007552 1.56E−05 //16 19//85 100B.04429.04429.4 −1 −0.4612683 CW111116_112216_SS18_(—) NP 6.93075 0.34242836 1.61E−06 //16 14//85 100B.04426.04426.4 −1 0.81064949 CW111116_112216_SS18_(—) NP 6.4375 0.39226738 5.58E−10 //16 14//85 2uL.04062.04062.4 6 SMARCC1:342- 5.42125 SMARCC1:346 0 0.31433176 CW111116_112216_SS18_(—) N 5.42125 0.25311063 1//5 5//22 50C.03794.03794.4 7 SMARCC1:317- 3.82875 SMARCC1:346 0 1.29869063 CW111116_112216_SS18_(—) NP 3.82875 0.18076769 1.53E−01 //10 8//48 85B.04555.04555.4 8 SMARCC1:317- 4.51525 SMARCC1:34 −1 9.03448969 CW111116_112216_SS18_(—) NP 4.51525 0.22910166 7.78E−03 //11 7//47 2uL.02856.02856.4 0 −1.8499375 CW111116_112216_SS18_(—) NP 4.038 0.30549251 4.60E−06 //9 6//40 85B.03333.03333.4 9 SMARCC1:317- 4.678 SMARCC1:740 0 −0.1541079 CW111116_112216_SS18_(—) NP 4.678 0.26974974 2.98E−08 //8 6//36 85B.03391.03391.4 −2 13.4181817 CW111116_112216_SS18_(—) NP 4.666 0.35972554 8.46E−06 //8 6//36 85B.03383.03383.4 −1 −0.0803455 CW111116_112216_SS18_(—) NP 4.6075 0.28225312 1.40E−05 //8 6//36 85B.03398.03398.4 10 SMARCC1:317- 6.08 SMARCC1:317 0 −0.5928769 CW111116_112216_SS18_(—) NP 6.08 0.26157851 2.14E−03 1//11 12//47 50C.03174.03174.4 11 SMARCC1:317- 12.83375 SMARCC1:359 −3 7.27909753 CW111116_112216_SS18_(—) NP 12.83375 0.24469941 4.69E−07 3//13 34//191 70B.08867.08867.4 12 SMARCC1:317- 7.286 SMARCC1:354 0 −5.8046484 CW111116_112216_SS18_(—) NP 7.286 0.21713605 1.65E−03 4//11 13//46 85B.04897.04897.4 0 1.6285709 CW111116_112216_SS18_(—) NP 5.2485 0.17740409 4.98E−03 //12 12//56 50C.04365.04365.4 0 −9.2339241 CW111116_112216_SS18_(—) NP 4.78575 0.28506969 2.17E−03 //12 7//56 50C.04358.04358.4 13 SMARCC1:317- 12.7555 SMARCC1:41 −1 −2.2142582 CW111116_112216_SS18_(—) NP 12.7555 0.23976955 1.24E−02 //11 27//131 70B.08600.08600.4 14 SMARCC1:854- 22.62075 SMARCC1:856 0 1.15623889 CW111116_112216_SS18_(—) P 22.62075 0.3082119 3.56E−03 1//19 52//162 85B.08936.08936.4 0 −1.3510279 CW111116_112216_SS18_(—) P 19.577 0.26531954 3.33E−04 1//19 47//162 85B.08627.08627.4 0 1.96741344 CW111116_112216_SS18_(—) NP 18.353 0.27057748 6.50E−05 1//19 43//162 70B.08512.08512.4 0 −1.7197436 CW111116_112216_SS18_(—) P 17.69325 0.29676951 2.75E−04 //19 38//162 2uL.08256.08256.4 −1 −2.1662147 CW111116_112216_SS18_(—) NP 15.55125 0.24124304 7.45E−03 1//19 38//213 70B.08504.08504.5 0 4.53288723 CW111116_112216_SS18_(—) P 15.39225 0.45840282 4.73E−02 //19 38//214 50C.08495.08495.5 15 SMARCC1:739- 20.5935 SMARCC1:739 0 15.2025903 CW111116_112216_SS18_(—) N 20.5935 0.41953063 1//17 28//94 85B.09534.09534.4 16 SMARCC1:393- 10.0705 SMARCC1:421 −1 1.34514902 CW111116_112216_SS18_(—) NP 10.0705 0.15788442 2.48E−01 //6 29//258 70B.06999.06999.5 −3 3.66966322 CW111116_112216_SS18_(—) P 6.4235 0.17532583 3.59E−01 //6 17//258 70B.06930.06930.5 17 SMARCC1:716- 8.239 SMARCC1:854 0 −3.3305205 CW111116_112216_SS18_(—) NP 8.239 0.16821323 5.64E−01 1//17 19//90 70B.07962.07962.4 18 SMARCC1:716- 7.709 SMARCC1:855 0 −3.8305242 CW111116_112216_SS18_(—) NP 7.709 0.18155698 1.07E−02 //17 18//88 85B.07109.07109.4 19 SMARCC1:716- 10.716 SMARCC1:739 −1 −1.4241782 CW111116_112216_SS18_(—) NP 10.716 0.46296416 1.21E−08 //17 18//123 50C.09132.09132.5 0 −6.0209146 CW111116_112216_SS18_(—) NP 8.099 0.37576264 1.81E−08 //17 12//123 50C.09144.09144.5 −2 0.01390274 CW111116_112216_SS18_(—) P 3.69825 0.19945797 2.41E−05 //17 8//95 50C.09147.09147.4 20 SMARCC1:716- 11.0905 SMARCC1:740 0 1.22631538 CW111116_112216_SS18_(—) NP 11.0905 0.25147386 2.20E−06 1//17 24//90 70B.07804.07804.4 21 SMARCC1:716- 25.38375 SMARCC1:856 0 −0.7484809 CW111116_112216_SS18_(—) P 25.38375 0.33221108 1.45E−06 9//19 66//157 85B.09441.09441.4 −1 1.05235689 CW111116_112216_SS18_(—) NP 17.2905 0.28296607 1.87E−05 5//19 42//157 85B.09465.09465.4 22 SMARCC1:34- 7.39175 SMARCC1:94 −3 −3.5773584 CW111116_112216_SS18_(—) NP 7.39175 0.3444271 4.15E−03 //7 17//160 100B.12183.12183.4 23 SMARCC1:199- 10.83475 SMARCC1:317 0 −1.0349364 CW111116_112216_SS18_(—) NP 10.83475 0.22503012 1.10E−12 //13 24//61 50C.04253.04253.4 0 −3.6286252 CW111116_112216_SS18_(—) NP 6.319 0.28005407 2.10E−06 5//13 17//65 100B.04284.04284.4 24 SMARCC1:199- 5.35725 SMARCC1:740 0 2.39667184 CW111116_112216_SS18_(—) NP 5.35725 0.19503249 1.95E−04 1//13 11//64 100B.04556.04556.4 25 SMARCC1:588- 17.91975 SMARCC1:592 −2 −0.344188 CW111116_112216_SS18_(—) P 17.91975 0.22286722 2.25E−06 //15 27//140 85B.09098.09098.5 0 1.45690995 CW111116_112216_SS18_(—) N 17.096 0.22919655 2//16 26//105 85B.09529.09529.4 0 3.10649422 CW111116_112216_SS18_(—) NP 15.447 0.26347254 1.28E−06 //16 26//106 2uL.08912.08912.4 −1 1.75706139 CW111116_112216_SS18_(—) N 15.25725 0.21481974 1//16 24//105 85B.09710.09710.4 −1 1.35036103 CW111116_112216_SS18_(—) NP 15.25325 0.21506927 4.63E−08 //15 25//140 85B.09125.09125.5 0 −0.4408165 CW111116_112216_SS18_(—) NP 15.07875 0.25970084 1.80E−07 //16 27//106 85B.09199.09199.4 0 1.02613729 CW111116_112216_SS18_(—) N 15.0165 0.2633388 1//12 14//62 70B.10347.10347.4 0 5.22123713 CW111116_112216_SS18_(—) NP 14.0955 0.24043087 9.43E−04 //16 27//106 85B.08883.08883.4 0 5.41183376 CW111116_112216_SS18_(—) NP 13.917 0.18964495 3.33E−06 1//15 22//106 85B.09138.09138.4 0 1.30038815 CW111116_112216_SS18_(—) N 13.80125 0.25394452 1//12 14//62 70B.10169.10169.4 −1 −0.2361639 CW111116_112216_SS18_(—) NP 12.605 0.27021523 7.59E−10 //16 21//106 2uL.08830.08830.4 0 4.33440946 CW111116_112216_SS18_(—) NP 12.14 0.17517911 1.32E−05 2//16 26//106 85B.09113.09113.4 −1 3.03159802 CW111116_112216_SS18_(—) N 12.11775 0.24946218 1//12 13//62 70B.10121.10121.4 0 2.38370916 CW111116_112216_SS18_(—) N 12.077 0.23771516 1//12 14//62 70B.09684.09684.4 0 4.91969679 CW111116_112216_SS18_(—) N 11.834 0.19795091 1//12 16//62 70B.09519.09519.4 0 4.71492694 CW111116_112216_SS18_(—) N 11.404 0.28625576 //12 10//62 2uL.08948.08948.4 −3 11.7404013 CW111116_112216_SS18_(—) N 11.36125 0.27287411 //12 11//62 70B.10301.10301.4 0 11.2381514 CW111116_112216_SS18_(—) N 11.248 0.29990668 //12 10//62 70B.11346.11346.4 −2 4.01381343 CW111116_112216_SS18_(—) N 11.235 0.29356048 //12 12//62 70B.10276.10276.4 0 3.01067578 CW111116_112216_SS18_(—) N 11.23425 0.17974225 //12 13//62 2uL.08236.08236.4 −1 12.9001199 CW111116_112216_SS18_(—) N 11.14525 0.15310566 1//16 14//105 85B.09112.09112.4 −1 1.66074113 CW111116_112216_SS18_(—) N 10.79 0.37538922 //12 12//62 2uL.09422.09422.4 −1 2.10913468 CW111116_112216_SS18_(—) N 10.2675 0.21916858 //12 12//62 2uL.09594.09594.4 −1 2.31759941 CW111116_112216_SS18_(—) N 10.0245 0.17765117 //12 11//62 85B.08595.08595.4 0 3.07859019 CW111116_112216_SS18_(—) N 10.005 0.19265393 //12 12//62 85B.08618.08618.4 0 3.35727438 CW111116_112216_SS18_(—) N 9.9965 0.21283413 //12 12//62 2uL.09599.09599.4 −3 10.8088752 CW111116_112216_SS18_(—) N 9.41475 0.17577786 //12 11//62 70B.09734.09734.4 −2 8.46791522 CW111116_112216_SS18_(—) N 9.36425 0.23377312 //12 11//62 70B.10388.10388.4 0 −0.7398063 CW111116_112216_SS18_(—) NP 9.298 0.1718558 3.83E−02 //15 21//106 85B.08977.08977.4 −1 7.595013 CW111116_112216_SS18_(—) N 8.90725 0.15847366 //12 13//62 2uL.08214.08214.4 0 5.11773302 CW111116_112216_SS18_(—) N 8.81375 0.25179985 //16 11//105 85B.09728.09728.4 −1 −3.169517 CW111116_112216_SS18_(—) P 8.2635 0.1743336 1.21E−04 //16 12//106 70B.09814.09814.4 −1 10.3107629 CW111116_112216_SS18_(—) N 8.20125 0.11601876 //12 12//62 85B.08541.08541.4 −1 3.40374429 CW111116_112216_SS18_(—) N 7.3975 0.61479327 //12 9//62 70B.09678.09678.4 −1 1.90252802 CW111116_112216_SS18_(—) N 7.06375 0.47998845 //12 9//62 2uL.08757.08757.4 −1 10.1287832 CW111116_112216_SS18_(—) N 4.9445 0.24156041 //12 8//62 70B.10290.10290.4 −2 2.15144903 CW111116_112216_SS18_(—) P 3.498 0.39376372 8.54E−04 //16 4//106 2uL.08842.08842.4 0 −1.8733843 CW111116_112216_SS18_(—) P 3.3645 0.41562693 1.91E−05 //16 6//106 2uL.08821.08821.4 −4 2.35610157 CW111116_112216_SS18_(—) P 3.16025 0.10386676 2.58E−01 //16 9//106 85B.09373.09373.4 26 SMARCC1:740- 13.907 SMARCC1:750 −3 9.87978911 CW111116_112216_SS18_(—) N 13.907 0.28555882 //8 7//40 70B.07321.07321.5 −2 10.9091844 CW111116_112216_SS18_(—) N 9.13425 0.33498056 //8 7//32 70B.07329.07329.4 27 SMARCC1:740- 24.67025 SMARCC1:856 0 −1.3084846 CW111116_112216_SS18_(—) NP 24.67025 0.39012366 2.08E−06 2//19 52//162 85B.08081.08081.4 28 SMARCC1:392- 8.94825 SMARCC1:421 −1 0.22333146 CW111116_112216_SS18_(—) N 8.94825 0.13006745 1//16 9//101 2uL.06159.06159.5 −2 −1.1220125 CW111116_112216_SS18_(—) P 4.705 0.11791537 3.33E−01 //6 16//186 70B.07148.07148.4 29 SMARCC1:608- 6.673 SMARCC1:615 0 1.2613129 CW111116_112216_SS18_(—) N 6.673 0.12403461 1//8 9//36 70B.07221.07221.4 30 SMARCC1:608- 8.09475 SMARCC1:613 0 7.46838608 CW111116_112216_SS18_(—) N 8.09475 0.17772691 5//9 14//33 70B.06883.06883.4 0 −0.720486 CW111116_112216_SS18_(—) NP 5.865 0.14933924 9.06E−03 5//9 16//33 2uL.04947.04947.4 0 0.85784512 CW111116_112216_SS18_(—) N 4.05 0.24492758 3//8 8//28 70B.05640.05640.4 4 ARID1A 1 ARID1A:1201- 11.26225 ARID1A:1230 0 2.3355303 CW111116_112216_SS18_(—) NP 11.26225 0.17925099 3.09E−08 //15 20//126 50B.08396.08396.4 −1 10.2268063 CW111116_112216_SS18_(—) NP 7.6215 0.12746689 1.41E−06 //15 17//126 50B.08445.08445.4 −3 3.47139579 CW111116_112216_SS18_(—) NP 7.26775 0.15196709 1.46E−07 1//15 15//126 50B.08382.08382.4 −2 2.93335424 CW111116_112216_SS18_(—) NP 5.23075 0.12657899 1.32E−07 //15 10//126 50B.08377.08377.4 −3 −0.6535894 CW111116_112216_SS18_(—) P 4.42225 0.11812196 1.26E−05 //15 10//126 2uL.07542.07542.4 2 ARID1A:1201- 7.729 ARID1A:1238 −1 −7.5044156 CW111116_112216_SS18_(—) NP 7.729 0.17170977 6.79E−04 //19 12//155 70B.08699.08699.4 −2 −3.6229936 CW111116_112216_SS18_(—) NP 7.59525 0.12246453 4.28E−03 //19 19//155 70B.08616.08616.4 −1 6.03079969 CW111116_112216_SS18_(—) P 5.72775 0.08464926 4.07E−01 1//19 16//155 70B.08638.08638.4 −2 2.24213367 CW111116_112216_SS18_(—) N 5.69225 0.17591477 6//15 14//126 70B.08498.08498.4 3 ARID1A:1953- 12.5955 ARID1A:2146 −1 1.04981762 CW111116_112216_SS18_(—) NP 12.5955 0.28613455 1.75E−15 //14 23//176 100B.10081.10081.4 −2 −3.800634 CW111116_112216_SS18_(—) NP 10.24825 0.32000781 6.95E−11 1//14 19//243 100B.10127.10127.5 0 −4.2626638 CW111116_112216_SS18_(—) NP 8.36875 0.29080879 3.00E−11 1//14 15//243 100B.10088.10088.6 4 ARID1A:1804- 7.141 ARID1A:1811 0 4.00742808 CW111116_112216_SS18_(—) N 7.141 0.12685865 //9 5//31 85B.09040.09040.4 0 1.69019384 CW111116_112216_SS18_(—) NP 6.91 0.11573086 1.63E−04 //17 24//89 85B.08385.08385.4 0 −7.1294629 CW111116_112216_SS18_(—) NP 6.19375 0.14706581 3.28E−06 //17 14//89 2uL.07986.07986.4 5 ARID1A:1804- 2.6485 ARID1A:1815 0 −3.2499123 CW111116_112216_SS18_(—) P 2.6485 0.06023014 3.21E−03 //17 10//110 100B.08576.08576.5 6 ARID1A:1230- 17.19525 ARID1A:1238 0 −1.1864051 CW111116_112216_SS18_(—) NP 17.19525 0.39382193 4.65E−10 1//19 24//156 70B.08068.08068.4 −4 6.63449953 CW111116_112216_SS18_(—) P 13.7405 0.45354921 4.01E−11 //19 19//156 70B.08049.08049.4 −1 11.243457 CW111116_112216_SS18_(—) N 13.42425 0.30072245 2//16 13//79 2uL.07268.07268.4 −1 4.36757066 CW111116_112216_SS18_(—) NP 13.2095 0.32579448 4.35E−07 //19 23//156 2uL.07255.07255.4 −3 6.15897961 CW111116_112216_SS18_(—) N 12.4195 0.27770138 2//16 15//79 70B.07793.07793.4 −1 4.0125459 CW111116_112216_SS18_(—) N 9.41825 0.16658265 2//16 13//80 70B.07666.07666.4 −1 1.32915819 CW111116_112216_SS18_(—) N 9.3055 0.21441738 2//16 14//80 70B.07992.07992.4 −2 −4.6748917 CW111116_112216_SS18_(—) NP 9.201 0.20888339 1.32E−07 //19 14//211 70B.08172.08172.5 −2 −2.4332159 CW111116_112216_SS18_(—) NP 9.1605 0.21827345 2.91E−07 //19 16//156 2uL.07359.07359.4 −2 3.51211924 CW111116_112216_SS18_(—) N 8.9895 0.1713722 2//16 15//79 2uL.06799.06799.4 −3 11.1908121 CW111116_112216_SS18_(—) N 8.85625 0.17840236 3//16 15//104 70B.08179.08179.5 −1 6.4485699 CW111116_112216_SS18_(—) N 8.8005 0.26271326 3//16 13//80 70B.07551.07551.4 −2 9.697432 CW111116_112216_SS18_(—) N 8.75825 0.23114633 1//16 12//80 70B.07723.07723.4 −1 −7.8738452 CW111116_112216_SS18_(—) NP 8.66025 0.20399138 3.78E−06 1//19 15//156 70B.08144.08144.4 −1 0.4259498 CW111116_112216_SS18_(—) N 8.60425 0.13092883 1//16 12//80 70B.07896.07896.4 −3 12.2701952 CW111116_112216_SS18_(—) N 8.205 0.27833373 2//16 12//80 70B.07760.07760.4 −2 0.42394904 CW111116_112216_SS18_(—) N 7.94575 0.16491288 3//16 14//80 70B.07702.07702.4 −1 12.6670181 CW111116_112216_SS18_(—) N 7.422 0.19485174 2//16 11//79 2uL.07355.07355.4 −1 1.49336263 CW111116_112216_SS18_(—) N 7.05475 0.14189672 1//16 14//79 2uL.07070.07070.4 −1 11.1301345 CW111116_112216_SS18_(—) N 6.5015 0.14975584 1//16 10//79 70B.07953.07953.4 −1 −3.6800268 CW111116_112216_SS18_(—) NP 6.48225 0.97418846 1.94E−04 //19 10//156 70B.08055.08055.4 −1 9.8835889 CW111116_112216_SS18_(—) N 6.10675 0.11184421 1//16 10//79 70B.08234.08234.4 7 ARID1A:1928- 12.402 ARID1A:1938 −1 6.50093287 CW111116_112216_SS18_(—) N 12.402 0.22936934 //18 9//118 85B.08148.08148.5 −1 1.5678539 CW111116_112216_SS18_(—) N 11.31375 0.20974889 //18 10//90 2uL.08216.08216.4 0 0.96972788 CW111116_112216_SS18_(—) N 11.09825 0.18443597 //18 8//90 85B.08003.08003.4 −2 0.37432557 CW111116_112216_SS18_(—) N 8.741 0.2467989 //18 7//90 2uL.08071.08071.4 8 ARID1A:1905- 6.13875 ARID1A:2020 −1 3.22482072 CW111116_112216_SS18_(—) N 6.13875 0.11248282 //14 7//66 2uL.05498.05498.6 −2 7.63823719 CW111116_112216_SS18_(—) P 4.37175 0.28865962 1.23E−06 //17 13//223 2uL.04764.04764.6 9 ARID1A:1010- 10.48925 ARID1A:1047 0 −1.5806529 CW111116_112216_SS18_(—) NP 10.48925 0.27023006 1.52E−07 2//16 24//83 100B.07618.07618.4 0 1.40606959 CW111116_112216_SS18_(—) NP 10.024 0.27973823 2.76E−05 3//15 19//75 85B.08112.08112.4 0 −0.0326588 CW111116_112216_SS18_(—) NP 9.18 0.25931471 2.85E−06 1//15 16//75 2uL.07728.07728.4 −1 1.50198482 CW111116_112216_SS18_(—) NP 8.8955 0.22713171 1.42E−05 //15 15//75 2uL.07738.07738.4 10 ARID1A:1047- 8.42275 ARID1A:1230 −1 0.54273507 CW111116_112216_SS18_(—) NP 8.42275 0.27126409 6.37E−13 2//16 17//81 70B.07926.07926.4 11 ARID1A:1047- 6.077 ARID1A:997 −1 −2.8807297 CW111116_112216_SS18_(—) NP 6.077 0.18272845 3.61E−07 //12 11//64 70B.05882.05882.4 12 ARID1A:1047- 14.385 ARID1A:1201 −2 −1.1667864 CW111116_112216_SS18_(—) NP 14.385 0.30290588 1.48E−08 5//15 25//132 70B.08609.08609.4 0 2.22239634 CW111116_112216_SS18_(—) NP 14.07375 0.25884663 7.75E−07 6//15 26//132 70B.08564.08564.4 −1 −1.8298874 CW111116_112216_SS18_(—) NP 8.4625 0.80668224 1.19E−06 //15 12//132 70B.08569.08569.4 13 ARID1A:26- 4.06275 ARID1A:51 −2 2.28323748 CW111116_112216_SS18_(—) NP 4.06275 0.12340157 6.46E−05 //17 13//151 85B.05924.05924.4 14 ARID1A:1962- 12.16075 ARID1A:2146 −1 15.5178649 CW111116_112216_SS18_(—) N 12.16075 0.23589517 2//12 11//63 100B.10073.10073.5 0 5.19870674 CW111116_112216_SS18_(—) N 11.24425 0.34498443 1//12 9//65 100B.09883.09883.5 15 ARID1A:1238- 5.8645 ARID1A:2159 −3 14.6183787 CW111116_112216_SS18_(—) N 5.8645 0.15424776 1//7 6//28 85B.06890.06890.4 5 SMARCA4 1 SMARCA4:1473- 4.1605 SMARCA4:1598 −1 2.60834472 CW111116_112216_SS18_(—) N 4.1605 0.17864274 //5 4//22 2uL.04456.04456.4 2 SMARCA4:1473- 11.31775 SMARCA4:1610 0 −1.870117 CW111116_112216_SS18_(—) P 11.31775 0.33874323 1.19E−03 1//17 30//95 100B.06337.06337.4 3 SMARCA4:1414- 4.7505 SMARCA4:1473 −1 4.88867556 CW111116_112216_SS18_(—) NP 4.7505 0.27480187 3.51E−03 1//17 12//104 100B.03866.03866.4 0 4.70798286 CW111116_112216_SS18_(—) P 3.41475 0.28312329 9.70E−04 //17 7//104 100B.03864.03864.4 −2 −2.1583398 CW111116_112216_SS18_(—) P 2.808 0.2440678 2.32E−02 //17 6//104 100B.03862.03862.4 4 SMARCA4:1414- 7.7985 SMARCA4:1610 0 5.04212268 CW111116_112216_SS18_(—) P 7.7985 0.20058386 8.07E−04 1//17 21//104 2uL.03510.03510.4 5 SMARCA4:1414- 13.8135 SMARCA4:1492 −2 2.78011668 CW111116_112216_SS18_(—) NP 13.8135 0.27469053 2.38E−10 4//17 25//99 85B.07189.07189.4 −1 −4.9438925 CW111116_112216_SS18_(—) NP 8.6235 0.23416879 1.29E−08 2//17 14//99 85B.07200.07200.4 6 SMARCA4:1414- 7.24075 SMARCA4:1503 0 −2.2525385 CW111116_112216_SS18_(—) NP 7.24075 0.26434778 1.24E−05 1//17 17//105 100B.04932.04932.4 7 SMARCA4:1414- 7.6795 SMARCA4:835 0 −0.8362955 CW111116_112216_SS18_(—) NP 7.6795 0.30509922 2.23E−12 1//17 22//104 100B.04553.04553.4 −2 −4.1047948 CW111116_112216_SS18_(—) NP 5.35375 0.25364207 7.09E−05 1//17 12//104 2uL.04145.04145.4 0 −0.8362955 CW111116_112216_SS18_(—) NP 4.267 0.22592857 9.64E−05 3//17 14//104 2uL.04152.04152.4 8 SMARCA4:1221- 14.168 SMARCA4:1237 0 −1.7125012 CW111116_112216_SS18_(—) NP 14.168 0.20548074 1.02E−07 3//17 30//92 85B.06774.06774.4 −1 4.71337704 CW111116_112216_SS18_(—) NP 12.40975 0.19023293 1.06E−06 4//17 30//92 85B.06763.06763.4 9 SMARCA4:524- 3.5165 SMARCA4:835 0 0.59485126 CW111116_112216_SS18_(—) N 3.5165 0.10854903 2//7 8//23 85B.05144.05144.4 10 SMARCA4:516- 9.3135 SMARCA4:524 0 −1.0476226 CW111116_112216_SS18_(—) NP 9.3135 0.19245751 5.64E−03 //17 25//116 50C.04372.04372.5 0 2.41515861 CW111116_112216_SS18_(—) P 9.0075 0.22244586 4.31E−02 //17 22//116 2uL.04147.04147.5 0 0.5353631 CW111116_112216_SS18_(—) P 8.7675 0.18348768 4.28E−02 //17 23//116 50C.04211.04211.5 0 −0.948686 CW111116_112216_SS18_(—) P 8.53075 0.23610611 6.23E−02 //17 22//116 50C.04726.04726.5 0 −1.6412422 CW111116_112216_SS18_(—) P 7.7145 0.17453225 2.89E−02 //17 21//116 50C.04292.04292.5 0 0.04068007 CW111116_112216_SS18_(—) P 7.4 0.20339169 1.65E−01 //17 16//116 50C.04451.04451.5 0 0.1597948 CW111116_112216_SS18_(—) N 7.017 0.208945 //11 5//44 50C.04653.04653.4 0 −1.1465592 CW111116_112216_SS18_(—) P 6.93825 0.31188052 7.54E−03 //17 18//116 2uL.03942.03942.5 −2 −0.7112381 CW111116_112216_SS18_(—) P 5.2635 0.21931707 4.80E−02 //17 12//116 2uL.04070.04070.5 −1 −4.7633326 CW111116_112216_SS18_(—) P 5.13725 0.26107893 4.56E−04 //17 10//90 50C.04472.04472.4 11 SMARCA4:516- 9.1465 SMARCA4:545 0 2.71518216 CW111116_112216_SS18_(—) P 9.1465 0.23836081 9.18E−04 1//17 22//94 50C.04577.04577.4 0 1.12070268 CW111116_112216_SS18_(—) N 5.098 0.25645798 4//8 11//29 100B.04027.04027.4 12 SMARCA4:1450- 7.4525 SMARCA4:1518 0 0.6994187 CW111116_112216_SS18_(—) P 7.4525 0.15220988 1.28E−02 //18 23//99 2uL.04960.04960.4 13 SMARCA4:1450- 5.728 SMARCA4:1602 −1 2.60681329 CW111116_112216_SS18_(—) N 5.728 0.15561834 //8 8//36 50C.06305.06305.4 14 SMARCA4:1471- 9.68525 SMARCA4:1610 0 −2.0820189 CW111116_112216_SS18_(—) P 9.68525 0.32474685 4.86E−03 //17 27//95 100B.05948.05948.4 15 SMARCA4:689- 19.00475 SMARCA4:711 0 0.02827482 CW111116_112216_SS18_(—) NP 19.00475 0.54206361 5.35E−18 //10 26//172 100B.07631.07631.5 −1 −5.6633981 CW111116_112216_SS18_(—) NP 10.93075 0.59150681 8.25E−15 //10 16//172 100B.07617.07617.5 16 SMARCA4:540- 10.62925 SMARCA4:546 0 0.91008056 CW111116_112216_SS18_(—) N 10.62925 0.20044032 //5 4//18 50C.06595.06595.4 0 1.14245342 CW111116_112216_SS18_(—) N 10.19875 0.19210846 //5 3//19 85B.08013.08013.4 0 2.1371397 CW111116_112216_SS18_(—) N 9.281 0.17905236 //5 4//18 50C.06881.06881.4 −1 0.13211266 CW111116_112216_SS18_(—) NP 8.6725 0.23915561 8.11E−02 //15 16//125 50C.06940.06940.5 0 2.24189267 CW111116_112216_SS18_(—) N 4.949 0.30944788 //5 3//18 50C.06964.06964.4 17 SMARCA4:1596- 4.43525 SMARCA4:1604 0 1.30596672 CW111116_112216_SS18_(—) N 4.43525 0.17498126 //4 3//17 50C.04427.04427.4 18 SMARCA4:1596- 3.9065 SMARCA4:1602 0 2.54675242 CW111116_112216_SS18_(—) N 3.9065 0.10935226 2//4 5//17 85B.05361.05361.4 19 SMARCA4:207- 9.25575 SMARCA4:94 0 −3.7117289 CW111116_112216_SS18_(—) P 9.25575 0.10787902 3.41E−08 2//18 19//97 100B.07168.07168.4 20 SMARCA4:545- 10.8375 SMARCA4:689 −1 3.68491285 CW111116_112216_SS18_(—) N 10.8375 0.31633562 4//8 9//25 85B.06239.06239.4 21 SMARCA4:1503- 4.953 SMARCA4:1518 0 0.27784468 CW111116_112216_SS18_(—) N 4.953 0.11726685 3//7 8//24 2uL.04084.04084.4 0 −1.1266427 CW111116_112216_SS18_(—) P 2.435 0.27418084 4.34E−03 1//9 5//37 2uL.04414.04414.4 22 SMARCA4:1503- 3.144 SMARCA4:1509 0 1.34796785 CW111116_112216_SS18_(—) N 3.144 0.26469103 //7 5//31 85B.06369.06369.4 23 SMARCA4:1131- 10.163 SMARCA4:1414 −1 0.03306764 CW111116_112216_SS18_(—) NP 10.163 0.35324377 7.41E−11 1//17 17//98 50C.05268.05268.4 −1 2.96512724 CW111116_112216_SS18_(—) NP 8.06 0.3454261 4.98E−08 //17 16//103 85B.04504.04504.4 0 0.50412297 CW111116_112216_SS18_(—) NP 7.8485 0.24537681 4.65E−08 //17 15//125 50C.05273.05273.5 0 −2.4072406 CW111116_112216_SS18_(—) NP 5.97925 0.59001875 3.46E−05 //17 9//103 85B.04506.04506.4 0 −0.4979426 CW111116_112216_SS18_(—) P 5.0595 0.19831455 4.40E−08 1//17 10//97 50C.05631.05631.4 −2 2.37752451 CW111116_112216_SS18_(—) NP 4.94625 0.30813917 4.16E−07 //17 8//103 2uL.04071.04071.4 −1 3.26567265 CW111116_112216_SS18_(—) P 4.27725 0.12736355 3.70E−02 //17 10//124 50C.05619.05619.5 −2 0.69865955 CW111116_112216_SS18_(—) P 2.621 0.2685726 2.87E−01 1//17 5//103 85B.04539.04539.4 24 SMARCA4:1131- 8.2095 SMARCA4:1375 0 −2.0170488 CW111116_112216_SS18_(—) NP 8.2095 0.12503617 2.22E−05 //16 17//82 50C.05585.05585.4 25 SMARCA4:1131- 5.8515 SMARCA4:1408 0 −0.009574 CW111116_112216_SS18_(—) NP 5.8515 0.23173799 9.22E−04 //15 18//83 100B.05347.05347.4 −2 −0.3859726 CW111116_112216_SS18_(—) P 3.268 0.0967193 1.58E−03 //17 13//95 100B.05778.05778.4 0 0.90965849 CW111116_112216_SS18_(—) P 2.90625 0.08880147 5.76E−04 //17 11//95 100B.05797.05797.4 −1 5.3363982 CW111116_112216_SS18_(—) P 2.12325 0.16338348 4.41E−04 //17 10//95 100B.05789.05789.4 26 SMARCA4:1131- 9.007 SMARCA4:835 0 1.72577953 CW111116_112216_SS18_(—) NP 9.007 0.20954065 1.06E−04 5//12 18//55 2uL.04917.04917.4 0 −0.5202638 CW111116_112216_SS18_(—) NP 7.21375 0.1808252 1.45E−05 3//15 19//75 100B.06117.06117.4 0 2.58348164 CW111116_112216_SS18_(—) NP 5.093 0.11662202 2.26E−01 4//12 13//55 70B.05589.05589.4 27 SMARCA4:455- 6.60925 SMARCA4:461 0 0.06587683 CW111116_112216_SS18_(—) N 6.60925 0.12749325 4//9 11//37 2uL.04891.04891.4 0 −1.7284321 CW111116_112216_SS18_(—) NP 5.94875 0.22510122 2.20E−02 2//10 12//43 70B.05573.05573.4 28 SMARCA4:1349- 8.297 SMARCA4:1365 0 −3.3145193 CW111116_112216_SS18_(—) NP 8.297 0.15591322 8.89E−03 //11 23//114 70B.11691.11691.4 0 2.48326848 CW111116_112216_SS18_(—) NP 7.04225 0.20675102 3.23E−04 //11 15//114 85B.10926.10926.4 0 −4.0102538 CW111116_112216_SS18_(—) P 3.414 0.12538333 6.57E−04 //11 11//114 85B.11271.11271.4 0 −1.2273157 CW111116_112216_SS18_(—) P 2.161 0.101742 2.82E−01 //11 9//114 70B.11386.11386.4 29 SMARCA4:1602- 4.0415 SMARCA4:1610 0 0.66066386 CW111116_112216_SS18_(—) N 4.0415 0.10406716 //8 7//30 2uL.03600.03600.4 0 5.25657562 CW111116_112216_SS18_(—) N 3.9275 0.28750778 //5 4//22 85B.05147.05147.4 0 8.70951581 CW111116_112216_SS18_(—) N 3.732 0.13954271 //5 6//22 2uL.04665.04665.4 30 SMARCA4:496- 10.84475 SMARCA4:502 0 −0.7574636 CW111116_112216_SS18_(—) NP 10.84475 0.30188456 6.39E−02 //16 21//85 85B.05766.05766.4 0 3.50934318 CW111116_112216_SS18_(—) N 8.18475 0.26402419 1//10 7//44 50C.05420.05420.5 31 SMARCA4:1598- 6.55175 SMARCA4:1602 0 1.43140209 CW111116_112216_SS18_(—) N 6.55175 0.14720222 //8 7//39 50C.05813.05813.4 0 0.50670603 CW111116_112216_SS18_(—) N 5.177 0.11886394 //8 7//39 50C.05892.05892.4 0 3.68316906 CW111116_112216_SS18_(—) N 4.8915 0.12921163 1//5 10//22 85B.05815.05815.4 −1 3.17870793 CW111116_112216_SS18_(—) N 4.7365 0.26483086 //5 5//22 50C.04020.04020.4 0 2.4459906 CW111116_112216_SS18_(—) N 4.60375 0.19519408 1//5 6//22 2uL.03578.03578.4 0 0.07711855 CW111116_112216_SS18_(—) N 4.55225 0.11495581 1//5 9//22 2uL.05351.05351.4 0 0.74537975 CW111116_112216_SS18_(—) NP 4.1665 0.16869104 6.11E−03 2//8 8//35 50C.03994.03994.4 0 −0.3247881 CW111116_112216_SS18_(—) NP 3.76025 0.1111612 4.01E−03 1//8 8//35 50C.04137.04137.4 0 11.4663174 CW111116_112216_SS18_(—) N 2.5545 0.11736733 //5 5//22 50C.03938.03938.4 32 SMARCA4:1598- 6.024 SMARCA4:1610 0 0.8241169 CW111116_112216_SS18_(—) N 6.024 0.22608369 1//5 5//22 100B.06620.06620.4 33 SMARCA4:1408- 2.15475 SMARCA4:835 0 −6.0350318 CW111116_112216_SS18_(—) NP 2.15475 0.13605797 1.62E−02 1//12 7//53 85B.04357.04357.4 34 SMARCA4:1509- 3.55025 SMARCA4:1518 −1 14.7570068 CW111116_112216_SS18_(—) N 3.55025 0.1208925 2//7 5//24 100B.05339.05339.4 35 SMARCA4:1518- 2.56075 SMARCA4:1610 0 0.3121734 CW111116_112216_SS18_(—) N 2.56075 0.10001758 //5 5//22 2uL.03285.03285.4 36 SMARCA4:1518- 1.89275 SMARCA4:1604 0 0.11851441 CW111116_112216_SS18_(—) P 1.89275 0.11595601 1.12E−04 //9 4//37 2uL.02995.02995.4 37 SMARCA4:711- 13.439 SMARCA4:835 −1 −2.1351795 CW111116_112216_SS18_(—) NP 13.439 0.41719829 1.92E−04 //10 25//127 85B.07532.07532.4 38 SMARCA4:1122- 8.20575 SMARCA4:1131 0 −2.0731113 CW111116_112216_SS18_(—) NP 8.20575 0.17009909 2.80E−04 5//12 23//57 70B.06893.06893.4 39 SMARCA4:1122- 8.43875 SMARCA4:1414 0 0.80093274 CW111116_112216_SS18_(—) NP 8.43875 0.23396778 2.41E−05 //17 19//105 50C.05550.05550.4 40 SMARCA4:1610- 3.347 SMARCA4:835 0 1.13335367 CW111116_112216_SS18_(—) N 3.347 0.17139931 1//5 6//22 100B.04913.04913.4 0 −1.2967451 CW111116_112216_SS18_(—) NP 3.27375 0.16920791 7.24E−03 //12 9//54 85B.04959.04959.4 41 SMARCA4:1213- 8.92675 SMARCA4:835 −1 −1.5019658 CW111116_112216_SS18_(—) NP 8.92675 0.16171942 1.85E−04 3//18 21//92 70B.09238.09238.4 42 SMARCA4:1081- 4.40975 SMARCA4:1091 −2 5.23236092 CW111116_112216_SS18_(—) N 4.40975 0.21131637 2//8 6//29 100B.08308.08308.4 43 SMARCA4:1237- 12.47525 SMARCA4:1414 −1 6.4194941 CW111116_112216_SS18_(—) NP 12.47525 0.43795089 6.37E−08 //17 21//91 50C.05442.05442.4 44 SMARCA4:1237- 8.6795 SMARCA4:1408 0 0.97528343 CW111116_112216_SS18_(—) NP 8.6795 0.28337523 2.55E−03 //17 23//100 100B.05568.05568.4 45 SMARCA4:1237- 17.16 SMARCA4:835 0 −2.5274611 CW111116_112216_SS18_(—) NP 17.16 0.24062934 1.68E−07 5//17 36//91 100B.06309.06309.4 6 ACTL6A 1 ACTL6A:34- 14.0625 ACTL6A:62 0 9.90789342 CW111116_112216_SS18_(—) N 14.0625 0.19151675 //11 17//178 70B.10690.10690.5 0 9.90789342 CW111116_112216_SS18_(—) N 13.50075 0.18558242 //11 15//178 70B.10688.10688.5 −4 5.04318207 CW111116_112216_SS18_(—) P 13.09925 0.17857825 2.06E−03 //7 23//232 70B.10474.10474.5 0 9.88463752 CW111116_112216_SS18_(—) P 12.7945 0.17587425 6.25E−05 //8 17//295 70B.10688.10688.5 −1 −3.6287816 CW111116_112216_SS18_(—) NP 12.6725 0.23045937 3.83E−06 //7 17//168 70B.10678.10678.4 0 9.88463752 CW111116_112216_SS18_(—) P 12.5855 0.17140386 2.97E−02 //8 19//295 70B.10690.10690.5 −1 −4.9877867 CW111116_112216_SS18_(—) NP 12.3595 0.25648236 5.63E−06 //7 18//168 70B.10494.10494.4 −1 17.4615944 CW111116_112216_SS18_(—) N 12.30525 0.26792188 //11 15//178 70B.10211.10211.5 −2 3.00246941 CW111116_112216_SS18_(—) N 12.10775 0.18531798 1//11 18//178 70B.10367.10367.5 −2 1.83821613 CW111116_112216_SS18_(—) N 12.0205 0.21568786 1//11 15//178 70B.10217.10217.5 0 2.99636795 CW111116_112216_SS18_(—) NP 11.82375 0.25083 2.20E−03 //7 16//168 70B.10514.10514.4 −4 9.60858963 CW111116_112216_SS18_(—) P 11.59125 0.26348541 1.94E−07 //8 13//295 85B.10411.10411.5 −2 0.02354443 CW111116_112216_SS18_(—) NP 10.9805 0.37730436 5.45E−06 //7 13//168 85B.10263.10263.4 −3 3.38689468 CW111116_112216_SS18_(—) P 9.81475 0.30397516 4.54E−01 //8 9//295 70B.10796.10796.5 −3 −0.7538238 CW111116_112216_SS18_(—) P 9.75025 0.27372196 1.00E−02 //8 11//295 70B.10946.10946.5 −1 8.60226373 CW111116_112216_SS18_(—) P 8.51125 0.34588735 1.38E−03 //8 6//210 70B.11028.11028.4 2 ACTL6A:34- 13.78625 ACTL6A:60 0 1.28468376 CW111116_112216_SS18_(—) P 13.78625 0.16062368 8.97E−05 //6 29//232 70B.10600.10600.5 −1 3.50599484 CW111116_112216_SS18_(—) NP 13.5995 0.25577393 4.81E−07 //6 19//168 70B.10836.10836.4 0 2.98344006 CW111116_112216_SS18_(—) NP 13.3425 0.20350966 4.89E−05 //6 24//232 70B.11021.11021.5 −1 −7.782428 CW111116_112216_SS18_(—) NP 13.239 0.2458336 2.35E−06 //6 22//232 70B.11091.11091.5 −3 10.3037747 CW111116_112216_SS18_(—) N 12.7935 0.40481276 //11 11//131 70B.10543.10543.4 −1 8.56965439 CW111116_112216_SS18_(—) N 12.73675 0.21336734 //11 17//178 70B.10556.10556.5 −2 −1.9854221 CW111116_112216_SS18_(—) NP 12.61775 0.22430758 1.06E−07 //6 26//232 70B.10805.10805.5 −1 10.7212139 CW111116_112216_SS18_(—) N 12.2925 0.22878706 //11 13//178 70B.10755.10755.5 −2 −1.3354606 CW111116_112216_SS18_(—) NP 11.47075 0.39781338 2.15E−04 //6 15//168 70B.11015.11015.4 −1 2.65661669 CW111116_112216_SS18_(—) NP 11.33575 0.32009234 4.51E−06 //6 17//168 70B.10582.10582.4 −1 −8.3852993 CW111116_112216_SS18_(—) NP 11.28575 0.37848148 8.87E−06 //6 17//168 70B.10597.10597.4 −3 4.52539374 CW111116_112216_SS18_(—) N 10.7635 0.28843423 //11 12//178 100B.10229.10229.5 0 4.20001022 CW111116_112216_SS18_(—) N 10.45875 0.22032568 //11 11//131 70B.10900.10900.4 −1 7.1878619 CW111116_112216_SS18_(—) P 10.34025 0.30817202 1.03E−01 //6 19//232 70B.11121.11121.5 −3 1.34283218 CW111116_112216_SS18_(—) N 10.32575 0.16986215 //11 14//178 70B.10307.10307.5 −2 0.59612286 CW111116_112216_SS18_(—) N 9.20175 0.30140026 //11 11//178 2uL.09647.09647.5 3 ACTL6A:238- 12.00575 ACTL6A:240 0 0.92088824 CW111116_112216_SS18_(—) N 12.00575 0.28282763 //10 13//59 2uL.05555.05555.5 0 1.00888877 CW111116_112216_SS18_(—) NP 10.8045 0.21954119 2.59E−08 4//15 33//92 2uL.05540.05540.5 0 −1.0220916 CW111116_112216_SS18_(—) NP 10.75975 0.1950732 8.40E−06 1//10 10//52 100B.06129.06129.4 0 0.74022661 CW111116_112216_SS18_(—) N 10.665 0.26826477 5//10 24//42 100B.06544.06544.4 0 4.22632601 CW111116_112216_SS18_(—) N 10.53725 0.24990514 5//10 25//42 100B.06075.06075.4 0 −1.2363216 CW111116_112216_SS18_(—) NP 10.411 0.22880564 4.25E−04 1//10 11//52 100B.06053.06053.4 0 1.07931139 CW111116_112216_SS18_(—) N 10.077 0.18615778 //10 13//62 100B.07037.07037.5 0 −1.3434366 CW111116_112216_SS18_(—) NP 10.02 0.15743083 1.25E−03 1//10 12//52 100B.06208.06208.4 0 0.11004868 CW111116_112216_SS18_(—) N 9.9415 0.2184441 6//10 22//41 70B.07708.07708.4 0 0.33945455 CW111116_112216_SS18_(—) N 9.15725 0.1573911 3//10 21//42 85B.06599.06599.4 0 1.87069207 CW111116_112216_SS18_(—) N 9.009 0.20406823 //10 14//50 100B.07022.07022.4 0 0.03442421 CW111116_112216_SS18_(—) N 8.7 0.39011704 5//11 15//45 2uL.06891.06891.4 0 1.77834315 CW111116_112216_SS18_(—) N 8.25575 0.21555483 4//11 18//46 2uL.05638.05638.4 −1 2.36868225 CW111116_112216_SS18_(—) N 8.2375 0.13333387 3//10 19//42 85B.06593.06593.4 0 −0.3794017 CW111116_112216_SS18_(—) NP 7.7665 0.13164563 4.40E−04 //10 8//52 2uL.05718.05718.4 0 4.93852271 CW111116_112216_SS18_(—) N 7.6085 0.21717475 1//10 17//48 50C.06334.06334.4 0 1.11053925 CW111116_112216_SS18_(—) N 7.554 0.27549234 //10 14//50 2uL.06641.06641.4 0 0.02984095 CW111116_112216_SS18_(—) NP 6.878 0.14017711 4.75E−02 2//10 12//63 50C.06101.06101.5 −2 12.5007994 CW111116_112216_SS18_(—) N 6.61475 0.18522485 //10 10//59 50C.05951.05951.5 0 6.57666645 CW111116_112216_SS18_(—) N 6.2085 0.14933792 3//11 15//46 100B.06316.06316.4 0 0.67098049 CW111116_112216_SS18_(—) N 6.206 0.12834778 //10 12//50 100B.06882.06882.4 −1 −5.6600853 CW111116_112216_SS18_(—) NP 5.787 0.18078725 7.60E−06 2//15 10//74 50C.05958.05958.4 0 14.9153784 CW111116_112216_SS18_(—) N 4.98125 0.16190236 3//10 12//42 100B.06062.06062.4 4 ACTL6A:238- 10.58675 ACTL6A:242 0 1.43792673 CW111116_112216_SS18_(—) N 10.58675 0.18896812 7//11 19//45 70B.07699.07699.4 0 0.66335935 CW111116_112216_SS18_(—) N 9.307 0.19218816 3//10 20//42 100B.06151.06151.4 0 1.48247711 CW111116_112216_SS18_(—) NP 7.64 0.14565282 7.16E−06 4//15 21//74 2uL.05616.05616.4 0 −2.4754197 CW111116_112216_SS18_(—) NP 6.3465 0.19562001 1.12E−05 3//15 17//76 100B.06365.06365.4 0 5.05892792 CW111116_112216_SS18_(—) N 3.616 0.13233787 2//10 11//42 100B.06630.06630.4 5 ACTL6A:135- 13.0675 ACTL6A:421 −1 6.28608677 CW111116_112216_SS18_(—) N 13.0675 0.32471082 //14 8//66 85B.10900.10900.4 0 10.5463973 CW111116_112216_SS18_(—) N 11.21275 0.24829491 //14 8//66 85B.10878.10878.4 0 2.79946222 CW111116_112216_SS18_(—) N 8.966 0.17541183 1//14 10//66 85B.10104.10104.4 0 −9.1885096 CW111116_112216_SS18_(—) NP 7.3195 0.15641294 6.87E−03 //14 13//119 85B.10114.10114.4 −2 5.70069611 CW111116_112216_SS18_(—) N 6.00475 0.19738507 //14 9//66 85B.10913.10913.4 6 ACTL6A:226- 17.42975 ACTL6A:240 −1 2.83879312 CW111116_112216_SS18_(—) N 17.42975 0.34251199 //10 9//48 70B.11037.11037.4 0 −7.8179394 CW111116_112216_SS18_(—) NP 16.72775 0.28720619 1.10E−07 2//12 35//140 85B.09717.09717.4 −1 2.2149828 CW111116_112216_SS18_(—) NP 16.4235 0.35021484 4.86E−07 2//12 35//140 85B.09807.09807.4 0 2.09111956 CW111116_112216_SS18_(—) NP 16.3885 0.33127154 4.36E−09 //12 32//140 85B.09796.09796.4 −1 −1.1912562 CW111116_112216_SS18_(—) NP 13.8505 0.24197028 7.43E−09 1//12 34//140 85B.09707.09707.4 −1 3.08108813 CW111116_112216_SS18_(—) N 13.0095 0.3078006 //10 8//46 85B.10585.10585.4 −2 2.42837387 CW111116_112216_SS18_(—) NP 10.3445 0.34372819 2.13E−11 //12 23//190 2uL.09455.09455.5 −1 −3.7802709 CW111116_112216_SS18_(—) NP 7.75225 0.32752065 8.49E−09 //12 20//190 100B.09714.09714.5 7 ACTL6A:371- 9.75125 ACTL6A:379 0 0.15829034 CW111116_112216_SS18_(—) NP 9.75125 0.23964439 7.42E−06 4//12 17//65 85B.07018.07018.4 0 −4.4336286 CW111116_112216_SS18_(—) NP 5.50675 0.11137685 4.96E−03 2//13 13//73 100B.06583.06583.4 7 SMARCB1 1 SMARCB1:108- 9.59475 SMARCB1:45 0 4.04887654 CW111116_112216_SS18_(—) N 9.59475 0.20994158 6//8 12//25 70B.07803.07803.4 8 HNRL1 1 HNRL1:448- 20.9285 HNRL1:527 −1 4.26999534 CW111116_112216_SS18_(—) N 20.9285 0.38880684 3//16 24//92 100B.07419.07419.4 0 1.54487048 CW111116_112216_SS18_(—) NP 13.05125 0.34729244 2.63E−12 //16 25//100 50C.05674.05674.4 0 2.05912587 CW111116_112216_SS18_(—) NP 12.5885 0.29528635 1.17E−09 2//16 27//100 2uL.05311.05311.4 0 −1.5024705 CW111116_112216_SS18_(—) NP 7.2595 0.2317774 8.38E−05 //16 15//128 50C.05752.05752.5 2 HNRL1:416- 9.93875 HNRL1:499 0 2.10262447 CW111116_112216_SS18_(—) N 9.93875 0.20836391 //10 5//35 50C.06277.06277.4 3 HNRL1:162- 6.696 HNRL1:270 −2 2.79635868 CW111116_112216_SS18_(—) N 6.696 0.14490997 //16 12//139 100B.08556.08556.5 4 HNRL1:270- 13.03975 HNRL1:350 −1 −3.3934852 CW111116_112216_SS18_(—) NP 13.03975 0.27635664 1.13E−06 2//12 27//120 100B.08532.08532.4 −2 −4.7746986 CW111116_112216_SS18_(—) NP 11.63 0.32708046 1.69E−09 //12 23//120 100B.08502.08502.4 5 HNRL1:270- 11.2725 HNRL1:310 −1 −0.0213529 CW111116_112216_SS18_(—) NP 11.2725 0.31727156 1.02E−04 //12 21//166 50C.06149.06149.6 0 11.1287046 CW111116_112216_SS18_(—) N 8.24725 0.23775856 //7 5//27 50C.06129.06129.4 0 0.16792226 CW111116_112216_SS18_(—) NP 6.851 0.21532514 2.79E−03 //12 18//166 50C.06141.06141.6 6 HNRL1:117- 13.86725 HNRL1:270 −1 −2.52877 CW111116_112216_SS18_(—) NP 13.86725 0.3415705 3.44E−11 //11 19//151 85B.07666.07666.6 7 HNRL1:117- 11.8345 HNRL1:172 −1 9.51099068 CW111116_112216_SS18_(—) N 11.8345 0.19266585 //9 7//41 100B.07073.07073.4 8 HNRL1:117- 10.7005 HNRL1:142 −1 5.64224561 CW111116_112216_SS18_(—) N 10.7005 0.14523528 //11 12//111 85B.07949.07949.4 9 HNRL1:539- 10.10425 HNRL1:600 −1 −2.4982577 CW111116_112216_SS18_(—) NP 10.10425 0.2411717 1.28E−11 2//16 17//83 100B.06272.06272.4 10 HNRL1:440- 5.8215 HNRL1:448 0 6.13738985 CW111116_112216_SS18_(—) N 5.8215 0.12485657 //17 17//111 2uL.05325.05325.5 11 HNRL1:440- 8.89175 HNRL1:449 −1 4.9901367 CW111116_112216_SS18_(—) N 8.89175 0.1956273 //14 14//75 100B.07808.07808.4 12 HNRL1:26- 5.49 HNRL1:7 0 −4.6850826 CW111116_112216_SS18_(—) NP 5.49 0.17584318 3.85E−09 2//12 14//72 50C.07878.07878.4 −1 0.01439254 CW111116_112216_SS18_(—) NP 4.28625 0.10100623 6.78E−06 3//12 19//72 2uL.07312.07312.4 0 6.28035945 CW111116_112216_SS18_(—) P 3.86475 0.09184183 7.10E−04 2//12 18//72 2uL.07316.07316.4 13 HNRL1:172- 4.568 HNRL1:310 0 −0.3476623 CW111116_112216_SS18_(—) NP 4.568 0.16328573 3.63E−06 //9 8//46 50C.03595.03595.4 0 0.09739005 CW111116_112216_SS18_(—) NP 3.409 0.25402385 3.91E−05 //9 6//46 2uL.03202.03202.4 14 HNRL1:172- 4.56075 HNRL1:416 0 −2.5874446 CW111116_112216_SS18_(—) NP 4.56075 0.17528874 2.27E−03 1//9 9//46 50C.04294.04294.4 15 HNRL1:172- 12.42 HNRL1:270 0 −1.1047158 CW111116_112216_SS18_(—) NP 12.42 0.22140024 4.57E−02 //12 35//163 2uL.05835.05835.5 −1 4.55437651 CW111116_112216_SS18_(—) NP 11.1145 0.22642451 7.19E−03 //12 28//163 2uL.05846.05846.5 16 HNRL1:172- 3.71625 HNRL1:498 0 0.56959629 CW111116_112216_SS18_(—) N 3.71625 0.14475324 //4 4//16 2uL.02707.02707.4 9 SMARCD3 1 SMARCD3:241- 7.68925 SMARCD3:353 −1 4.9687307 CW111116_112216_SS18_(—) P 7.68925 0.10043364 7.03E−07 2//15 23//212 100B.09322.09322.5 2 SMARCD3:169- 18.72275 SMARCD3:241 −1 2.21407299 CW111116_112216_SS18_(—) NP 18.72275 0.27808061 1.35E−04 //7 28//214 85B.08925.08925.5 0 −6.4531077 CW111116_112216_SS18_(—) NP 15.2105 0.23553505 1.47E−04 //7 21//214 85B.08904.08904.5 10 SMARCA2 1 SMARCA2:500- 5.1365 SMARCA2:521 0 0.22134049 CW111116_112216_SS18_(—) N 5.1365 0.139668 //9 13//34 50C.04938.04938.4 0 2.23314894 CW111116_112216_SS18_(—) N 4.1365 0.12213594 2//7 7//23 100B.04677.04677.4 2 SMARCA2:516- 7.43575 SMARCA2:522 0 1.9575337 CW111116_112216_SS18_(—) N 7.43575 0.13338506 //5 4//18 50C.06705.06705.4 11 BCL7C 1 BCL7C:15- 4.63625 BCL7C:20 0 −1.8417441 CW111116_112216_SS18_(—) NP 4.63625 0.17902653 6.62E−03 3//10 8//42 100B.05407.05407.4 0 0.81727342 CW111116_112216_SS18_(—) NP 4.1545 0.35340904 1.65E−02 //9 7//41 70B.06004.06004.4 −1 5.49311435 CW111116_112216_SS18_(—) N 3.55725 0.11714968 2//6 5//28 70B.06014.06014.4 2 BCL7C:19- 6.9615 BCL7C:27 0 0.17908816 CW111116_112216_SS18_(—) P 6.9615 0.19269255 1.07E−03 5//11 19//49 100B.05809.05809.4 12 ARID1B 1 ARID1B:1773- 7.38575 ARID1B:1780 0 0.74780314 CW111116_112216_SS18_(—) N 7.38575 0.15687326 //12 8//53 100B.08333.08333.4 0 0.2152509 CW111116_112216_SS18_(—) N 6.8175 0.13592862 //12 6//53 100B.09453.09453.4 0 4.16245113 CW111116_112216_SS18_(—) N 5.8925 0.14058381 //13 6//58 100B.08842.08842.4 2 ARID1B:1777- 10.149 ARID1B:1781 0 −0.3524021 CW111116_112216_SS18_(—) NP 10.149 0.25489433 1.27E−05 4//12 19//53 100B.08132.08132.4 −1 −0.4524007 CW111116_112216_SS18_(—) NP 6.17175 0.2378782 3.99E−07 3//12 13//53 2uL.07820.07820.4 3 ARID1B:1904- 10.241 ARID1B:2097 0 0.00948036 CW111116_112216_SS18_(—) NP 10.241 0.28699539 2.21E−07 4//12 17//53 2uL.08150.08150.4 −1 −4.1879215 CW111116_112216_SS18_(—) NP 8.8535 0.18829822 1.56E−06 2//12 13//53 2uL.08133.08133.4 −2 5.04636261 CW111116_112216_SS18_(—) NP 8.73275 0.20633824 4.32E−05 2//12 12//53 2uL.08128.08128.4 4 ARID1B:1237- 10.32675 ARID1B:1266 0 −3.4419049 CW111116_112216_SS18_(—) NP 10.32675 0.16509724 1.59E−06 1//15 28//126 85B.08770.08770.4 −1 −1.6422907 CW111116_112216_SS18_(—) NP 9.1355 0.1388606 2.00E−06 2//15 29//126 85B.08764.08764.4 −2 1.59701499 CW111116_112216_SS18_(—) P 2.9755 0.27724202 1.71E−02 //15 6//126 85B.08755.08755.4 5 ARID1B:1266- 17.37575 ARID1B:928 −2 −4.0122495 CW111116_112216_SS18_(—) NP 17.37575 0.31913438 7.53E−06 //19 29//126 70B.08900.08900.4 −1 −3.0353682 CW111116_112216_SS18_(—) P 3.1925 0.68172112 3.43E−01 //19 7//126 70B.08912.08912.4 6 ARID1B:1266- 16.292 ARID1B:1274 −2 −2.9982521 CW111116_112216_SS18_(—) NP 16.292 0.30574348 2.83E−06 //17 29//342 70B.09553.09553.5 −1 −5.6739737 CW111116_112216_SS18_(—) NP 14.74825 0.28526872 5.27E−05 1//17 29//342 70B.09520.09520.5 13 SMARCD2 1 SMARCD2:226- 12.776 SMARCD2:289 −2 4.35298102 CW111116_112216_SS18_(—) P 12.776 0.16341357 1.48E−04 //13 28//214 85B.08237.08237.5 −1 1.00044344 CW111116_112216_SS18_(—) P 10.88525 0.1313145 5.87E−05 //11 34//324 85B.08465.08465.6 −1 −0.8505403 CW111116_112216_SS18_(—) P 10.37075 0.12582502 4.00E−03 1//13 22//214 85B.08245.08245.5 −4 −4.4696592 CW111116_112216_SS18_(—) P 7.58125 0.15804807 1.29E−05 //11 20//324 100B.08370.08370.6 2 SMARCD2:289- 14.58025 SMARCD2:297 0 −3.9362663 CW111116_112216_SS18_(—) NP 14.58025 0.24967037 3.06E−03 //10 30//175 100B.10414.10414.5 −1 4.12690477 CW111116_112216_SS18_(—) NP 11.9405 0.25111726 1.02E−04 1//10 23//128 100B.10425.10425.4 −1 −0.4708683 CW111116_112216_SS18_(—) P 11.283 0.14298749 1.26E−04 1//10 30//128 85B.09521.09521.4 −2 5.02403122 CW111116_112216_SS18_(—) NP 11.26225 0.17258963 7.62E−04 1//10 28//128 85B.09515.09515.4 0 −1.2205499 CW111116_112216_SS18_(—) NP 6.182 0.16000621 4.03E−06 1//9 16//133 85B.11385.11385.4 0 −8.5822031 CW111116_112216_SS18_(—) P 3.6505 0.24454865 2.18E−01 //9 10//133 85B.11715.11715.4 3 SMARCD2:206- 21.044 SMARCD2:289 −3 −0.8111146 CW111116_112216_SS18_(—) NP 21.044 0.45532536 3.07E−08 //8 45//318 100B.08133.08133.5 −2 0.58550738 CW111116_112216_SS18_(—) NP 18.443 0.44304314 8.00E−10 //8 39//318 85B.08236.08236.5 −2 5.03512911 CW111116_112216_SS18_(—) NP 17.85325 0.35396427 1.80E−05 //8 40//318 100B.08135.08135.6 −1 6.34657297 CW111116_112216_SS18_(—) NP 16.7175 0.41184731 9.56E−07 //8 40//318 100B.08149.08149.5 −3 −0.8229241 CW111116_112216_SS18_(—) NP 15.06075 0.27574701 1.02E−02 //8 36//318 85B.08261.08261.6 −2 3.16304634 CW111116_112216_SS18_(—) NP 12.382 0.41775334 6.46E−10 //8 24//178 85B.07817.07817.4 −3 8.31342582 CW111116_112216_SS18_(—) N 9.568 0.25855965 //13 11//161 85B.09071.09071.5 −1 0.20737128 CW111116_112216_SS18_(—) NP 8.7365 0.25694077 2.14E−08 //8 20//178 85B.07797.07797.4 −2 8.92644409 CW111116_112216_SS18_(—) P 1.76675 0.08827791 1.06E−01 //8 7//318 85B.08489.08489.5 4 SMARCD2:206- 12.949 SMARCD2:401 −3 1.36608154 CW111116_112216_SS18_(—) NP 12.949 0.33227272 1.26E−14 //8 24//244 100B.08391.08391.5 −4 −1.3950808 CW111116_112216_SS18_(—) P 7.762 0.14231104 2.97E−05 //8 19//244 100B.08401.08401.6 5 SMARCD2:185- 6.83975 SMARCD2:191 0 −1.3571181 CW111116_112216_SS18_(—) P 6.83975 0.27635912 4.01E−04 //12 19//56 50C.06817.06817.4 0 −2.8726121 CW111116_112216_SS18_(—) P 6.687 0.17557633 8.24E−02 //11 17//48 85B.07300.07300.4 0 −3.3339802 CW111116_112216_SS18_(—) P 4.4555 0.09526508 7.79E−06 //11 12//49 100B.06511.06511.4 6 SMARCD2:237- 20.48475 SMARCD2:401 0 −3.318532 CW111116_112216_SS18_(—) NP 20.48475 0.30959866 4.50E−06 5//15 54//159 100B.08249.08249.4 −1 2.61445601 CW111116_112216_SS18_(—) NP 16.499 0.28853738 4.59E−07 3//15 44//159 100B.08239.08239.4 14 SMARCE1 1 SMARCE1:271- 16.963 SMARCE1:277 0 −4.9066941 CW111116_112216_SS18_(—) NP 16.963 0.47103743 2.39E−03 //12 30//204 85B.11765.11765.5 −1 1.64922119 CW111116_112216_SS18_(—) NP 16.39275 0.28013175 1.35E−04 9//16 28//81 70B.08856.08856.4 0 0.36088611 CW111116_112216_SS18_(—) NP 14.899 0.63205006 2.80E−02 //12 25//149 85B.11596.11596.4 0 −2.692649 CW111116_112216_SS18_(—) NP 14.081 0.54222342 4.79E−03 1//12 26//149 85B.11666.11666.4 −1 5.33222385 CW111116_112216_SS18_(—) N 13.7485 0.49454147 3//16 7//79 85B.09867.09867.4 0 −7.0097159 CW111116_112216_SS18_(—) NP 12.93425 0.60922965 9.57E−03 //12 21//149 85B.11469.11469.4 0 5.62560183 CW111116_112216_SS18_(—) P 12.82475 0.74387344 3.56E−02 //12 23//149 85B.11787.11787.4 0 −8.3287593 CW111116_112216_SS18_(—) NP 12.00975 0.39518106 3.33E−01 //12 23//204 85B.11879.11879.5 −1 0.12310772 CW111116_112216_SS18_(—) N 11.81475 0.43096719 4//16 9//79 85B.09952.09952.4 −1 −0.2708798 CW111116_112216_SS18_(—) NP 11.814 0.7648087 5.43E−02 //12 23//149 85B.11633.11633.4 −1 −6.3413291 CW111116_112216_SS18_(—) NP 11.73775 0.79699542 1.05E−01 //12 21//204 85B.11452.11452.5 −1 2.25618377 CW111116_112216_SS18_(—) P 11.1625 0.70155867 5.19E−01 //12 22//149 85B.11528.11528.4 −2 −6.0620671 CW111116_112216_SS18_(—) P 10.1495 0.67658823 1.98E−01 //12 19//149 85B.11799.11799.4 0 −3.6043391 CW111116_112216_SS18_(—) NP 9.50225 0.14647578 2.46E−06 9//16 20//89 85B.08105.08105.4 2 SMARCE1:305- 6.30775 SMARCE1:92 0 11.3003599 CW111116_112216_SS18_(—) N 6.30775 0.10063578 1//10 17//46 100B.06682.06682.4 15 DPF2 1 DPF2:281- 10.438 DPF2:285 −2 −1.9307931 CW111116_112216_SS18_(—) P 10.438 0.3916404 2.37E−15 //12 12//141 85B.08360.08360.4 −1 0.19779741 CW111116_112216_SS18_(—) P 9.74775 0.42152432 9.86E−07 1//12 9//141 70B.09467.09467.4 2 DPF2:182- 5.098 DPF2:188 0 2.11391849 CW111116_112216_SS18_(—) N 5.098 0.15558099 3//8 11//36 85B.05117.05117.4 3 DPF2:285- 20.51025 DPF2:318 −1 −1.1946577 CW111116_112216_SS18_(—) NP 20.51025 0.45378667 5.14E−16 7//13 35//125 85B.08580.08580.4 0 −2.5447392 CW111116_112216_SS18_(—) NP 20.22225 0.3897664 2.13E−13 7//13 39//125 85B.08608.08608.4 −3 0.01172975 CW111116_112216_SS18_(—) NP 7.18775 0.89067534 3.24E−09 //13 12//168 85B.08579.08579.5 4 DPF2:285- 9.5155 DPF2:381 −2 −3.3504937 CW111116_112216_SS18_(—) P 9.5155 0.294479 2.59E−02 //13 22//113 70B.06557.06557.4 5 DPF2:258- 10.569 DPF2:281 −2 −1.4428388 CW111116_112216_SS18_(—) P 10.569 0.2159848 3.98E−03 //12 26//197 100B.07194.07194.5 0 0.21334614 CW111116_112216_SS18_(—) P 10.257 0.24303672 1.41E−02 //12 22//197 100B.07205.07205.5 6 DPF2:258- 14.4055 DPF2:261 0 −0.9791047 CW111116_112216_SS18_(—) NP 14.4055 0.22482247 2.00E−01 3//16 32//135 70B.08171.08171.4 −1 0.89842484 CW111116_112216_SS18_(—) N 11.395 0.17153395 1//9 6//31 70B.08271.08271.4 0 −0.020976 CW111116_112216_SS18_(—) NP 10.064 0.21416867 5.04E−02 //16 22//135 70B.08462.08462.4 −1 4.03813776 CW111116_112216_SS18_(—) N 9.54375 0.14909081 1//9 6//31 70B.08160.08160.4 0 0.66346359 CW111116_112216_SS18_(—) N 9.31775 0.2251344 2//9 7//31 2uL.07403.07403.4 −2 4.98005872 CW111116_112216_SS18_(—) N 6.82525 0.13059805 3//9 9//31 70B.08149.08149.4 7 DPF2:130- 5.4145 DPF2:188 0 −1.280263 CW111116_112216_SS18_(—) NP 5.4145 0.21264605 2.30E−04 4//9 13//34 85B.05524.05524.4 8 DPF2:108- 14.913 DPF2:130 0 −3.0954067 CW111116_112216_SS18_(—) NP 14.913 0.37351133 1.20E−05 //17 25//111 70B.09476.09476.4 −1 −1.9661324 CW111116_112216_SS18_(—) NP 11.826 0.32294269 3.62E−04 //17 24//111 70B.09468.09468.4 −1 1.58202755 CW111116_112216_SS18_(—) N 7.70275 0.2629239 1//9 6//30 2uL.08721.08721.4 9 DPF2:108- 11.4875 DPF2:99 0 −0.6667628 CW111116_112216_SS18_(—) NP 11.4875 0.21785305 9.24E−03 1//17 21//104 70B.11169.11169.4 10 DPF2:178- 12.71925 DPF2:188 −1 −0.0199429 CW111116_112216_SS18_(—) P 12.71925 0.23998811 1.80E−03 //12 25//148 85B.08757.08757.4 11 DPF2:178- 14.547 DPF2:182 0 −0.6867131 CW111116_112216_SS18_(—) P 14.547 0.2973752 6.22E−03 //14 27//143 85B.08707.08707.4 −1 1.06786329 CW111116_112216_SS18_(—) P 14.2035 0.21320334 8.28E−03 //14 26//143 100B.08640.08640.4 16 BRD9 1 BRD9:438- 13.36625 BRD9:460 0 3.99798665 CW111116_112216_SS18_(—) NP 13.36625 0.33612679 7.06E−03 //17 22//110 100B.09611.09611.4 −1 1.34569914 CW111116_112216_SS18_(—) NP 7.67475 0.28160087 1.71E−01 //17 17//110 85B.09667.09667.4 2 BRD9:437- 6.63175 BRD9:460 0 0.87637214 CW111116_112216_SS18_(—) NP 6.63175 0.10638289 4.63E−03 5//10 16//43 70B.07372.07372.4 17 ACTB 1 ACTB:113- 22.3405 ACTB:373 0 1.17643432 CW111116_112216_SS18_(—) N 22.3405 0.32507094 2//5 5//18 100B.07549.07549.4 0 0.31631848 CW111116_112216_SS18_(—) N 21.3645 0.2899004 2//5 5//18 85B.08103.08103.4 2 ACTB:291- 20.2115 ACTB:328 −1 −0.0454823 CW111116_112216_SS18_(—) NP 20.2115 0.30117197 3.96E−07 //10 44//170 85B.09046.09046.4 0 −2.7872184 CW111116_112216_SS18_(—) NP 20.02525 0.33692973 5.99E−09 1//10 47//170 85B.09013.09013.4 0 1.62062497 CW111116_112216_SS18_(—) NP 19.38725 0.38610406 5.49E−09 3//17 32//142 100B.08185.08185.4 −1 2.3932686 CW111116_112216_SS18_(—) NP 17.2685 0.3332883 7.20E−06 1//10 49//236 2uL.08663.08663.5 0 0.92229275 CW111116_112216_SS18_(—) N 14.64575 0.27454518 2//9 9//40 70B.08756.08756.4 −1 −0.4767273 CW111116_112216_SS18_(—) NP 14.144 0.29095697 4.55E−06 2//17 33//189 100B.08188.08188.5 −2 0.4721913 CW111116_112216_SS18_(—) N 14.1175 0.29930884 //12 14//107 70B.10578.10578.4 0 −3.669366 CW111116_112216_SS18_(—) NP 13.83525 0.37495427 4.92E−08 3//17 26//144 2uL.08341.08341.4 0 1.60804434 CW111116_112216_SS18_(—) NP 13.4505 0.48525353 1.79E−09 1//17 20//144 70B.09045.09045.4 0 1.47529252 CW111116_112216_SS18_(—) N 13.36175 0.29137546 3//9 10//40 2uL.07977.07977.4 −1 5.08170461 CW111116_112216_SS18_(—) N 13.29625 0.30142025 //9 6//40 2uL.08325.08325.4 −2 8.05249291 CW111116_112216_SS18_(—) NP 12.4075 0.77440395 2.70E−07 //17 19//142 100B.08180.08180.4 −2 −2.072255 CW111116_112216_SS18_(—) NP 11.01675 1.02395669 2.17E−15 //17 16//144 2uL.08336.08336.4 −1 3.07780589 CW111116_112216_SS18_(—) N 10.842 0.24808082 4//9 11//40 2uL.07972.07972.4 −2 18.749139 CW111116_112216_SS18_(—) N 10.6635 0.21232515 2//9 9//40 70B.09162.09162.4 0 14.6205311 CW111116_112216_SS18_(—) N 9.006 0.16285714 2//9 8//40 70B.09149.09149.4 0 −7.0140615 CW111116_112216_SS18_(—) P 6.56 0.12661404 4.65E−05 //10 12//170 70B.09825.09825.4 0 −4.6415205 CW111116_112216_SS18_(—) P 6.2285 0.44764266 3.35E−10 //17 10//144 70B.09131.09131.4 −3 6.35389614 CW111116_112216_SS18_(—) N 5.419 0.11902696 //9 6//50 2uL.08333.08333.5 0 −0.5445836 CW111116_112216_SS18_(—) P 4.461 0.41983907 8.43E−07 //17 8//144 85B.08737.08737.4 −1 −3.2527283 CW111116_112216_SS18_(—) P 3.5685 0.18920495 2.15E−01 //17 8//144 70B.09036.09036.4 −1 1.60804434 CW111116_112216_SS18_(—) P 2.97125 0.82926319 4.16E−03 //17 7//144 2uL.08369.08369.4 3 ACTB:291- 18.627 ACTB:326 0 2.00838747 CW111116_112216_SS18_(—) NP 18.627 0.27707411 1.10E−02 3//17 30//137 85B.08661.08661.4 −1 3.26648766 CW111116_112216_SS18_(—) NP 16.48575 0.39795179 8.83E−07 2//17 20//137 85B.08684.08684.4 −1 3.56249665 CW111116_112216_SS18_(—) NP 14.65875 0.21760026 2.94E−03 1//10 32//236 100B.08825.08825.5 0 −8.9539917 CW111116_112216_SS18_(—) NP 13.968 0.18726371 1.25E−04 1//10 29//236 100B.09132.09132.5 0 −4.8521657 CW111116_112216_SS18_(—) NP 12.75875 0.24325084 2.66E−03 1//17 21//140 70B.09475.09475.4 −2 2.77998476 CW111116_112216_SS18_(—) NP 11.18 0.18190249 1.07E−02 1//10 34//236 70B.09707.09707.5 −2 −6.7444855 CW111116_112216_SS18_(—) NP 10.384 0.14913219 3.67E−07 1//10 22//236 100B.09120.09120.5 −3 1.74872091 CW111116_112216_SS18_(—) N 10.28975 0.38086205 //12 14//105 70B.10832.10832.4 −2 4.91321684 CW111116_112216_SS18_(—) N 10.16375 0.22606457 //14 8//64 85B.09961.09961.4 −1 6.61442711 CW111116_112216_SS18_(—) N 8.52525 0.23377345 1//14 6//64 85B.09983.09983.4 0 −2.7018176 CW111116_112216_SS18_(—) NP 8.4195 0.12960055 4.40E−04 //10 23//236 100B.08831.08831.5 −3 1.89375257 CW111116_112216_SS18_(—) N 8.37925 0.19573342 //14 7//64 2uL.08686.08686.4 Total unique intra crosslinks are: 191 Total counted intra crosslinks are: 568 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 2.86475 1.54545455 R.KVEEAAK[1151.59]VTGK.A Q8TAQ2:724 1 SMARCC2 1.12675 2.08333333 R.TDMYTK[1808.99]K.N Q8TAQ2:584 1 SMARCC2 3.644 1.75 K.SK[1832.97]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.02575 1.5625 K.SK[1848.95]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.69675 1.125 K.SK[1848.95]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.727 1.72222222 K.AK[1974.06]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 7.87525 1.73333333 K.MK[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.61325 1.21428571 R.K[2865.5]VEEAAK.V Q8TAQ2:718 1 SMARCC2 13.33525 3.3 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 11.431 1.76086957 K.SALEEFSKMK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.236 1.57142857 R.K[1990.03]VEEAAK.V Q8TAQ2:718 1 SMARCC2 7.57 1.78571429 K.M[147.04]K[1990.08]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.9485 0.53571429 K.MK[1990.04]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 3.3415 1.33333333 R.RALPEFFNGK[1605.88]NK.S Q92922:478 Q8TAQ2:453 2 SMARCC2 5.20925 1.9 K.SK[1685.89]TPEIYLAYR.N Q92922:482 Q8TAQ2:457 2 SMARCC2 2.675 1.38888889 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.67525 1.46153846 K.TVNTK[3728.7]KDSESAPVK.G Q8TAQ2:364 1 SMARCC2 4.95325 0.65 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 4.3375 0.53333333 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 6.80925 0.91666667 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 5.60725 0.85 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 2.1195 0.76923077 K.TVNTKK[3728.77]DSESAPVK.G Q8TAQ2:365 1 SMARCC2 4.593 0.51666667 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 2.8505 0.41666667 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 3.06875 0.53333333 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 8.225 3.13636364 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 4.60425 2.18181818 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 2.41625 1.72727273 R.KVEEAAK[1025.62]VTGK.A Q8TAQ2:724 1 SMARCC2 1.06025 0.83333333 R.K[1580.92]TKVER.D Q8TAQ2:846 1 SMARCC2 4.7445 2.27272727 R.KVEEAAK[897.53]VTGK.A Q8TAQ2:724 1 SMARCC2 7.21375 0.96153846 K.SLVQNNC[160.03]LSRPNIFLC[160.03]PEIEPK[994.64]LLGK.L Q8TAQ2:151 1 SMARCC2 7.16575 2.03333333 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.6235 1.5 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 10.4515 1.84782609 K.SALEEFSK[1773.95]MKEEVPTALVEAHVR.K Q8TAQ2:702 1 SMARCC2 5.99425 1.76666667 R.VASAAAK[897.53]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 7.02575 2.3 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.33325 1.125 K.TK[1388.77]VER.D Q8TAQ2:848 1 SMARCC2 1.32875 1.125 K.TK[1388.77]VER.D Q8TAQ2:848 1 SMARCC2 5.05825 1 K.DMDEPSPVPNVEEVTLPK[1225.66]TVNTK.K Q8TAQ2:359 1 SMARCC2 11.35725 1.25 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 2.8675 1.42857143 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 2.7325 1.42857143 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 1.6805 0.75 K.AK[1039.59]HLAAVEER.K Q92922:882 Q8TAQ2:874 2 SMARCC2 3.2855 1.11538462 K.GK[2042]EKPTDM[147.04]QNFGLR.T Q8TAQ2:566 1 SMARCC2 7.53575 2.15384615 K.GK[2057.99]EKPTDMQNFGLR.T Q8TAQ2:566 1 SMARCC2 7.53175 1.52777778 K.ISAK[1174.63]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 6.33275 1.25 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 0.94125 0.6 K.AK[2339.15]HLAAVEERK.I Q92922:882 Q8TAQ2:874 2 SMARCC2 1.927 0.71875 K.E[111.03]GQEEVLK[2763.52]EVVESEGERK.T Q8TAQ2:836 1 SMARCC2 11.06975 1.40384615 K.TK[2339.19]VERDIGEGNLSTAAAAALAAAAVK.A Q8TAQ2:848 1 SMARCC2 1.0355 1 R.KTK[2193.08]VER.D Q8TAQ2:848 1 SMARCC2 0.9145 1 R.KTK[2193.07]VER.D Q8TAQ2:848 1 SMARCC2 4.21175 1.29411765 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.6505 0.47058824 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 8.0895 1.9375 K.AGGSLC[160.03]HILAAAYK[1553.85]FK.S Q8TAQ2:99 1 SMARCC2 12.08075 2.92105263 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 4.5375 1.81818182 K.E[111.03]K[2371.18]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 10.94375 2.23684211 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 9.91025 2.39473684 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 4.2395 1.63636364 K.EK[2387.18]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 4.0675 1.72727273 K.E[111.03]K[2371.19]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 4.82575 1.36363636 K.E[111.03]K[2371.18]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 3.34375 1.31818182 K.E[111.03]K[2371.19]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 2.532 1.04545455 K.EK[2371.18]PTDM[147.04]QNFGLR.T Q8TAQ2:568 1 SMARCC2 2.61825 1.18181818 K.EK[2387.14]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 0.931 0.18421053 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 3.709 1.55555556 K.SK[1025.62]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.472 1.55555556 K.SK[1025.62]AAASATR.E Q8TAQ2:592 1 SMARCC2 1.983 0.94444444 K.SK[897.53]AAASATR.E Q8TAQ2:592 1 SMARCC2 10.23975 2.02631579 R.K[2098.03]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 7.882 1.43333333 R.DLK[2510.34]TMTDVVGNPEEER.R Q96GM5:464 1 SMARCD1 14.23525 1.72222222 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 13.3915 1.83870968 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 14.4745 1.75925926 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 13.557 1.93548387 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 14.077 1.75925926 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 13.73625 1.66666667 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 11.91625 1.67741936 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 12.6415 1.40740741 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 11.83375 1.55555556 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 11.17 1.46774194 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 11.612 1.35185185 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 10 1.11290323 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 9.24475 1.14516129 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 9.2275 1.22222222 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 10.01775 1.12962963 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 8.55575 1.12962963 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 6.58325 0.75806452 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 4.98725 0.53225807 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 5.30775 0.48387097 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELRVEGR.L Q96GM5:194 1 SMARCD1 3.073 0.42592593 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 5.70925 0.69230769 R.LHALLMPPEPIIINHVISVDPNDQK[2584.32]K.T Q96GM5:385 1 SMARCD1 5.69275 2.55555556 R.LDIQEALK[1034.66]R.P Q96GM5:173 1 SMARCD1 7.381 2.44444444 R.LDIQEALK[878.56]R.P Q96GM5:173 1 SMARCD1 6.34325 2.77777778 R.LDIQEALK[1034.66]R.P Q96GM5:173 1 SMARCD1 1.98825 1.125 R.M[147.04]K[1464.88]FSEIPQR.L Q96GM5:353 1 SMARCD1 1.80075 1.4 R.K[1216.69]K[284.17]SGK.K Q92922:341 1 SMARCC1 1.14625 1.7 R.K[1528.86]KSGK.K Q92922:341 1 SMARCC1 4.40925 0.69354839 R.SQKEEDEQEDLTK[1851.01]DMEDPTPVPNIEEVVLPK.N Q92922:369 1 SMARCC1 3.806 0.67741936 R.SQKEEDEQEDLTK[1851.01]DMEDPTPVPNIEEVVLPK.N Q92922:369 1 SMARCC1 1.149 0.20967742 R.SQKEEDEQEDLTK[1851.01]DMEDPTPVPNIEEVVLPK.N Q92922:369 1 SMARCC1 5.35225 1.5 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 3.74125 1.10714286 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 4.5995 1.21428571 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 0.971 1.375 R.KK[1216.68]SGK.K Q92922:342 1 SMARCC1 1.93475 1.22222222 K.K[982.56]GQASLYGK.R Q92922:346 1 SMARCC1 1.4835 0.61111111 R.DRK[1194.67]ASANAR.K Q92922:317 1 SMARCC1 1.4315 1 R.K[982.56]DGGPATK.F Q92922:34 1 SMARCC1 2.3865 1.42857143 K.K[982.56]VQEAAR.A Q92922:740 1 SMARCC1 2.432 1.42857143 K.K[982.56]VQEAAR.A Q92922:740 1 SMARCC1 2.4265 1.42857143 K.K[982.56]VQEAAR.A Q92922:740 1 SMARCC1 3.1305 1.83333333 R.DRK[982.56]ASANAR.K Q92922:317 1 SMARCC1 10.02375 1.53225807 R.SQK[982.56]EEDEQEDLTKDMEDPTPVPNIEEVVLPK.N Q92922:359 1 SMARCC1 4.2215 1.72222222 K.GQASLYGK[982.56]R.R Q92922:354 1 SMARCC1 2.12225 1.35 K.GQASLYGK[982.56]RR.S Q92922:354 1 SMARCC1 1.10825 0.55 K.GQASLYGK[982.56]RR.S Q92922:354 1 SMARCC1 10.9195 1.86363636 K.DGGPATK[982.56]FWESPETVSQLDSVR.V Q92922:41 1 SMARCC1 21.73275 3.14 K.K[1029.53]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 18.71225 2.76 K.K[1029.53]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 17.36025 2.34 K.K[1029.53]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 16.9585 2.24 K.K[1029.53]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 14.49825 2.26 K.K[1029.53]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 15.11875 2.18 K.K[1314.68]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 10.29675 2.6 R.VREEVPLELVEAHVK[2140.17]K.V Q92922:739 1 SMARCC1 8.5675 1.28125 K.GGTVADLDEQDEETVTAGGK[1851.01]EDEDPAKGDQSR.S Q92922:421 1 SMARCC1 5.46 0.671875 K.GGTVADLDEQDEETVTAGGK[1851.01]EDEDPAKGDQSR.S Q92922:421 1 SMARCC1 6.55625 1.73333333 R.VASAAAK[1029.53]AALEEFSR.V Q92922:716 1 SMARCC1 6.00425 1.6 R.VASAAAK[1157.63]AALEEFSR.V Q92922:716 1 SMARCC1 5.83325 1.25 R.VREEVPLELVEAHVK[1785.96]K.V Q92922:739 1 SMARCC1 4.1055 0.78125 R.VREEVPLELVEAHVK[1785.96]K.V Q92922:739 1 SMARCC1 1.37575 0.375 R.VREEVPLELVEAHVK[1785.96]K.V Q92922:739 1 SMARCC1 6.7795 2.1 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 20.03575 3.84 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 11.9115 2.02 K.K[1785.96]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 5.43975 0.78571429 K.TLAGLVVQLLQFQEDAFGK[1038.57]HVTNPAFTK.L Q92922:94 1 SMARCC1 8.927 3.04545455 R.HQGTFTDEK[1253.68]SK.A Q92922:199 1 SMARCC1 3.7105 1.86363636 R.HQGTFTDEK[982.56]SK.A Q92922:199 1 SMARCC1 2.1 1.36363636 R.HQGTFTDEK[1066.61]SK.A Q92922:199 1 SMARCC1 10.00125 2.05555556 K.EK[2292.19]PVDLQNFGLRTDIYSK.K Q92922:592 1 SMARCC1 7.1505 1.67647059 R.SPQVPAAQQMLNFPEK[2370.25]NK.E Q92922:588 1 SMARCC1 10.561 2.11111111 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 7.00825 1.67647059 R.SPQVPAAQQMLNFPEK[2370.27]NK.E Q92922:588 1 SMARCC1 8.8005 1.91666667 K.EK[2292.19]PVDLQNFGLRTDIYSK.K Q92922:592 1 SMARCC1 9.8415 2.13888889 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 5.5335 1.81818182 K.E[111.03]K[2292.19]PVDLQNFGLR.T Q92922:592 1 SMARCC1 8.9475 1.83333333 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 8.89225 1.72222222 K.EK[2292.19]PVDLQNFGLRTDIYSK.K Q92922:592 1 SMARCC1 5.49825 1.81818182 K.E[111.03]K[2292.19]PVDLQNFGLR.T Q92922:592 1 SMARCC1 7.48275 1.52777778 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 7.07175 1.72222222 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 5.3355 1.77272727 K.E[111.03]K[2292.2]PVDLQNFGLR.T Q92922:592 1 SMARCC1 5.04475 1.81818182 K.E[111.03]K[2308.2]PVDLQNFGLR.T Q92922:592 1 SMARCC1 4.4885 1.90909091 K.E[111.03]K[2308.17]PVDLQNFGLR.T Q92922:592 1 SMARCC1 4.87 1.63636364 K.E[111.03]K[2308.17]PVDLQNFGLR.T Q92922:592 1 SMARCC1 5.91275 1.68181818 K.E[111.03]K[2292.15]PVDLQNFGLR.T Q92922:592 1 SMARCC1 3.874 1.36363636 K.E[111.03]K[2565.28]PVDLQNFGLR.T Q92922:592 1 SMARCC1 5.644 1.72727273 K.E[111.03]K[2292.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 4.5425 1.86363636 K.EK[2308.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 2.4235 0.88235294 R.SPQVPAAQQMLNFPEK[2388.21]NK.E Q92922:588 1 SMARCC1 4.6865 1.72727273 K.E[111.03]K[2292.2]PVDLQNFGLR.T Q92922:592 1 SMARCC1 3.1965 1.40909091 K.E[111.03]K[2292.19]PVDLQNFGLR.T Q92922:592 1 SMARCC1 4.61825 1.68181818 K.EK[2308.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 5.025 1.72727273 K.EK[2308.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 2.87875 1.40909091 K.E[111.03]K[2292.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 5.4635 1.68181818 K.E[111.03]K[2308.15]PVDLQNFGLR.T Q92922:592 1 SMARCC1 3.45925 1.09090909 K.E[111.03]K[2292.16]PVDLQNFGLR.T Q92922:592 1 SMARCC1 7.2595 1.5 K.EK[2292.19]PVDLQNFGLRTDIYSK.K Q92922:592 1 SMARCC1 4.45675 1.77272727 K.EK[2308.22]PVDLQNFGLR.T Q92922:592 1 SMARCC1 2.59225 0.58823529 R.SPQVPAAQQMLNFPEK[2370.24]NK.E Q92922:588 1 SMARCC1 3.78625 0.77777778 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 4.45825 1.72727273 K.EK[2308.23]PVDLQNFGLR.T Q92922:592 1 SMARCC1 3.8415 1.31818182 K.E[111.03]K[2308.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 3.33225 1.31818182 K.E[111.03]K[2308.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 2.7905 1 K.E[111.03]K[2292.16]PVDLQNFGLR.T Q92922:592 1 SMARCC1 1.26025 0.25 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 2.023 0.36111111 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 1.9525 0.38888889 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 3.5325 1.71428571 K.K[3815.75]VQEAAR.A Q92922:740 1 SMARCC1 3.6425 1.71428571 K.K[3815.74]VQEAAR.A Q92922:740 1 SMARCC1 22.43725 3.2 K.K[1066.61]VEHEISEGNVATAAAAALASAATK.A Q92922:856 1 SMARCC1 1.31275 0.65384615 K.NVNLK[3584.62]KDSENTPVK.G Q92922:392 1 SMARCC1 3.763 0.53125 K.GGTVADLDEQDEETVTAGGK[1851.01]EDEDPAKGDQSR.S Q92922:421 1 SMARCC1 2.77825 1.85714286 K.SK[1688.96]GASAGR.E Q92922:615 1 SMARCC1 3.207 2.41666667 R.TDIYSK[1567.91]K.T Q92922:608 1 SMARCC1 3.6765 2.71428571 R.TDIYSK[912.56]K.T Q92922:608 1 SMARCC1 1.632 1.9 K.TLAK[1119.62]SK.G Q92922:613 1 SMARCC1 7.606 1.40476191 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 4.24575 0.88095238 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 4.0855 0.92857143 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 2.93525 0.61904762 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 1.736 0.33333333 R.SNSVGIQDAFNDGSDSTFQK[1939.88]R.N O14497:1201 1 ARID1A 4.72775 0.7 R.K[2538.2]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 5.0405 0.96 R.K[2538.2]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 3.38075 0.6 R.K[2538.2]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 2.3175 0.775 R.SNSVGIQDAFNDGSDSTFQK[2778.23]R.N O14497:1201 1 ARID1A 8.744 0.98275862 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 7.30625 0.93103448 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 5.1785 0.67241379 R.NIK[1504.83]ILEDEPHSKDETPLC[160.03]TLLDWQDSLAK.R O14497:1953 1 ARID1A 1.4685 1.08333333 K.FDK[1940.02]LPVK.I O14497:1811 1 ARID1A 5.52825 2.13333333 K.DKPASENSEEK[1111.66]LISK.F O14497:1804 1 ARID1A 4.86325 1.26666667 K.DKPASENSEEK[1111.66]LISK.F O14497:1804 1 ARID1A 1.0885 0.66666667 K.DKPASENSEEK[1579.97]LISK.F O14497:1804 1 ARID1A 12.20825 1.46 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 10.60925 1.3 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 3.40925 1.34615385 R.MSYEPNK[2762.19]DPYGSMR.K O14497:1230 1 ARID1A 10.53775 1.38 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 3.0225 1.11538462 R.MSYEPNK[2762.22]DPYGSM[147.04]R.K O14497:1230 1 ARID1A 2.62725 1.07692308 R.M[147.04]SYEPNK[2778.25]DPYGSMR.K O14497:1230 1 ARID1A 4.32175 1.38461539 R.M[147.04]SYEPNK[2762.24]DPYGSMR.K O14497:1230 1 ARID1A 4.89175 0.74 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 4.962 0.78 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 3.9105 1.5 R.MSYEPNK[2778.22]DPYGSM[147.04]R.K O14497:1230 1 ARID1A 4.17775 1.42307692 R.MSYEPNK[2762.19]DPYGSMR.K O14497:1230 1 ARID1A 2.326 0.88461539 R.M[147.04]SYEPNK[2762.21]DPYGSM[147.04]R.K O14497:1230 1 ARID1A 3.615 1.03846154 R.M[147.04]SYEPNK[2778.2]DPYGSMR.K O14497:1230 1 ARID1A 4.9805 0.76 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 2.261 1.03846154 R.M[147.04]SYEPNK[2762.24]DPYGSMR.K O14497:1230 1 ARID1A 3.531 1.03846154 R.M[147.04]SYEPNK[2778.18]DPYGSMR.K O14497:1230 1 ARID1A 3.053 1.11538462 R.M[147.04]SYEPNK[2778.24]DPYGSMR.K O14497:1230 1 ARID1A 2.6615 0.88461539 R.MSYEPNK[2762.3]DPYGSMR.K O14497:1230 1 ARID1A 2.19825 1.19230769 R.MSYEPNK[2778.24]DPYGSMR.K O14497:1230 1 ARID1A 2.934 1.03846154 R.MSYEPNK[2762.19]DPYGSMR.K O14497:1230 1 ARID1A 4.832 0.58 R.K[1939.88]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 1 ARID1A 2.4845 1.03846154 R.MSYEPNK[2762.2]DPYGSMR.K O14497:1230 1 ARID1A 1.25675 0.66666667 R.SSTLTEDGAK[2040.02]SSEAIK.E O14497:1928 1 ARID1A 1.5885 0.8 R.SSTLTEDGAK[2022.03]SSEAIK.E O14497:1928 1 ARID1A 1.37825 0.6 R.SSTLTEDGAK[2040.04]SSEAIK.E O14497:1928 1 ARID1A 1.068 0.6 R.SSTLTEDGAK[2022.03]SSEAIK.E O14497:1928 1 ARID1A 1.3805 0.59090909 K.LILLHHK[3220.57]HPERK.Q O14497:2020 1 ARID1A 3.157 0.46296296 R.KHVTTAEGTPGTTDQEGPPPDGPPEK[1786.07]R.I O14497:1905 1 ARID1A 6.434 2.07142857 K.ITK[1169.68]LYELGGEPERK.M O14497:1010 1 ARID1A 6.03125 1.76923077 K.ITK[1169.68]LYELGGEPER.K O14497:1010 1 ARID1A 5.49975 1.61538462 K.ITK[1169.68]LYELGGEPER.K O14497:1010 1 ARID1A 5.52375 1.57692308 K.ITK[1169.68]LYELGGEPER.K O14497:1010 1 ARID1A 5.04125 1.60714286 R.MSYEPNK[1169.68]DPYGSMR.K O14497:1230 1 ARID1A 3.43475 1.54545455 K.K[1169.68]SSSSTTTNEK.I O14497:997 1 ARID1A 10.9 1.71428571 R.SNSVGIQDAFNDGSDSTFQK[1169.68]R.N O14497:1201 1 ARID1A 10.41875 1.83333333 R.SNSVGIQDAFNDGSDSTFQK[1169.68]R.N O14497:1201 1 ARID1A 6.71475 0.88095238 R.SNSVGIQDAFNDGSDSTFQK[1169.68]R.N O14497:1201 1 ARID1A 3.063 0.66666667 R.GEMK[1152.63]AAAGQESEGPAVGPPQPLGK.E O14497:51 1 ARID1A 3.479 1.77777778 R.LEK[3673.78]LYSTMVR.F O14497:2146 1 ARID1A 3.385 1.5 R.LEK[3673.83]LYSTM[147.04]VR.F O14497:2146 1 ARID1A 1.63625 1.08333333 R.K[2762.19]NPVC[160.03]R.E Q8NFD5:2110 O14497:2159 2 ARID1A 1.5365 1.5 K.IK[1164.57]LGR.K P51532:1598 1 SMARCA4 10.816 3.13333333 K.IVDAVIKYK[795.5]DSSSGR.Q P51532:1473 1 SMARCA4 3.25475 0.78125 R.K[1164.58]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.86 0.4375 R.K[1164.58]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.33175 0.34375 R.K[1164.58]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 6.99225 1.8125 R.K[795.5]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 6.0125 2.15625 R.K[1717.93]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 3.00025 0.84375 R.K[1717.93]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 5.974 1.40625 R.K[998.58]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 4.38225 1.78125 R.K[1300.71]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 2.81875 0.78125 R.K[1300.71]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.952 0.75 R.K[1300.71]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 10.72825 2.59375 K.VIQAGMFDQK[1272.71]SSSHER.R P51531:1207 P51532:1237 2 SMARCA4 9.17 2.71875 K.VIQAGMFDQK[1272.71]SSSHER.R P51531:1207 P51532:1237 2 SMARCA4 1.328 2 R.IEK[1300.71]ER.M P51531:500 P51532:524 2 SMARCA4 8.3975 2.36666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 8.62975 2.2 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 8.04375 2.2 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 8.06325 2.1 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 6.958 1.76666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 6.634 1.43333333 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 1.06675 0.5625 K.ENERIEK[2011.05]ER.M P51532:524 1 SMARCA4 6.36075 1.56666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 4.255 0.9 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 4.445 0.96666667 K.AVATYHANTEREQK[1467.77]K.E P51532:516 1 SMARCA4 8.307 1.96666667 K.AVATYHANTEREQK[1009.62]K.E P51532:516 1 SMARCA4 1.9885 2.1 K.LIDQK[1325.7]K.D P51531:521 P51532:545 2 SMARCA4 6.9325 1.64705882 R.GRPPAEK[1251.72]LSPNPPNLTK.K P51532:1450 1 SMARCA4 2.19925 1.57142857 R.K[2081.16]EK[284.17]AQDR.L P51532:1602 1 SMARCA4 9.072 2.83333333 K.IVDAVIK[795.5]YKDSSSGR.Q P51532:1471 1 SMARCA4 10.7225 1.72727273 R.HIIENAK[2151.07]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 6.00425 1.02272727 R.HIIENAK[2151.07]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 1.29825 1.125 K.K[2219.12]DKR.L P51532:546 1 SMARCA4 1.219 1 K.K[2203.12]DK[284.17]R.L P51532:546 1 SMARCA4 1.29975 1.125 K.K[2203.12]DKR.L P51532:546 1 SMARCA4 7.45775 1.4375 R.LMAEDEEGYRK[811.49]LIDQK.K P51531:516 P51532:540 2 SMARCA4 0.995 1 K.K[2203.11]DKR.L P51532:546 1 SMARCA4 1.0045 1.33333333 K.VK[1252.71]IK.L P51531:1538 P51532:1596 2 SMARCA4 0.9655 2 K.VK[1295.7]IK.L P51531:1538 P51532:1596 2 SMARCA4 6.73975 1.21875 R.GQPLPDHLQMAVQGK[1480.7]R.P P51532:207 1 SMARCA4 1.90825 2.4 K.LIDQK[2151.06]K.D P51531:521 P51532:545 2 SMARCA4 2.079 2.125 R.NHK[1126.67]YR.S P51531:1460 P51532:1518 2 SMARCA4 0.4885 0.5 R.IRNHK[998.58]YR.S P51531:1460 P51532:1518 2 SMARCA4 1.444 1.33333333 R.K[1094.67]PVDFK.K P51531:1445 P51532:1503 2 SMARCA4 3.385 1.0625 R.K[1802.95]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 3.392 0.96875 R.K[1370.7]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 6.111 1.34375 R.K[1802.95]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 2.9415 0.6875 R.K[1370.7]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.60875 0.5 R.K[1913.03]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 2.4895 0.5625 R.K[1370.7]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 3.333 0.71875 R.K[1913.03]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.27125 0.3125 R.K[1370.7]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 3.4185 1.25 R.HRK[1370.7]EVDYSDSLTEK.Q P51532:1375 1 SMARCA4 4.49775 1.42307692 K.YLRLDGTTK[742.43]AEDR.G P51532:1131 1 SMARCA4 2.6865 0.86666667 R.LDGTTK[742.43]AEDRGMLLK.T P51532:1131 1 SMARCA4 2.15025 0.66666667 R.LDGTTK[742.43]AEDRGMLLK.T P51532:1131 1 SMARCA4 1.49425 0.6 R.LDGTTK[742.43]AEDRGMLLK.T P51532:1131 1 SMARCA4 5.8915 2.75 R.LDGTTK[1300.71]AEDR.G P51532:1131 1 SMARCA4 3.562 1.69230769 K.YLRLDGTTK[1300.71]AEDR.G P51532:1131 1 SMARCA4 2.781 1.35 R.LDGTTK[1300.71]AEDR.G P51532:1131 1 SMARCA4 2.07925 1.5 R.ITEK[1323.72]LEK.Q P51532:455 1 SMARCA4 3.511 1.625 K.QQK[1125.66]IEQER.K P51531:437 P51532:461 2 SMARCA4 7.135 1.5 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51531:1286 P51532:1349 2 SMARCA4 6.08875 1.05 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51531:1286 P51532:1349 2 SMARCA4 2.711 0.5 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51531:1286 P51532:1349 2 SMARCA4 1.623 0.4 R.LMEEDELPSWIIK[1922.88]DDAEVER.L P51531:1286 P51532:1349 2 SMARCA4 1.25575 1.4 K.LGRK[1265.72]EK.A P51532:1602 1 SMARCA4 1.076 1.5 R.LK[1295.7]GGR.R P51532:1610 1 SMARCA4 1.2185 1.75 R.LK[1295.69]GGR.R P51532:1610 1 SMARCA4 8.8515 2.17857143 K.LTK[1125.68]AVATYHANTER.E P51532:502 1 SMARCA4 1.02375 0.78571429 R.SVTGK[2225.19]IQK.L P51532:496 1 SMARCA4 2.88 1.5 R.K[1234.8]EKAQDR.L P51532:1602 1 SMARCA4 1.517 1.28571429 R.K[1234.8]EKAQDR.L P51532:1602 1 SMARCA4 1.95975 2.625 K.IK[1295.7]LGR.K P51532:1598 1 SMARCA4 1.933 1.625 K.IK[1139.62]LGR.K P51532:1598 1 SMARCA4 1.56375 1.75 K.IK[1139.63]LGR.K P51532:1598 1 SMARCA4 1.57475 2.25 K.IK[1295.71]LGR.K P51532:1598 1 SMARCA4 2.31125 1.28571429 R.K[851.56]EKAQDR.L P51532:1602 1 SMARCA4 1.8675 1.57142857 R.K[851.56]EKAQDR.L P51532:1602 1 SMARCA4 1.11275 1.625 K.IK[1139.61]LGR.K P51532:1598 1 SMARCA4 1.523 1.625 R.LK[1234.8]GGR.R P51532:1610 1 SMARCA4 1.1825 0.75 K.VSYK[742.43]GSPAAR.R P51532:835 1 SMARCA4 1.44275 1.375 R.NHK[1094.64]YR.S P51531:1460 P51532:1518 2 SMARCA4 1.13625 1.625 R.LK[1251.72]GGR.R P51532:1610 1 SMARCA4 0.613 0.42857143 R.IRNHK[1011.53]YR.S P51531:1460 P51532:1518 2 SMARCA4 11.1215 1.65909091 R.HIIENAK[1300.71]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 6.5255 3.2 R.LDGTTK[1048.61]AEDR.G P51532:1131 1 SMARCA4 7.14625 1.78125 R.K[1048.61]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.171 1.875 R.LK[1300.71]GGR.R P51532:1610 1 SMARCA4 2.2475 1.15 K.VSYK[795.5]GSPAAR.R P51532:835 1 SMARCA4 6.0715 1.5625 R.LC[160.03]TVNSVEEK[1300.71]ILAAAK.Y P51531:1183 P51532:1213 2 SMARCA4 1.162 1.2 R.ILPK[1400.76]LR.A P51531:1061 P51532:1091 2 SMARCA4 10.4395 2.0625 K.VIQAGMFDQK[1931.95]SSSHER.R P51531:1207 P51532:1237 2 SMARCA4 7.6315 1.6875 K.VIQAGMFDQK[742.43]SSSHER.R P51531:1207 P51532:1237 2 SMARCA4 14.765 3.25 K.VIQAGMFDQK[1300.71]SSSHER.R P51531:1207 P51532:1237 2 SMARCA4 3.38 0.72727273 R.AGYAGEDC[160.03]PK[3395.68]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 3.021 0.70454546 R.AGYAGEDC[160.03]PK[3395.68]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 10.20975 1.05172414 R.DDGSTLMEIDGDKGK[2747.33]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 2.636 0.43055556 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 9.48975 0.94827586 R.DDGSTLMEIDGDKGK[2747.33]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 2.65175 0.41666667 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 9.72225 0.96551724 R.DDGSTLMEIDGDKGK[2747.33]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 2.9245 0.81818182 R.AGYAGEDC[160.03]PK[3411.71]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 3.372 0.90909091 R.AGYAGEDC[160.03]PK[3411.6]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 2.22625 0.56818182 R.AGYAGEDC[160.03]PK[3411.6]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 9.20875 0.93103448 R.DDGSTLMEIDGDKGK[2747.33]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 2.32525 0.41666667 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 8.3015 0.77586207 R.DDGSTLMEIDGDKGK[2747.33]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 1.08525 0.18055556 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 1.294 0.25 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 1.16275 0.19444444 R.AGYAGEDC[160.03]PK[2019.04]VDFPTAIGMVVERDDGSTLMEIDGDK.G O96019:34 1 ACTL6A 10.2435 1.18965517 R.DDGSTLMEIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 10.605 1.01724138 R.DDGSTLMEIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 10.49475 1.20689655 R.DDGSTLMEIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 10.17275 1.10344828 R.DDGSTLMEIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 2.998 0.65909091 R.AGYAGEDC[160.03]PK[3411.55]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 3.01075 0.79545455 R.AGYAGEDC[160.03]PK[3411.66]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 10.006 1.13793103 R.DDGSTLMEIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 2.7335 0.65909091 R.AGYAGEDC[160.03]PK[3395.68]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 9.21675 0.9137931 R.DDGSTLMEIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 9.0695 0.87931035 R.DDGSTLMEIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 8.70725 0.87931035 R.DDGSTLMEIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 2.3335 0.54545455 R.AGYAGEDC[160.03]PK[3395.59]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 2.04825 0.61363636 R.AGYAGEDC[160.03]PK[3395.59]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 8.631 0.98275862 R.DDGSTLMEIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 1 ACTL6A 2.82025 0.72727273 R.AGYAGEDC[160.03]PK[3411.61]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 1.6185 0.52272727 R.AGYAGEDC[160.03]PK[3411.62]VDFPTAIGMVVER.D O96019:34 1 ACTL6A 4.6885 1.94444444 R.K[1746.92]EKLPQVTR.S O96019:240 1 ACTL6A 6.0805 3.26923077 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.4025 1.44444444 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 5.98475 5.14285714 R.E[111.03]GSPANWK[1363.82]R.K O96019:238 1 ACTL6A 5.8405 5.64285714 R.E[111.03]GSPANWK[1363.81]R.K O96019:238 1 ACTL6A 4.47375 1.72222222 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 3.878 1.83333333 R.K[1746.91]EK[284.17]LPQVTR.S O96019:240 1 ACTL6A 4.92625 1.94444444 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 6.15275 4.35714286 R.E[111.03]GSPANWK[1519.9]R.K O96019:238 1 ACTL6A 4.5005 4 R.E[111.03]GSPANWK[1363.82]R.K O96019:238 1 ACTL6A 5.95925 2.27777778 R.K[1764.92]EK[284.17]LPQVTR.S O96019:240 1 ACTL6A 5.2415 2.6875 R.EGSPANWK[1519.9]R.K O96019:238 1 ACTL6A 3.6905 2.5625 R.EGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.57875 3.21428571 R.E[111.03]GSPANWK[1363.81]R.K O96019:238 1 ACTL6A 2.8625 1.22222222 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 5.934 2.61111111 R.K[1746.9]EKLPQVTR.S O96019:240 1 ACTL6A 6.4765 2.33333333 R.K[1764.92]EK[284.17]LPQVTR.S O96019:240 1 ACTL6A 3.675 1.55555556 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 4.33725 1.66666667 R.K[1764.89]EKLPQVTR.S O96019:240 1 ACTL6A 1.48575 1.625 R.EGSPANWK[1363.8]R.K O96019:238 1 ACTL6A 3.92275 1.66666667 R.K[1746.91]EK[284.17]LPQVTR.S O96019:240 1 ACTL6A 1.342 0.80769231 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 1.72375 2.07142857 R.E[111.03]GSPANWK[1363.79]R.K O96019:238 1 ACTL6A 7.45725 3.375 R.EGSPANWK[1519.89]R.K O96019:238 1 ACTL6A 5.9785 4.07142857 R.E[111.03]GSPANWK[1363.82]R.K O96019:238 1 ACTL6A 2.688 1.84615385 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 2.6215 1.46153846 K.EAVREGSPANWK[1235.72]R.K O96019:238 1 ACTL6A 1.393 1.5 R.E[111.03]GSPANWK[1363.83]R.K O96019:238 1 ACTL6A 3.479 1.09090909 K.Q[111.03]EYEEGGK[2795.38]QC[160.03]VER.K O96019:421 1 ACTL6A 3.1535 1.09090909 K.Q[111.03]EYEEGGK[2795.45]QC[160.03]VER.K O96019:421 1 ACTL6A 3.5995 1.18181818 K.Q[111.03]EYEEGGK[2811.39]QC[160.03]VER.K O96019:421 1 ACTL6A 4.8525 0.875 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 3.0495 1.13636364 K.Q[111.03]EYEEGGK[2795.38]QC[160.03]VER.K O96019:421 1 ACTL6A 3.3735 1.77777778 R.K[2972.53]EK[284.17]LPQVTR.S O96019:240 1 ACTL6A 14.0545 2.26086957 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 14.45175 2.36956522 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 13.95825 2.23913044 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 12.25575 2.15217391 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 1.24375 1 R.K[2954.54]EKLPQVTR.S O96019:240 1 ACTL6A 7.9155 1.30434783 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 6.1225 0.95652174 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 6.10875 2.20833333 R.LK[1538.81]LIANNTTVER.R O96019:379 1 ACTL6A 1.7525 0.92307692 R.LK[1538.81]LIANNTTVERR.F O96019:379 1 ACTL6A 1.64 3.1 R.GSLYK[1990.07]R.Y Q12824:45 1 SMARCB1 10.7435 2.26666667 R.K[2061.14]AIVIC[160.03]PTDEDLKDR.T Q9BUJ2:527 1 HNRL1 10.29725 2.56666667 R.K[1204.66]AIVIC[160.03]PTDEDLKDR.T Q9BUJ2:527 1 HNRL1 10.1205 2.56666667 R.K[1204.66]AIVIC[160.03]PTDEDLKDR.T Q9BUJ2:527 1 HNRL1 5.571 1.33333333 R.K[1204.66]AIVIC[160.03]PTDEDLKDR.T Q9BUJ2:527 1 HNRL1 0.9895 0.85714286 R.GTVGPK[2291.2]SK.A Q9BUJ2:416 1 HNRL1 1.715 0.52941177 K.Q[111.03]GAPTSFLPPEASQLK[2661.4]PDR.Q Q9BUJ2:162 1 HNRL1 9.664 1.64285714 K.INEEISVK[1444.76]HLPSTEPDPHVVR.I Q9BUJ2:270 1 HNRL1 8.43625 1.45238095 K.INEEISVK[1444.76]HLPSTEPDPHVVR.I Q9BUJ2:270 1 HNRL1 8.59875 1.42857143 K.INEEISVK[957.52]HLPSTEPDPHVVR.I Q9BUJ2:270 1 HNRL1 1.3595 1 K.K[2661.38]STNSR.F Q9BUJ2:310 1 HNRL1 4.375 0.95238095 K.INEEISVK[957.52]HLPSTEPDPHVVR.I Q9BUJ2:270 1 HNRL1 6.21475 1.325 R.QNQFYDTQVIK[2661.41]QENESGYER.R Q9BUJ2:117 1 HNRL1 1.56775 0.875 R.K[2724.3]RPYEENR.G Q9BUJ2:172 1 HNRL1 2.729 0.69444444 R.PLEMEQQQAYRPEMK[2880.34]TEMK.Q Q9BUJ2:142 1 HNRL1 6.5945 1.53571429 K.AIVIC[160.03]PTDEDLK[1244.72]DR.T Q9BUJ2:539 1 HNRL1 4.6605 1.5 K.TTWAIK[2694.38]HAASNPSKK.Y Q9BUJ2:440 1 HNRL1 7.68225 1.76923077 K.K[1776.94]YNILGTNAIMDK.M Q9BUJ2:449 1 HNRL1 2.21275 1.20833333 R.LK[1251.72]VNELREELQR.R Q9BUJ2:7 1 HNRL1 2.66925 1.79166667 R.LK[1251.72]VNELREELQR.R Q9BUJ2:7 1 HNRL1 2.118 1.58333333 R.LK[1251.72]VNELREELQR.R Q9BUJ2:7 1 HNRL1 2.144 1.0625 R.K[957.52]RPYEENR.G Q9BUJ2:172 1 HNRL1 1.2055 0.8125 R.K[957.52]RPYEENR.G Q9BUJ2:172 1 HNRL1 2.03675 1.5625 R.K[1038.61]RPYEENR.G Q9BUJ2:172 1 HNRL1 11.502 2.04761905 K.INEEISVK[1356.71]HLPSTEPDPHVVR.I Q9BUJ2:270 1 HNRL1 10.018 1.88095238 K.INEEISVK[1356.71]HLPSTEPDPHVVR.I Q9BUJ2:270 1 HNRL1 1.054 1.5 R.K[1356.72]KR.R P51531:557 Q92782:107 Q92784:81 7 HNRL1 Q9BUJ2:498 Q92785:81 Q9NPI1:64 Q9NPI1:90 5.9935 0.86538462 R.LTALLLPPDPIVINHVISVDPSDQK[2597.34]K.T Q6STE5:353 1 SMARCD3 12.9265 1.64814815 R.LYISNTFNPAK[2597.34]PDAEDSDGSIASWELR.V Q6STE5:169 1 SMARCD3 10.8655 1.27777778 R.LYISNTFNPAK[2597.34]PDAEDSDGSIASWELR.V Q6STE5:169 1 SMARCD3 4.12275 2.83333333 R.KLIDQK[1454.77]K.D P51531:521 P51532:545 2 SMARCA2 1.3415 1.875 R.IEK[1280.74]ER.M P51531:500 P51532:524 2 SMARCA2 0.95325 1.125 K.K[2219.11]DRR.L P51531:522 1 SMARCA2 2.157 1.125 R.SRAK[1184.68]DDIK.K Q8WUZ0:15 1 BCL7C 3.166 1.5 K.K[954.54]VMATIEK.V Q8WUZ0:20 1 BCL7C 1.06325 1 R.AK[1184.67]DDIK.K Q8WUZ0:15 1 BCL7C 6.33075 2.88888889 K.VMATIEK[1082.63]VR.R Q8WUZ0:27 1 BCL7C 1.4995 1.05555556 K.Q[111.03]ASKFDK[1710.02]LPIK.I Q8NFD5:1773 1 ARID1B 1.382 0.94444444 K.Q[111.03]ASKFDK[1866.1]LPIK.I Q8NFD5:1773 1 ARID1B 1.1395 0.85 K.QASKFDK[1866.09]LPIK.I Q8NFD5:1773 1 ARID1B 4.46525 2.6 K.FDKLPIK[1369.77]IVK.K Q8NFD5:1777 1 ARID1B 2.69025 1.65 K.FDKLPIK[1369.77]IVK.K Q8NFD5:1777 1 ARID1B 5.456 2.35 R.QEK[1491.83]FYATLVR.Y Q8NFD5:2097 1 ARID1B 4.58275 1.7 R.QEK[1491.83]FYATLVR.Y Q8NFD5:2097 1 ARID1B 4.33875 1.55 R.QEK[1491.83]FYATLVR.Y Q8NFD5:2097 1 ARID1B 6.256 1.5 R.SSTISVHDPFSDVSDSSFPK[1903.9]R.N Q8NFD5:1237 1 ARID1B 5.43875 1.45238095 R.SSTISVHDPFSDVSDSSFPK[1903.9]R.N Q8NFD5:1237 1 ARID1B 1.0145 0.19047619 R.SSTISVHDPFSDVSDSSFPK[1903.9]R.N Q8NFD5:1237 1 ARID1B 11.86825 2.275 R.K[1903.9]AQEAAAAVMQAAANSAQSR.Q Q8NFD5:928 1 ARID1B 2.7455 0.525 R.K[1903.9]AQEAAAAVMQAAANSAQSR.Q Q8NFD5:928 1 ARID1B 12.36775 1.025 R.K[1903.9]VPGSSEPFMTQGQMPNSSMQDMYNQSPSGAMSNLGMGQR.Q Q8NFD5:1274 1 ARID1B 11.05275 0.9875 R.K[1903.9]VPGSSEPFMTQGQMPNSSMQDMYNQSPSGAMSNLGMGQR.Q Q8NFD5:1274 1 ARID1B 9.08225 1.40740741 K.AEGDSAGTAGTPGGTPAGDK[2626.34]VASWELR.V Q92925:226 1 SMARCD2 6.9195 1 R.IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK[2626.34]VASWELR.V Q92925:226 1 SMARCD2 7.32275 1.16666667 K.AEGDSAGTAGTPGGTPAGDK[2626.34]VASWELR.V Q92925:226 1 SMARCD2 4.58075 0.57894737 R.IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK[2626.34]VASWELR.V Q92925:226 1 SMARCD2 12.8345 1.93181818 R.PGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 10.17825 1.36363636 R.PGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 9.696 1.68181818 R.PGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 9.55825 1.77272727 R.PGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 4.36625 0.76086957 K.RPGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 3.1535 0.54347826 K.RPGDLNVK[1902.95]C[160.03]TLLLMLDHQPPQYK.L Q92925:297 1 SMARCD2 17.88775 1.82894737 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDKVASWELR.V Q92925:206 1 SMARCD2 14.30825 1.47368421 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDKVASWELR.V Q92925:206 1 SMARCD2 15.629 1.5131579 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDKVASWELR.V Q92925:206 1 SMARCD2 14.04875 1.57894737 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDKVASWELR.V Q92925:206 1 SMARCD2 13.67625 1.5 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDKVASWELR.V Q92925:206 1 SMARCD2 9.889 1.17741936 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDK.V Q92925:206 1 SMARCD2 2.2855 0.65 R.MPTTQETDGFQVK[4217.13]RPGDLNVK.C Q92925:289 1 SMARCD2 6.4425 0.79032258 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDK.V Q92925:206 1 SMARCD2 0.92725 0.15789474 R.IYISNTFSPSK[2626.34]AEGDSAGTAGTPGGTPAGDKVASWELR.V Q92925:206 1 SMARCD2 6.1075 0.96774194 R.IYISNTFSPSK[3125.72]AEGDSAGTAGTPGGTPAGDK.V Q92925:206 1 SMARCD2 3.15575 0.4516129 R.IYISNTFSPSK[3125.72]AEGDSAGTAGTPGGTPAGDK.V Q92925:206 1 SMARCD2 6.595 2.85 K.RMEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 6.1695 2.72222222 R.MEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 3.8915 1.61111111 R.MEIQEAIK[1135.71]K.P Q92925:185 1 SMARCD2 17.53725 2.78846154 K.LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 1 SMARCD2 13.45725 2.11538462 K.LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 1 SMARCD2 12.6775 1.68 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 11.7165 3.03571429 K.FLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 12.85275 1.52 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 11.8665 1.54 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 1.2515 0.53846154 K.FLESTDSFNNELK[3082.54]R.L Q969G3:271 1 SMARCE1 11.46925 1.34 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 12.08225 1.44 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 10.365 1.42 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 1.44175 0.65384615 K.FLESTDSFNNELK[3082.57]R.L Q969G3:271 1 SMARCE1 10.453 1.36 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 10.27125 1.32 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 10.65875 1.36 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 9.53925 1.18 R.LC[160.03]GLK[1964.98]VEVDMEKIAAEIAQAEEQAR.K Q969G3:277 1 SMARCE1 5.8375 1.76666667 R.KFLESTDSFNNELK[1685.87]R.L Q969G3:271 1 SMARCE1 4.00225 2.5 R.E[111.03]K[2491.31]EAAEQAER.S Q969G3:305 1 SMARCE1 3.82875 0.45833333 K.KGPDGLALPNNYC[160.03]DFC[160.03]LGDSK[2087.96]INK.K Q92785:281 1 DPF2 1.63 0.29166667 K.KGPDGLALPNNYC[160.03]DFC[160.03]LGDSK[2443.18]INK.K Q92785:281 1 DPF2 3.096 2.07142857 K.GK[1025.61]GVGSAR.K Q92785:188 1 DPF2 11.9205 2.42857143 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 13.20525 2.69047619 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 3.33175 0.66666667 R.SGHPSC[160.03]LQFTPVMMAAVK[2087.96]TYR.W Q92785:318 1 DPF2 9.0475 1.63157895 K.INKK[1633.79]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 1 DPF2 9.8275 1.29166667 K.KGPDGLALPNNYC[160.03]DFC[160.03]LGDSK[1228.67]INK.K Q92785:281 1 DPF2 9.5745 1.3125 K.KGPDGLALPNNYC[160.03]DFC[160.03]LGDSK[1228.67]INK.K Q92785:281 1 DPF2 12.38175 2 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 1.07475 1.08333333 R.SEEQK[2606.22]SK.K Q92785:258 1 DPF2 8.995 1.40476191 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 1 DPF2 0.9985 1.16666667 R.SEEQK[2606.2]SK.K Q92785:258 1 DPF2 1.029 1.25 R.SEEQK[2606.21]SK.K Q92785:258 1 DPF2 1.06125 1.5 R.SEEQK[2606.2]SK.K Q92785:258 1 DPF2 3.4755 2.35714286 R.TDPLEK[996.57]R.G Q92785:130 1 DPF2 12.02375 2.32352941 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 9.5315 2.02941177 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 1.00875 0.83333333 R.TDPLEK[2081.13]R.G Q92785:130 1 DPF2 10.174 1.88235294 K.K[1955.06]EGLISQDGSSLEALLR.T Q92785:108 1 DPF2 12.33225 1.5 R.ILEPDDFLDDLDDEDYEEDTPK[996.57]RR.G Q92785:178 1 DPF2 14.15125 1.65217391 R.ILEPDDFLDDLDDEDYEEDTPK[810.51]R.R Q92785:178 1 DPF2 13.82075 1.7173913 R.ILEPDDFLDDLDDEDYEEDTPK[810.51]R.R Q92785:178 1 DPF2 9.87 1.91176471 K.K[1298.77]VVDDLLDQITGGDHSR.T Q9H8M2:438 1 BRD9 5.70325 1.26470588 K.K[1298.77]VVDDLLDQITGGDHSR.T Q9H8M2:438 1 BRD9 5.588 2.875 R.TLFQLK[1120.58]QR.R Q9H8M2:460 1 BRD9 0.943 1.5 R.K[2817.53]C[160.03]F. P60709:373 1 ACTB 0.9445 1.5 R.K[2560.4]C[160.03]F. P60709:373 1 ACTB 17.0495 2.5 K.C[160.03]DVDIRK[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 16.7515 2.42857143 K.C[160.03]DVDIRK[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 14.73625 2.27272727 R.K[1429.9]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 14.385 2.28571429 K.C[160.03]DVDIRK[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 3.296 1.625 K.IK[2624.32]IIAPPER.K P60709:328 1 ACTB 11.611 1.93181818 R.K[1429.9]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 4.97075 1.16666667 K.E[111.03]ITALAPSTM[147.04]K[284.17]IK[2608.32]IIAPPER.K P60709:328 1 ACTB 10.25425 1.59090909 R.K[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 10.467 1.5 R.K[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 3.39775 1.8125 K.IK[2624.32]IIAPPER.K P60709:328 1 ACTB 2.821 1.0625 K.IK[3382.63]IIAPPER.K P60709:328 1 ACTB 9.47125 1.31818182 R.K[1429.9]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 8.16925 1.11363636 R.K[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 3.541 2.25 K.IK[2624.33]IIAPPER.K P60709:328 1 ACTB 3.367 1.75 K.IK[2608.25]IIAPPER.K P60709:328 1 ACTB 3.1005 1.3125 K.IK[2608.27]IIAPPER.K P60709:328 1 ACTB 3.7405 0.60714286 K.C[160.03]DVDIRK[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 3.3835 0.5 R.K[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 2.5075 1.0625 K.IK[3382.63]IIAPPER.K P60709:328 1 ACTB 1.9125 0.38636364 R.K[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 1.5785 0.34090909 R.K[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 1.27775 0.25 R.K[1301.81]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 11.72625 1.86363636 R.K[2055.15]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 10.75975 1.43181818 R.K[2055.15]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 10.6605 1.375 K.C[160.03]DVDIRK[2055.15]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 9.68375 1.23214286 K.C[160.03]DVDIRK[2055.15]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 9.491 1.40909091 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 9.7855 1.53571429 K.C[160.03]DVDIRK[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 6.56075 0.875 K.C[160.03]DVDIRK[2055.15]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 5.89375 1.16666667 K.E[111.03]ITALAPSTM[147.04]K[2608.31]IK[284.17]IIAPPER.K P60709:326 1 ACTB 2.5505 0.95454546 K.E[111.03]ITALAPSTMK[3366.64]IK.I P60709:326 1 ACTB 1.9875 0.63636364 K.E[111.03]ITALAPSTMK[3366.63]IK.I P60709:326 1 ACTB 5.245 0.80357143 K.C[160.03]DVDIRK[2055.15]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 2.6625 0.90909091 K.E[111.03]ITALAPSTM[147.04]K[2608.31]IK.I P60709:326 1 ACTB realpep1 position1 immonium2 ion2 dot2 connective2 KVEEAAKVTGK 724 5//9 11//34 2.67025 2.21428571 TDMYTKK 584 //16 12//82 4.225 1.42307692 SKAAASATR 592 //14 10//70 2.83025 1.18181818 SKAAASATR 592 //14 11//70 2.38575 1.09090909 SKAAASATR 592 //14 7//70 1.937 0.90909091 AKHLAAVEER 874 1//15 20//91 3.82225 1.42857143 MKEEVPTALVEAHVR 704 //5 4//20 1.024 0.9 KVEEAAK 718 //11 32//130 13.99 2.18181818 MKEEVPTALVEAHVR 704 5//8 12//33 1.721 1.92857143 SALEEFSKMKEEVPTALVEAHVR 704 3//8 8//32 1.665 1.5 KVEEAAK 718 1//15 21//93 8.669 2.21428571 MKEEVPTALVEAHVR 704 //15 15//86 7.57 1.78571429 MKEEVPTALVEAHVR 704 //15 7//86 1.9485 0.53571429 RALPEFFNGKNK 453 2//11 14//58 5.82375 1.77272727 SKTPEIYLAYR 457 //14 13//66 3.553 1.45454546 SKAAASATR 592 1//7 7//31 0.98775 1.16666667 TVNTKKDSESAPVK 364 //4 21//242 5.624 0.94827586 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 //16 12//101 4.0245 1.32142857 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1//16 6//78 1.31225 0.35714286 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 //16 10//102 2.06075 0.67857143 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 2//16 12//102 2.5805 0.92857143 TVNTKKDSESAPVK 365 //4 14//174 5.25125 0.5862069 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1//16 10//102 2.10025 0.82142857 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1//16 11//102 3.651 1.21428571 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 //16 6//102 1.11125 0.39285714 KVEEAAKVTGK 724 //7 12//33 2.8385 2.66666667 KVEEAAKVTGK 724 //7 10//33 3.3385 2.33333333 KVEEAAKVTGK 724 //7 5//33 0.84575 0.83333333 KTKVER 846 //13 7//80 1.8965 1 KVEEAAKVTGK 724 //5 4//23 1.146 0.9 SLVQNNCLSRPNIFLCPEIEPKLLGK 151 1//6 5//25 1.22675 1.08333333 VASAAAKSALEEFSK 694 //7 8//30 1.52725 1.83333333 VASAAAKSALEEFSK 694 1//7 8//30 2.1285 1.83333333 SALEEFSKMKEEVPTALVEAHVR 702 1//17 18//109 4.10275 1.43333333 VASAAAKSALEEFSK 694 1//5 6//22 0.94725 1.2 VASAAAKSALEEFSK 694 5//10 16//48 5.704 2.2 TKVER 848 1//10 11//52 3.5015 1.44444444 TKVER 848 1//10 11//52 3.4425 1.33333333 DMDEPSPVPNVEEVTLPKTVNTK 359 1//10 7//43 1.41925 0.77777778 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 6//40 1.3735 1.14285714 KVEEAAK 718 //7 5//31 2.3115 1.33333333 KVEEAAK 718 1//8 8//30 1.6545 1.25 AKHLAAVEER 874 //8 6//38 1.622 1.42857143 GKEKPTDMQNFGLR 566 //14 18//82 7.648 1.92307692 GKEKPTDMQNFGLR 566 //16 10//80 3.3415 1 ISAKTLTDEVNSPDSDRR 275 3//8 11//34 2.61075 1.6875 ISAKTLTDEVNSPDSDRR 275 2//9 13//48 2.086 1.83333333 AKHLAAVEERK 874 //16 27//137 7.44675 1.88235294 EGQEEVLKEVVESEGERK 836 //17 37//209 14.22825 2.08 TKVERDIGEGNLSTAAAAALAAAAVK 848 1//16 10//137 1.389 0.58333333 KTKVER 848 //17 8//96 2.59925 0.7 KTKVER 848 //17 9//96 2.279 0.83333333 EGQEEVLKEVVESEGER 836 //7 8//28 1.54125 1.58333333 EGQEEVLKEVVESEGER 836 //7 4//28 0.69625 0.75 AGGSLCHILAAAYKFK 99 //12 11//60 4.038 1.54545455 TPQQTSASQQMLNFPDKGK 564 //12 14//62 4.8415 1.66666667 EKPTDMQNFGLR 568 //14 28//111 11.19875 2.58333333 TPQQTSASQQMLNFPDKGK 564 1//12 15//62 4.472 1.70833333 TPQQTSASQQMLNFPDKGK 564 //12 14//62 5.00675 1.66666667 EKPTDMQNFGLR 568 //14 28//112 9.499 2.16666667 EKPTDMQNFGLR 568 //14 25//111 9.275 2 EKPTDMQNFGLR 568 //14 18//111 6.76175 1.5 EKPTDMQNFGLR 568 //14 16//111 5.94375 1.36111111 EKPTDMQNFGLR 568 1//14 21//111 6.49725 1.47222222 EKPTDMQNFGLR 568 1//14 20//112 4.958 1.30555556 TPQQTSASQQMLNFPDKGK 564 //12 4//62 0.88 0.25 SKAAASATR 592 //7 4//32 1.02375 0.75 SKAAASATR 592 //7 3//32 0.9015 0.66666667 SKAAASATR 592 //5 4//23 0.763 0.9 KRPAPQQIQQVQQQAVQNR 101 //17 17//94 8.5525 1.625 DLKTMTDVVGNPEEER 464 4//16 30//117 10.25875 2.10526316 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 27//159 5.419 1.5952381 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 28//159 5.1065 1.35714286 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 24//159 4.0115 1.04761905 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 27//159 4.865 1.35714286 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 21//159 2.94825 0.73809524 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 19//118 2.48225 0.64285714 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 1//13 23//159 3.7585 1.11904762 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 19//159 2.92325 0.85714286 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 18//159 3.0635 0.76190476 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 19//159 3.27275 0.85714286 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 18//118 2.13575 0.57142857 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 18//159 2.8455 0.73809524 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 20//159 3.2045 0.85714286 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 16//118 2.242 0.66666667 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 12//118 1.282 0.33333333 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 17//159 2.4715 0.69047619 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 16//118 3.35975 0.88095238 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 9//159 2.14475 0.52380952 IFISNTFNPAKSDAEDGEGTVASWELRVEGR 194 //13 7//159 1.15725 0.26190476 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 9//118 1.0705 0.26190476 LHALLMPPEPIIINHVISVDPNDQKK 385 //13 8//159 0.999 0.30952381 LDIQEALKR 173 //8 3//29 0.15375 0.25 LDIQEALKR 173 1//7 5//23 0.53825 0.8 LDIQEALKR 173 2//8 7//30 1.00425 1.08333333 MKFSEIPQR 353 //12 7//52 2.306 1 KKSGK 341 2//10 11//48 3.64575 1.5 KKSGK 341 6//12 17//54 5.74 2.61111111 SQKEEDEQEDLTKDMEDPTPVPNIEEVVLPK 369 //16 10//101 3.006 1.07142857 SQKEEDEQEDLTKDMEDPTPVPNIEEVVLPK 369 //16 11//102 2.92525 1.10714286 SQKEEDEQEDLTKDMEDPTPVPNIEEVVLPK 369 //16 5//78 0.62 0.17857143 ISTKNEEPVRSPER 303 //8 7//33 3.409 1.71428571 ISTKNEEPVRSPER 303 //8 7//33 3.1895 1.71428571 ISTKNEEPVRSPER 303 //8 5//33 1.838 1.14285714 KKSGK 342 1//10 17//46 4.45025 2.11111111 KGQASLYGK 346 //8 6//37 1.894 1.42857143 DRKASANAR 317 //9 9//46 3.03175 1.16666667 KDGGPATK 34 //8 6//34 2.6065 1.42857143 KVQEAAR 740 //8 6//35 2.2915 1.42857143 KVQEAAR 740 //8 6//35 2.234 1.42857143 KVQEAAR 740 //8 6//35 2.181 1.42857143 DRKASANAR 317 //8 11//37 2.9495 2.28571429 SQKEEDEQEDLTKDMEDPTPVPNIEEVVLPK 359 1//8 8//31 2.81 1.78571429 GQASLYGKR 354 //8 7//37 3.0645 1.5 GQASLYGKRR 354 //8 11//37 3.12625 2.14285714 GQASLYGKRR 354 //8 8//37 3.6775 1.71428571 DGGPATKFWESPETVSQLDSVR 41 //8 6//31 1.836 1.21428571 KVEHEISEGNVATAAAAALASAATK 856 2//9 9//29 0.888 1.5 KVEHEISEGNVATAAAAALASAATK 856 //9 8//29 0.86475 1.35714286 KVEHEISEGNVATAAAAALASAATK 856 2//9 10//29 0.99275 1.5 KVEHEISEGNVATAAAAALASAATK 856 //9 6//29 0.73475 1 KVEHEISEGNVATAAAAALASAATK 856 2//9 9//36 1.053 1.21428571 KVEHEISEGNVATAAAAALASAATK 856 //11 4//50 0.2735 0.22222222 VREEVPLELVEAHVKK 739 1//17 28//94 10.29675 2.6 GGTVADLDEQDEETVTAGGKEDEDPAKGDQSR 421 //16 10//102 1.503 0.71428571 GGTVADLDEQDEETVTAGGKEDEDPAKGDQSR 421 //16 5//102 0.9635 0.35714286 VASAAAKAALEEFSR 716 6//9 15//31 1.68275 2.28571429 VASAAAKAALEEFSR 716 7//10 15//35 1.70475 2.1875 VREEVPLELVEAHVKK 739 //17 12//109 4.88275 1.23333333 VREEVPLELVEAHVKK 739 //17 10//109 3.9935 1.06666667 VREEVPLELVEAHVKK 739 //17 9//84 2.3225 0.6 VASAAAKAALEEFSR 716 5//8 15//34 4.311 2.85714286 KVEHEISEGNVATAAAAALASAATK 856 1//17 19//84 5.348 1.43333333 KVEHEISEGNVATAAAAALASAATK 856 1//17 17//84 5.379 1.36666667 TLAGLVVQLLQFQEDAFGKHVTNPAFTK 94 //9 7//36 1.952 1.25 HQGTFTDEKSK 199 //11 10//43 1.90775 1.33333333 HQGTFTDEKSK 199 //8 6//37 2.6085 1.42857143 HQGTFTDEKSK 199 //8 9//37 3.25725 1.64285714 EKPVDLQNFGLRTDIYSK 592 1//16 24//139 7.9185 1.61111111 SPQVPAAQQMLNFPEKNK 588 //15 24//106 9.9455 2.05882353 SPQVPAAQQMLNFPEKNK 588 //12 15//62 4.886 1.79166667 SPQVPAAQQMLNFPEKNK 588 2//15 24//106 8.249 1.73529412 EKPVDLQNFGLRTDIYSK 592 //16 20//139 6.45275 1.33333333 SPQVPAAQQMLNFPEKNK 588 //12 12//62 5.23725 1.58333333 EKPVDLQNFGLR 592 //16 23//106 9.483 2.05882353 SPQVPAAQQMLNFPEKNK 588 //12 11//62 5.148 1.54166667 EKPVDLQNFGLRTDIYSK 592 2//16 22//105 5.02475 1.22222222 EKPVDLQNFGLR 592 //16 26//106 8.303 2.05882353 SPQVPAAQQMLNFPEKNK 588 //12 11//62 5.12225 1.54166667 SPQVPAAQQMLNFPEKNK 588 //12 11//62 5.06825 1.29166667 EKPVDLQNFGLR 592 //16 22//106 6.78225 1.55882353 EKPVDLQNFGLR 592 //14 22//105 7.03225 1.61764706 EKPVDLQNFGLR 592 //14 28//105 7.3455 1.82352941 EKPVDLQNFGLR 592 //14 21//105 6.534 1.5 EKPVDLQNFGLR 592 //16 16//106 5.4485 1.08823529 EKPVDLQNFGLR 592 //11 20//114 7.374 1.47368421 EKPVDLQNFGLR 592 //16 15//106 5.591 1.17647059 EKPVDLQNFGLR 592 //14 26//105 6.69175 1.85294118 SPQVPAAQQMLNFPEKNK 588 1//15 24//106 8.72175 1.88235294 EKPVDLQNFGLR 592 //16 18//106 6.1035 1.29411765 EKPVDLQNFGLR 592 //16 20//106 7.071 1.55882353 EKPVDLQNFGLR 592 //14 22//105 5.40625 1.23529412 EKPVDLQNFGLR 592 //14 22//105 4.98 1.29411765 EKPVDLQNFGLR 592 //16 20//106 7.11775 1.38235294 EKPVDLQNFGLR 592 //14 18//105 3.95125 1.02941177 EKPVDLQNFGLR 592 //16 16//106 5.905 1.08823529 EKPVDLQNFGLRTDIYSK 592 1//16 11//105 2.0385 0.58333333 EKPVDLQNFGLR 592 //14 19//105 4.4505 1.32352941 SPQVPAAQQMLNFPEKNK 588 //15 20//106 6.2215 1.47058824 SPQVPAAQQMLNFPEKNK 588 //12 10//62 4.47725 1.25 EKPVDLQNFGLR 592 //14 15//105 3.743 0.94117647 EKPVDLQNFGLR 592 //14 13//105 3.556 0.88235294 EKPVDLQNFGLR 592 //14 12//105 3.7315 0.85294118 EKPVDLQNFGLR 592 //16 9//106 2.154 0.55882353 SPQVPAAQQMLNFPEKNK 588 //12 6//62 2.23775 0.58333333 SPQVPAAQQMLNFPEKNK 588 //12 6//62 1.3415 0.33333333 SPQVPAAQQMLNFPEKNK 588 //12 6//62 1.20775 0.58333333 KVQEAAR 740 //15 31//290 10.3745 1.12121212 KVQEAAR 740 //15 23//210 5.49175 0.71212121 KVEHEISEGNVATAAAAALASAATK 856 //8 6//32 2.233 1.42857143 NVNLKKDSENTPVK 392 //6 21//258 7.6355 1.01612903 GGTVADLDEQDEETVTAGGKEDEDPAKGDQSR 421 //16 3//78 0.942 0.28571429 SKGASAGR 615 //13 16//66 3.89475 1.95 TDIYSKK 608 //14 16//70 4.88775 1.81818182 TDIYSKK 608 3//8 10//28 2.1885 2 TLAKSK 613 5//9 10//33 2.418 2.08333333 SNSVGIQDAFNDGSDSTFQKR 1201 1//16 13//79 3.65625 1.07142857 SNSVGIQDAFNDGSDSTFQKR 1201 //16 11//79 3.37575 1 SNSVGIQDAFNDGSDSTFQKR 1201 //16 12//79 3.18225 1.03571429 SNSVGIQDAFNDGSDSTFQKR 1201 //16 8//79 2.2955 0.57142857 SNSVGIQDAFNDGSDSTFQKR 1201 2//16 11//79 2.68625 0.82142857 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 8//15 18//126 3.00125 1.14285714 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 6//15 19//126 2.55475 1.07142857 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 5//15 15//126 2.347 0.73809524 SNSVGIQDAFNDGSDSTFQKR 1201 //19 12//155 3.37475 0.6 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 2//12 11//50 3.8515 1.6 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 //12 9//63 2.942 1.3 NIKILEDEPHSKDETPLCTLLDWQDSLAK 1953 1//12 9//63 3.19025 1.35 FDKLPVK 1811 //17 20//89 5.6725 1.75 DKPASENSEEKLISK 1804 //9 5//31 1.38175 0.92857143 DKPASENSEEKLISK 1804 //9 5//31 1.3305 0.92857143 DKPASENSEEKLISK 1804 //13 6//73 1.56 0.63636364 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 3//16 19//79 4.987 1.89285714 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1//16 11//79 3.13125 1 MSYEPNKDPYGSMR 1230 //19 20//156 10.015 1.32 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1//16 10//79 2.67175 0.71428571 MSYEPNKDPYGSMR 1230 //19 25//156 9.397 1.34 MSYEPNKDPYGSMR 1230 1//19 20//156 6.791 1.1 MSYEPNKDPYGSMR 1230 //19 13//156 4.98375 0.72 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 2//16 17//104 4.30925 1.5 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 3//16 16//79 4.1985 1.32142857 MSYEPNKDPYGSMR 1230 1//19 16//156 5.079 0.82 MSYEPNKDPYGSMR 1230 //19 13//211 4.6785 0.72 MSYEPNKDPYGSMR 1230 //19 17//156 6.4745 1.08 MSYEPNKDPYGSMR 1230 //19 16//156 5.14325 0.82 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 3//16 14//79 3.67975 1.17857143 MSYEPNKDPYGSMR 1230 //19 19//156 6.34325 1.12 MSYEPNKDPYGSMR 1230 //19 11//156 4.674 0.68 MSYEPNKDPYGSMR 1230 //19 12//156 4.89275 0.74 MSYEPNKDPYGSMR 1230 //19 13//156 4.7605 0.76 MSYEPNKDPYGSMR 1230 //19 17//156 4.8565 0.9 MSYEPNKDPYGSMR 1230 //19 11//156 3.5675 0.56 KAPGSDPFMSSGQGPNGGMGDPYSR 1238 //16 8//79 1.65025 0.53571429 MSYEPNKDPYGSMR 1230 //19 10//156 3.62225 0.66 SSTLTEDGAKSSEAIK 1928 3//18 30//119 11.14525 2.7 SSTLTEDGAKSSEAIK 1928 3//17 25//86 9.72525 2.42857143 SSTLTEDGAKSSEAIK 1928 2//18 26//92 9.72 2.33333333 SSTLTEDGAKSSEAIK 1928 2//17 18//86 7.673 1.89285714 LILLHHKHPERK 2020 2//17 24//166 4.75825 1.03846154 KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 //14 6//87 1.21475 0.41666667 ITKLYELGGEPERK 1010 4//8 12//34 4.05525 2.42857143 ITKLYELGGEPER 1010 6//8 14//35 3.99275 3.21428571 ITKLYELGGEPER 1010 4//8 13//35 3.68025 2.71428571 ITKLYELGGEPER 1010 3//8 11//35 3.37175 2.14285714 MSYEPNKDPYGSMR 1230 //8 7//33 3.3815 1.71428571 KSSSSTTTNEK 997 //8 6//37 2.64225 1.21428571 SNSVGIQDAFNDGSDSTFQKR 1201 //8 8//32 3.485 1.78571429 SNSVGIQDAFNDGSDSTFQKR 1201 //8 7//32 3.655 1.71428571 SNSVGIQDAFNDGSDSTFQKR 1201 //8 5//32 1.74775 0.92857143 GEMKAAAGQESEGPAVGPPQPLGK 51 //8 5//33 0.99975 0.64285714 LEKLYSTMVR 2146 //5 27//231 8.68175 1.05357143 LEKLYSTMVR 2146 //5 21//231 7.85925 1 KNPVCR 2159 //19 10//163 4.22825 0.66 IKLGR 1598 1//8 7//39 2.624 1.5 IVDAVIKYKDSSSGR 1473 //5 4//19 0.50175 0.9 KRDSDAGSSTPTTSTR 1414 //8 5//35 1.49575 0.8125 KRDSDAGSSTPTTSTR 1414 //8 5//35 1.55475 0.625 KRDSDAGSSTPTTSTR 1414 //8 4//35 1.47625 0.5625 KRDSDAGSSTPTTSTR 1414 //5 4//19 0.80625 0.9 KRDSDAGSSTPTTSTR 1414 1//12 19//64 7.801 2.31818182 KRDSDAGSSTPTTSTR 1414 //12 13//64 5.62325 1.59090909 KRDSDAGSSTPTTSTR 1414 //7 4//29 1.26675 0.75 KRDSDAGSSTPTTSTR 1414 //12 10//47 3.29725 1.45 KRDSDAGSSTPTTSTR 1414 //12 8//47 2.535 0.9 KRDSDAGSSTPTTSTR 1414 //12 7//47 2.315 0.85 VIQAGMFDQKSSSHER 1237 2//8 11//36 3.43975 1.5625 VIQAGMFDQKSSSHER 1237 4//8 11//36 3.23975 1.8125 IEKER 524 1//12 11//55 2.1885 1.38888889 AVATYHANTEREQKK 516 //11 8//56 0.916 0.66666667 AVATYHANTEREQKK 516 //11 5//56 0.37775 0.27777778 AVATYHANTEREQKK 516 //11 6//56 0.72375 0.55555556 AVATYHANTEREQKK 516 //11 4//56 0.4675 0.33333333 AVATYHANTEREQKK 516 //11 4//56 0.7565 0.33333333 AVATYHANTEREQKK 516 //11 5//56 0.766 0.38888889 ENERIEKER 524 //17 16//90 5.95025 1.32142857 AVATYHANTEREQKK 516 //11 4//56 0.5775 0.33333333 AVATYHANTEREQKK 516 //11 4//56 1.0085 0.44444444 AVATYHANTEREQKK 516 //11 3//44 0.69225 0.27777778 AVATYHANTEREQKK 516 //8 4//25 0.8395 0.5 LIDQKK 545 2//10 9//43 3.1095 1.5 GRPPAEKLSPNPPNLTK 1450 1//9 7//32 0.52 0.78571429 KEKAQDR 1602 //18 18//98 3.52875 1.125 IVDAVIKYKDSSSGR 1471 1//5 5//19 0.61325 1 HIIENAKQDVDDEYGVSQALAR 711 2//16 22//132 8.28225 1.73529412 HIIENAKQDVDDEYGVSQALAR 711 //16 16//132 4.9265 1.11764706 KDKR 546 //15 20//97 9.331 1.86666667 KDKR 546 //15 20//95 8.97975 2.06666667 KDKR 546 //15 20//96 7.98125 1.9 LMAEDEEGYRKLIDQK 540 //5 4//23 1.21475 1.125 KDKR 546 //15 9//96 3.954 0.73333333 VKIK 1596 //8 8//36 3.43075 1.57142857 VKIK 1596 //8 7//38 2.941 1.5 GQPLPDHLQMAVQGKR 207 //12 7//50 2.516 1 LIDQKK 545 2//16 24//109 8.92925 2.09375 NHKYR 1518 //8 9//36 2.874 1.64285714 IRNHKYR 1518 //7 4//33 1.9465 1 KPVDFK 1503 //6 4//26 1.7 1.2 KRDSDAGSSTPTTSTR 1414 //15 17//72 6.778 1.88461539 KRDSDAGSSTPTTSTR 1414 //12 13//49 4.668 1.8 KRDSDAGSSTPTTSTR 1414 //15 11//93 1.7375 0.80769231 KRDSDAGSSTPTTSTR 1414 //12 9//49 3.03775 1.05 KRDSDAGSSTPTTSTR 1414 //17 16//85 3.45075 0.96666667 KRDSDAGSSTPTTSTR 1414 //12 8//49 2.45675 0.9 KRDSDAGSSTPTTSTR 1414 //17 8//110 0.94425 0.46666667 KRDSDAGSSTPTTSTR 1414 //12 6//49 1.34975 0.5 HRKEVDYSDSLTEK 1375 //12 13//49 4.791 1.85 YLRLDGTTKAEDR 1131 //5 5//21 1.35375 1.625 LDGTTKAEDRGMLLK 1131 //5 3//19 0.5815 1 LDGTTKAEDRGMLLK 1131 //5 3//19 0.756 1 LDGTTKAEDRGMLLK 1131 //5 3//19 0.629 1 LDGTTKAEDR 1131 2//12 17//52 3.1155 1.9 YLRLDGTTKAEDR 1131 //12 12//47 3.65175 1.55 LDGTTKAEDR 1131 2//12 12//52 2.312 1.35 ITEKLEK 455 3//10 15//43 4.53 2.28571429 QQKIEQER 461 3//9 9//37 2.43775 1.28571429 LMEEDELPSWIIKDDAEVER 1349 2//15 9//73 1.162 0.80769231 LMEEDELPSWIIKDDAEVER 1349 1//15 5//73 0.9535 0.5 LMEEDELPSWIIKDDAEVER 1349 //15 4//73 0.703 0.46153846 LMEEDELPSWIIKDDAEVER 1349 //15 4//73 0.538 0.34615385 LGRKEK 1602 //11 13//49 2.78575 1.875 LKGGR 1610 //8 7//39 2.8515 1.5 LKGGR 1610 2//8 11//39 2.5135 1.5 LTKAVATYHANTER 502 2//10 9//36 1.99325 1.25 SVTGKIQK 496 //16 16//139 7.161 1.34375 KEKAQDR 1602 2//9 12//37 3.67175 2.33333333 KEKAQDR 1602 2//9 13//37 3.66 2.58333333 IKLGR 1598 2//8 12//40 2.93175 1.85714286 IKLGR 1598 1//8 7//35 2.8035 1.5 IKLGR 1598 2//8 9//35 3.04 1.78571429 IKLGR 1598 1//8 12//40 2.9775 1.85714286 KEKAQDR 1602 1//5 7//22 1.85525 1.5 KEKAQDR 1602 //5 5//22 1.89275 1.3 IKLGR 1598 1//8 7//35 1.44175 1.5 LKGGR 1610 3//9 13//36 4.501 2.91666667 VSYKGSPAAR 835 //5 6//21 0.97225 1.75 NHKYR 1518 //6 4//26 2.1075 1.2 LKGGR 1610 2//9 9//36 1.4245 1.41666667 IRNHKYR 1518 //6 5//28 1.27975 1.08333333 HIIENAKQDVDDEYGVSQALAR 711 //12 8//47 2.3175 1.1 LDGTTKAEDR 1131 2//8 7//30 1.68025 1.16666667 KRDSDAGSSTPTTSTR 1414 //8 5//26 1.2925 0.83333333 LKGGR 1610 //12 9//54 2.176 1.27777778 VSYKGSPAAR 835 //5 5//22 1.02625 1.3 LCTVNSVEEKILAAAK 1213 4//12 14//47 2.85525 1.7 ILPKLR 1091 //12 7//56 3.24775 1.16666667 VIQAGMFDQKSSSHER 1237 //17 13//96 2.03575 0.90625 VIQAGMFDQKSSSHER 1237 //5 4//18 1.048 1.5 VIQAGMFDQKSSSHER 1237 1//12 10//47 2.395 1.2 AGYAGEDCPKVDFPTAIGMVVER 34 //6 27//232 10.6825 1.25 AGYAGEDCPKVDFPTAIGMVVER 34 //6 28//232 10.47975 1.21428571 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //11 15//178 2.8895 0.65217391 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 1//16 20//121 10.1585 1.8125 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //11 13//131 3.18275 0.63043478 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 //16 20//121 9.93375 1.875 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //11 13//131 2.63725 0.63043478 AGYAGEDCPKVDFPTAIGMVVER 34 //7 26//232 9.38075 1.17857143 AGYAGEDCPKVDFPTAIGMVVER 34 //7 28//232 8.73575 1.05357143 AGYAGEDCPKVDFPTAIGMVVER 34 //7 30//232 9.79425 1.25 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //11 12//131 2.615 0.60869565 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 1//16 17//121 9.266 1.71875 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 //11 10//131 2.679 0.56521739 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 //16 15//121 8.7295 1.46875 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 //16 15//121 8.45625 1.46875 AGYAGEDCPKVDFPTAIGMVVERDDGSTLMEIDGDK 34 1//16 14//93 7.3485 1.40625 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //11 21//178 3.54275 0.93478261 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //11 13//131 2.9945 0.63043478 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //11 16//178 2.84775 0.76086957 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //11 17//178 3.06625 0.76086957 AGYAGEDCPKVDFPTAIGMVVER 34 //6 19//168 9.7955 1.05357143 AGYAGEDCPKVDFPTAIGMVVER 34 //6 27//232 9.726 1.19642857 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //11 15//178 2.61175 0.54347826 AGYAGEDCPKVDFPTAIGMVVER 34 //6 20//232 9.559 0.96428571 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //11 11//131 2.254 0.58695652 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //11 10//131 2.26625 0.52173913 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //11 11//131 2.5785 0.58695652 AGYAGEDCPKVDFPTAIGMVVER 34 //6 14//232 8.43 0.76785714 AGYAGEDCPKVDFPTAIGMVVER 34 //6 19//168 8.4105 0.89285714 DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 //11 11//178 1.70925 0.43478261 AGYAGEDCPKVDFPTAIGMVVER 34 //6 26//232 7.5055 0.96428571 AGYAGEDCPKVDFPTAIGMVVER 34 //6 16//232 7.58325 0.96428571 KEKLPQVTR 240 5//14 26//85 7.31725 3.5 EAVREGSPANWKR 238 //10 13//59 4.724 1.94444444 KEKLPQVTR 240 5//11 23//46 7.35725 4 EGSPANWKR 238 //10 9//53 4.68025 1.61111111 EGSPANWKR 238 1//10 11//53 4.69675 1.88888889 KEKLPQVTR 240 6//11 22//46 5.93725 3.44444444 KEKLPQVTR 240 4//14 24//84 6.199 2.81818182 KEKLPQVTR 240 4//11 22//46 5.09375 3.16666667 EGSPANWKR 238 1//10 10//53 3.78875 1.66666667 EGSPANWKR 238 //10 9//53 4.65675 1.61111111 KEKLPQVTR 240 6//15 24//73 3.04975 2.25 EGSPANWKR 238 //10 7//53 3.4585 1.33333333 EGSPANWKR 238 //10 12//52 4.56525 1.77777778 EGSPANWKR 238 //10 11//53 4.65875 1.72222222 KEKLPQVTR 240 6//11 23//46 4.904 3.77777778 KEKLPQVTR 240 3//14 12//69 1.6745 1 KEKLPQVTR 240 //15 10//73 1.0775 1 KEKLPQVTR 240 3//11 18//56 3.203 2.38888889 KEKLPQVTR 240 4//15 19//92 2.2775 1.875 EGSPANWKR 238 //10 11//52 4.72275 1.72222222 KEKLPQVTR 240 3//14 18//68 2.28325 1.68181818 EAVREGSPANWKR 238 //10 12//48 4.445 1.88888889 EGSPANWKR 238 //10 9//53 3.2575 1.61111111 EGSPANWKR 238 1//11 9//47 3.1295 1.5 EGSPANWKR 238 //11 8//47 3.3285 1.5 EAVREGSPANWKR 238 //11 16//42 4.952 2.22222222 EAVREGSPANWKR 238 //8 9//36 3.725 1.5625 EGSPANWKR 238 //11 8//47 2.223 1.5 QEYEEGGKQCVER 421 //14 19//120 9.5885 1.63157895 QEYEEGGKQCVER 421 //14 20//120 8.05925 1.42105263 QEYEEGGKQCVER 421 //14 18//120 5.3665 1.18421053 EKLTELMFEHYNIPAFFLCK 135 1//15 9//71 2.467 0.76923077 QEYEEGGKQCVER 421 //14 11//120 2.95525 0.55263158 KEKLPQVTR 240 //12 30//138 14.05625 2 ELFQEMNIELVPPYMIASKEAVR 226 //10 11//46 2.67325 1.88888889 ELFQEMNIELVPPYMIASKEAVR 226 //10 9//46 1.97175 1.38888889 ELFQEMNIELVPPYMIASKEAVR 226 //10 9//46 2.43025 1.61111111 ELFQEMNIELVPPYMIASKEAVR 226 1//10 9//46 1.59475 0.88888889 KEKLPQVTR 240 //12 27//137 11.76575 1.97619048 ELFQEMNIELVPPYMIASKEAVR 226 //10 8//57 2.429 1.05555556 ELFQEMNIELVPPYMIASKEAVR 226 //10 7//57 1.62975 0.94444444 LKLIANNTTVER 379 4//13 16//56 3.6425 1.90909091 LKLIANNTTVERR 379 1//13 14//56 3.75425 1.72727273 GSLYKR 45 1//15 26//93 7.95475 2.39285714 KAIVICPTDEDLKDR 527 7//17 33//87 10.185 3.57142857 KAIVICPTDEDLKDR 527 6//11 18//39 2.754 2.55555556 KAIVICPTDEDLKDR 527 4//11 14//39 2.468 1.94444444 KAIVICPTDEDLKDR 527 1//11 8//48 1.6885 0.88888889 GTVGPKSK 416 //16 25//111 8.94925 1.88235294 QGAPTSFLPPEASQLKPDR 162 //12 23//163 4.981 1.275 INEEISVKHLPSTEPDPHVVR 270 2//12 10//50 3.37575 1.35 INEEISVKHLPSTEPDPHVVR 270 1//12 8//50 3.19375 1.25 INEEISVKHLPSTEPDPHVVR 270 1//7 7//34 2.67375 1.75 KSTNSR 310 //12 21//123 6.88775 1.35 INEEISVKHLPSTEPDPHVVR 270 //7 6//34 2.476 1.66666667 QNQFYDTQVIKQENESGYER 117 1//12 25//163 7.6525 1.5 KRPYEENR 172 //11 22//108 10.26675 1.83333333 PLEMEQQQAYRPEMKTEMK 142 //10 17//114 7.9715 1.2631579 AIVICPTDEDLKDR 539 //10 9//44 3.50975 1.61111111 TTWAIKHAASNPSKK 440 //11 14//159 1.161 0.7 KYNILGTNAIMDK 449 //16 10//78 1.2095 0.65384615 LKVNELREELQR 7 //11 11//41 3.27725 1.38888889 LKVNELREELQR 7 //11 8//41 1.617 0.83333333 LKVNELREELQR 7 //11 10//41 1.74675 0.94444444 KRPYEENR 172 //7 6//32 2.424 1.41666667 KRPYEENR 172 //7 5//32 2.2035 1.33333333 KRPYEENR 172 //10 8//41 2.524 1.0625 INEEISVKHLPSTEPDPHVVR 270 1//9 7//51 0.918 0.75 INEEISVKHLPSTEPDPHVVR 270 //9 5//51 1.0965 0.8125 KKR 498 //9 10//43 2.66225 1.3125 LTALLLPPDPIVINHVISVDPSDQKK 353 //13 14//161 1.69575 0.71428571 LYISNTFNPAKPDAEDSDGSIASWELR 169 //13 28//161 5.79625 1.64285714 LYISNTFNPAKPDAEDSDGSIASWELR 169 //13 20//161 4.345 1.14285714 KLIDQKK 521 //11 8//50 1.01375 0.625 IEKER 500 1//10 13//44 2.795 1.92857143 KDRR 522 //15 19//97 6.4825 1.46666667 SRAKDDIK 15 //9 7//43 2.47925 1.3125 KVMATIEK 20 1//6 4//28 0.9885 0.75 AKDDIK 15 //9 6//41 2.494 1 VMATIEKVR 27 //9 3//35 0.63075 0.35714286 QASKFDKLPIK 1773 //14 14//67 5.88625 1.72727273 QASKFDKLPIK 1773 //14 13//68 5.4355 1.59090909 QASKFDKLPIK 1773 1//14 11//68 4.753 1.45454546 FDKLPIKIVK 1777 1//10 14//51 5.68375 2.11111111 FDKLPIKIVK 1777 //10 9//51 3.4815 1.38888889 QEKFYATLVR 2097 2//12 12//53 4.785 1.55 QEKFYATLVR 2097 1//12 10//53 4.27075 1.4 QEKFYATLVR 2097 2//12 11//53 4.394 1.5 SSTISVHDPFSDVSDSSFPKR 1237 //16 12//78 4.07075 1.21428571 SSTISVHDPFSDVSDSSFPKR 1237 1//16 14//78 3.69675 1.07142857 SSTISVHDPFSDVSDSSFPKR 1237 //16 7//78 1.961 0.5 KAQEAAAAVMQAAANSAQSR 928 3//16 21//78 5.5075 1.75 KAQEAAAAVMQAAANSAQSR 928 //16 3//78 0.447 0.10714286 KVPGSSEPFMTQGQMPNSSMQDMYNQSPSGAMSNLGMGQR 1274 2//16 15//103 3.92425 1.32142857 KVPGSSEPFMTQGQMPNSSMQDMYNQSPSGAMSNLGMGQR 1274 2//16 15//103 3.6955 1.32142857 AEGDSAGTAGTPGGTPAGDKVASWELR 226 //13 15//161 3.69375 1.02380952 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 226 //13 14//161 3.96575 1 AEGDSAGTAGTPGGTPAGDKVASWELR 226 //13 14//161 3.048 0.83333333 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 226 //13 13//161 3.0005 0.80952381 PGDLNVKCTLLLMLDHQPPQYK 297 1//16 13//100 1.74575 0.85714286 PGDLNVKCTLLLMLDHQPPQYK 297 1//16 9//78 1.76225 0.71428571 PGDLNVKCTLLLMLDHQPPQYK 297 //16 8//78 1.587 0.67857143 PGDLNVKCTLLLMLDHQPPQYK 297 1//16 8//78 1.704 0.67857143 RPGDLNVKCTLLLMLDHQPPQYK 297 //16 7//78 1.81575 0.64285714 RPGDLNVKCTLLLMLDHQPPQYK 297 //16 3//78 0.497 0.17857143 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 //13 14//161 3.15625 0.83333333 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 //13 15//161 4.13475 1.07142857 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 //13 16//161 2.22425 0.80952381 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 //13 13//161 2.66875 0.78571429 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 //13 10//161 1.3845 0.52380952 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK 206 //13 13//119 2.493 0.80952381 MPTTQETDGFQVKRPGDLNVK 289 //8 20//320 7.2825 0.77027027 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK 206 //13 14//119 2.294 0.76190476 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 //13 5//161 0.8395 0.16666667 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK 206 2//15 23//212 6.8415 0.96153846 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDK 206 //15 23//212 4.60625 0.90384615 RMEIQEAIKK 185 //8 3//29 0.24475 0.41666667 MEIQEAIKK 185 2//8 6//29 0.5175 1.08333333 MEIQEAIKK 185 1//9 5//35 0.564 0.78571429 LAGLLQHPDPIVINHVISVDPNDQKK 401 3//13 13//54 2.9475 1.22727273 LAGLLQHPDPIVINHVISVDPNDQKK 401 4//13 11//54 3.04175 1.09090909 LCGLKVEVDMEKIAAEIAQAEEQAR 277 9//16 25//102 4.2855 2.53571429 FLESTDSFNNELKR 271 //14 11//65 4.67625 1.375 LCGLKVEVDMEKIAAEIAQAEEQAR 277 7//16 12//79 2.04625 0.89285714 LCGLKVEVDMEKIAAEIAQAEEQAR 277 7//16 14//79 2.2145 1.03571429 FLESTDSFNNELKR 271 //12 25//149 12.497 1.58333333 LCGLKVEVDMEKIAAEIAQAEEQAR 277 5//16 11//79 1.465 0.78571429 LCGLKVEVDMEKIAAEIAQAEEQAR 277 2//16 6//79 0.7425 0.28571429 LCGLKVEVDMEKIAAEIAQAEEQAR 277 6//16 13//102 1.64475 0.92857143 FLESTDSFNNELKR 271 1//12 23//149 10.373 1.33333333 LCGLKVEVDMEKIAAEIAQAEEQAR 277 3//16 8//79 1.361 0.53571429 LCGLKVEVDMEKIAAEIAQAEEQAR 277 5//16 10//102 1.4665 0.75 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1//16 4//79 0.50375 0.21428571 LCGLKVEVDMEKIAAEIAQAEEQAR 277 //16 3//79 0.61025 0.17857143 KFLESTDSFNNELKR 271 //14 14//65 3.66475 1.20833333 EKEAAEQAER 305 //13 15//109 2.3055 1 KGPDGLALPNNYCDFCLGDSKINK 281 //16 16//97 6.60925 1.5625 KGPDGLALPNNYCDFCLGDSKINK 281 //13 15//112 8.11775 1.28947368 GKGVGSAR 188 2//6 10//27 2.002 2.4 SGHPSCLQFTPVMMAAVKTYR 318 2//16 17//97 8.58975 1.65625 SGHPSCLQFTPVMMAAVKTYR 318 2//16 17//97 7.017 1.5 SGHPSCLQFTPVMMAAVKTYR 318 //16 9//127 3.856 0.71875 INKKTGQPEELVSCSDCGR 285 1//12 4//62 0.468 0.25 KGPDGLALPNNYCDFCLGDSKINK 281 //10 4//45 0.7415 0.5625 KGPDGLALPNNYCDFCLGDSKINK 281 //10 4//45 0.6825 0.5625 KGPDGLALPNNYCDFCLGDSK 261 5//9 13//31 2.02375 2.21428571 SEEQKSK 258 //16 23//135 10.32025 1.69047619 KGPDGLALPNNYCDFCLGDSK 261 //9 5//31 1.069 0.85714286 SEEQKSK 258 //16 24//135 8.54525 1.61904762 SEEQKSK 258 1//16 22//135 8.28875 1.40476191 SEEQKSK 258 //16 17//135 5.764 1.21428571 TDPLEKR 130 1//8 9//37 1.939 1.4375 KEGLISQDGSSLEALLR 108 5//9 13//30 2.88925 2.57142857 KEGLISQDGSSLEALLR 108 4//9 12//30 2.2945 2.07142857 TDPLEKR 130 //17 15//111 6.694 1.52941177 KEGLISQDGSSLEALLR 108 //17 7//86 1.3135 0.6 ILEPDDFLDDLDDEDYEEDTPKRR 178 //8 4//32 0.387 0.5 ILEPDDFLDDLDDEDYEEDTPKR 178 //7 5//19 0.39575 0.7 ILEPDDFLDDLDDEDYEEDTPKR 178 //7 6//19 0.38275 1 KVVDDLLDQITGGDHSR 438 4//10 13//37 3.49625 2.1875 KVVDDLLDQITGGDHSR 438 3//10 10//37 1.9715 1.375 TLFQLKQR 460 4//10 9//41 1.04375 1.0625 KCF 373 5//11 59//141 21.3975 4 KCF 373 10//14 50//132 20.42 3.725 CDVDIRKDLYANTVLSGGTTMYPGIADR 291 //9 7//40 3.162 1.33333333 CDVDIRKDLYANTVLSGGTTMYPGIADR 291 //9 8//40 3.27375 1.38888889 KDLYANTVLSGGTTMYPGIADR 291 3//10 13//48 4.651 2 CDVDIRKDLYANTVLSGGTTMYPGIADR 291 //9 8//50 2.8835 1.05555556 IKIIAPPER 328 5//17 36//143 11.34975 2.25 KDLYANTVLSGGTTMYPGIADR 291 3//10 11//60 2.533 1.25 EITALAPSTMKIKIIAPPER 328 2//17 19//137 9.14675 1.25 KDLYANTVLSGGTTMYPGIADR 291 3//9 10//40 3.581 1.77777778 KDLYANTVLSGGTTMYPGIADR 291 2//9 8//40 2.9835 1.05555556 IKIIAPPER 328 4//17 29//143 9.964 1.90909091 IKIIAPPER 328 //10 32//165 10.47525 1.62962963 KDLYANTVLSGGTTMYPGIADR 291 //10 6//48 2.93625 0.85 KDLYANTVLSGGTTMYPGIADR 291 //9 6//40 2.8475 0.94444444 IKIIAPPER 328 3//17 26//143 7.301 1.40909091 IKIIAPPER 328 3//17 20//144 7.2965 1.22727273 IKIIAPPER 328 1//17 18//144 5.9055 1.11363636 CDVDIRKDLYANTVLSGGTTMYPGIADR 291 //9 6//40 2.8195 0.94444444 KDLYANTVLSGGTTMYPGIADR 291 //9 6//40 2.845 0.94444444 IKIIAPPER 328 //10 19//229 2.9115 0.7037037 KDLYANTVLSGGTTMYPGIADR 291 //9 6//40 2.5485 0.94444444 KDLYANTVLSGGTTMYPGIADR 291 //9 6//40 1.99 0.88888889 KDLYANTVLSGGTTMYPGIADR 291 //9 5//40 1.6935 0.72222222 KDLYANTVLSGGTTMYPGIADR 291 4//18 26//94 6.90075 1.90625 KDLYANTVLSGGTTMYPGIADR 291 2//18 18//94 5.726 1.53125 CDVDIRKDLYANTVLSGGTTMYPGIADR 291 //18 14//121 3.99825 1.1875 CDVDIRKDLYANTVLSGGTTMYPGIADR 291 //18 16//121 4.28425 1.21875 KDLYANTVLSGGTTMYPGIADR 291 1//15 12//69 3.26775 1.03846154 CDVDIRKDLYANTVLSGGTTMYPGIADR 291 //15 7//88 1.3945 0.65384615 CDVDIRKDLYANTVLSGGTTMYPGIADR 291 //18 14//121 3.82325 1.1875 EITALAPSTMKIKIIAPPER 326 //17 12//137 4.396 0.68181818 EITALAPSTMKIK 326 1//10 22//166 7.61325 0.90740741 EITALAPSTMKIK 326 //10 16//166 6.53775 0.75925926 CDVDIRKDLYANTVLSGGTTMYPGIADR 291 //18 12//121 3.1745 1.0625 EITALAPSTMKIK 326 1//17 13//140 5.71675 0.77272727 peptide2 protein2 R.TDMYTK[1424.82]K.N Q8TAQ2:584 K.NVPSK[1151.58]SK[284.17]AAASATR.E Q8TAQ2:590 R.TDMYTK[1127.64]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.63]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.63]K[284.17]NVPSK.S Q8TAQ2:584 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.TK[1974.06]VER.D Q8TAQ2:848 K.SALEEFSKMK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[2865.49]VEEAAK.V Q8TAQ2:718 K.M[147.04]K[1039.57]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1990.08]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1974.05]EEVPTALVEAHVR.K Q8TAQ2:704 K.SK[1685.93]TPEIYLAYR.N Q92922:482 Q8TAQ2:457 R.RALPEFFNGK[1605.85]NK.S Q92922:478 Q8TAQ2:453 K.K[1127.63]NVPSK.S Q8TAQ2:585 R.GHREEEQEDLTK[1768.88]DM[147.04]DEPSPVPNVEEVTLPK.T Q8TAQ2:341 K.TVNTK[3712.78]KDSESAPVK.G Q8TAQ2:364 K.TVNTK[3712.78]KDSESAPVK.G Q8TAQ2:364 K.TVNTKK[3712.78]DSESAPVK.G Q8TAQ2:365 K.TVNTKK[3712.78]DSESAPVK.G Q8TAQ2:365 R.GHREEEQEDLTK[1768.96]DM[147.04]DEPSPVPNVEEVTLPK.T Q8TAQ2:341 K.TVNTKK[3712.78]DSESAPVK.G Q8TAQ2:365 K.TVNTKK[3712.78]DSESAPVK.G Q8TAQ2:365 K.TVNTKK[3712.78]DSESAPVK.G Q8TAQ2:365 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[1424.82]TKVER.D Q8TAQ2:846 R.K[284.17]VEEAAK[1025.64]VTGK.A Q8TAQ2:724 K.TK[1424.82]VER.D Q8TAQ2:848 K.LK[3304.77]DIIK.R Q92922:185 Q8TAQ2:157 R.K[1773.95]TKVER.D Q8TAQ2:846 R.K[1773.95]TKVER.D Q8TAQ2:846 R.VASAAAK[2865.49]SALEEFSK.M Q8TAQ2:694 K.TK[1773.95]VER.D Q8TAQ2:848 K.AK[1773.95]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[897.52]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.AK[897.52]HLAAVEER.K Q92922:882 Q8TAQ2:874 K.K[2804.42]DSESAPVK.G Q8TAQ2:365 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[1039.59]TKVER.D Q8TAQ2:846 R.KTK[1039.59]VER.D Q8TAQ2:848 R.K[1388.78]VEEAAK.V Q8TAQ2:718 K.GK[1901.92]EK[284.17]PTDMQNFGLR.T Q8TAQ2:566 K.GK[284.17]EK[1885.91]PTDM[147.04]QNFGLR.T Q8TAQ2:568 R.DK[2269.15]KGGNYK.K Q8TAQ2:291 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 K.EGQEEVLK[1516.83]EVVESEGERK.T Q8TAQ2:836 K.TK[2321.18]VERDIGEGNLSTAAAAALAAAAVK.A Q8TAQ2:848 K.EGQEEVLK[2763.51]EVVESEGERK.T Q8TAQ2:836 K.E[111.03]GQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 K.E[111.03]GQEEVLK[1025.61]EVVESEGER.K Q8TAQ2:836 R.K[2211.09]TKVER.D Q8TAQ2:846 R.K[2211.09]TKVER.D Q8TAQ2:846 K.K[1972.06]YIQAEPPTNK.S Q8TAQ2:37 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 K.TPQQTSASQQMLNFPDK[1682.84]GK.E Q8TAQ2:564 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 K.TPQQTSASQQM[147.04]LNFPDK[1700.85]GK.E Q8TAQ2:564 K.TPQQTSASQQMLNFPDK[1682.85]GK.E Q8TAQ2:564 K.TPQQTSASQQMLNFPDK[1682.84]GK.E Q8TAQ2:564 K.TPQQTSASQQMLNFPDK[1682.85]GK.E Q8TAQ2:564 K.TPQQTSASQQMLNFPDK[1716.85]GK.E Q8TAQ2:564 K.TPQQTSASQQM[147.04]LNFPDK[1700.82]GK.E Q8TAQ2:564 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 R.K[1127.63]TKVER.D Q8TAQ2:846 R.K[1127.63]TKVER.D Q8TAQ2:846 K.TK[1127.63]VER.D Q8TAQ2:848 R.DLK[2510.38]TMTDVVGNPEEER.R Q96GM5:464 R.K[2097.98]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3660.81]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.TATTQETDGFQVK[3196.77]RPGDVNVR.C Q96GM5:273 R.PIKQK[1350.79]R.K Q96GM5:179 R.PIK[1350.79]QK.R Q96GM5:177 R.PIK[1350.79]QKR.K Q96GM5:177 K.KMADK[1416.77]ILPQR.I Q96GM5:131 Q6STE5:106 K.K[968.59]GQASLYGK.R Q92922:346 K.K[284.17]GQASLYGK[812.51]R.R Q92922:354 K.NVNLK[3846.86]KDSENTPVK.G Q92922:392 K.NVNLKK[3846.86]DSENTPVK.G Q92922:393 K.NVNLKK[3846.86]DSENTPVK.G Q92922:393 R.K[1907.01]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 K.K[812.51]GQASLYGK.R Q92922:346 R.K[1216.68]ASANAR.K Q92922:317 R.RK[1253.68]DGGPATK.F Q92922:34 R.K[1038.57]ASANAR.K Q92922:317 R.K[1066.61]ASANAR.K Q92922:317 R.K[1066.61]ASANAR.K Q92922:317 R.K[1066.61]ASANAR.K Q92922:317 R.K[1253.68]ASANAR.K Q92922:317 R.K[3846.86]ASANAR.K Q92922:317 R.K[1244.69]ASANAR.K Q92922:317 R.K[1400.79]ASANAR.K Q92922:317 R.K[1400.79]ASANAR.K Q92922:317 R.K[2671.31]ASANAR.K Q92922:317 R.ESDTGK[2675.41]K.K Q92922:854 R.ESDTGK[2675.41]K.K Q92922:854 R.ESDTGK[2675.41]K.K Q92922:854 R.ESDTGK[2675.41]K.K Q92922:854 R.ESDTGK[2675.41]K.K Q92922:854 K.ERESDTGK[2675.41]K.K Q92922:854 R.VREEVPLELVEAHVK[2140.17]K.V Q92922:739 K.NVNLKK[3584.62]DSENTPVK.G Q92922:393 K.NVNLKK[3584.62]DSENTPVK.G Q92922:393 R.ESDTGK[1785.96]K.K Q92922:854 R.ESDTGKK[1785.96]K.V Q92922:855 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 K.K[1785.96]VQEAAR.A Q92922:740 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.VASAAAK[2675.41]AALEEFSR.V Q92922:716 R.K[3337.81]DGGPATK.F Q92922:34 R.DRK[1542.77]ASANAR.K Q92922:317 R.K[1542.77]ASANAR.K Q92922:317 K.K[1542.77]VQEAAR.A Q92922:740 R.SPQVPAAQQMLNFPEK[2388.27]NK.E Q92922:588 K.E[111.03]K[2292.19]PVDLQNFGLRTDIYSK.K Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.E[111.03]K[2292.2]PVDLQNFGLRTDIYSK.K Q92922:592 R.SPQVPAAQQMLNFPEK[2388.27]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 R.SPQVPAAQQMLNFPEK[1662.91]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 R.SPQVPAAQQMLNFPEK[2388.27]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.9]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 R.SPQVPAAQQMLNFPEK[1662.92]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.92]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.89]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.89]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.87]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.87]NKEK.P Q92922:588 R.SPQVPAAQQMLNFPEK[1662.89]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1680.91]NK.E Q92922:588 K.EK[2292.14]PVDLQNFGLRTDIYSK.K Q92922:592 R.SPQVPAAQQMLNFPEK[1662.91]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.9]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1680.91]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1680.91]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.9]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.87]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.88]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[2388.27]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1680.95]NK.E Q92922:588 K.E[111.03]K[2292.17]PVDLQNFGLRTDIYSK.K Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 R.SPQVPAAQQM[147.04]LNFPEK[1680.96]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.9]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.9]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.87]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 R.ASGK[1066.57]VDPTYGLESSC[160.03]IAGTGPDEPEKLEGAEEEK.M Q92922:750 R.ASGK[1066.56]VDPTYGLESSC[160.03]IAGTGPDEPEKLEGAEEEK.M Q92922:750 K.K[2675.41]VQEAAR.A Q92922:740 K.GGTVADLDEQDEETVTAGGK[1851.01]EDEDPAKGDQSR.S Q92922:421 K.NVNLK[3584.62]KDSENTPVK.G Q92922:392 R.TDIYSK[998.55]K[284.17]TLAK.S Q92922:608 K.TLAK[1119.63]SK[284.17]GASAGR.E Q92922:613 K.TLAK[1119.62]SK.G Q92922:613 R.TDIYSK[912.56]K.T Q92922:608 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.MSYEPNK[2538.2]DPYGSMR.K O14497:1230 R.SNSVGIQDAFNDGSDSTFQK[2762.24]R.N O14497:1201 R.SNSVGIQDAFNDGSDSTFQK[2762.24]R.N O14497:1201 R.SNSVGIQDAFNDGSDSTFQK[2762.24]R.N O14497:1201 R.K[2538.19]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 R.LEK[3673.85]LYSTMVR.F O14497:2146 K.DKPASENSEEK[1111.67]LISK.F O14497:1804 K.FDK[1940.01]LPVK.I O14497:1811 K.FDK[1940.01]LPVK.I O14497:1811 K.FDKLPVK[1940.01]IVQK.N O14497:1815 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.K[1939.83]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.K[1955.85]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.89]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.87]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.K[1955.86]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1939.83]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.K[1971.84]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.83]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.K[1955.87]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.82]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1955.88]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1939.94]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.K[1939.89]APGSDPFM[147.04]SSGQGPNGGMGDPYSR.A O14497:1238 R.K[1939.83]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 R.MSYEPNK[2762.24]DPYGSMR.K O14497:1230 R.K[1939.84]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 K.ESSK[1888.94]FPFGISPAQSHR.N O14497:1938 K.E[111.03]SSK[1888.96]FPFGISPAQSHR.N O14497:1938 K.ESSK[1888.96]FPFGISPAQSHR.N O14497:1938 K.E[111.03]SSK[1888.96]FPFGISPAQSHR.N O14497:1938 R.K[284.17]HVTTAEGTPGTTDQEGPPPDGPPEK[1786.06]R.I O14497:1905 K.LILLHHK[3064.51]HPERK.Q O14497:2020 R.K[1898.05]PLDLYR.L O14497:1047 R.K[1769.96]PLDLYR.L O14497:1047 R.K[1769.96]PLDLYR.L O14497:1047 R.K[1769.96]PLDLYR.L O14497:1047 R.K[1939.88]PLDLYR.L O14497:1047 R.K[1434.72]PLDLYR.L O14497:1047 R.K[2538.2]PLDLYR.L O14497:1047 R.K[2538.2]PLDLYR.L O14497:1047 R.K[2538.2]PLDLYR.L O14497:1047 K.K[2571.3]AEQQQR.E O14497:26 R.NIKILEDEPHSK[1504.76]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 R.NIKILEDEPHSK[1520.8]DETPLC[160.03]TLLDWQDSLAK.R O14497:1962 R.K[1038.51]APGSDPFMSSGQGPNGGMGDPYSR.A O14497:1238 K.YK[851.56]DSSSGR.Q P51532:1473 R.LK[1903.04]GGR.R P51532:1610 K.YK[1931.95]DSSSGR.Q P51532:1473 K.YK[1931.95]DSSSGR.Q P51532:1473 K.YK[1931.95]DSSSGR.Q P51532:1473 R.LK[1931.95]GGR.R P51532:1610 R.K[1931.95]ELPEYYELIR.K P51531:1434 P51532:1492 R.K[1931.95]ELPEYYELIR.K P51531:1434 P51532:1492 R.K[1931.95]PVDFK.K P51531:1445 P51532:1503 K.VSYK[1931.95]GSPAAR.R P51532:835 K.VSYK[1931.95]GSPAAR.R P51532:835 K.VSYK[1931.95]GSPAAR.R P51532:835 K.YK[2085.03]LNVDQK.V P51531:1191 P51532:1221 K.YK[2085.03]LNVDQK.V P51531:1191 P51532:1221 K.VSYK[939.54]GSPAAR.R P51532:835 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.AVATYHANTEREQK[1467.77]K.E P51532:516 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.ENERIEK[2011.05]ER.M P51532:524 K.LIDQK[2011.05]K.D P51531:521 P51532:545 R.EQK[1009.62]KENER.I P51532:516 R.IRNHK[2081.16]YR.S P51531:1460 P51532:1518 R.GRPPAEK[1295.7]LSPNPPNLTK.K P51532:1450 R.LK[1903.04]GGR.R P51532:1610 K.KK[2736.37]IPDPDSDDVSEVDAR.H P51532:689 K.KK[2736.37]IPDPDSDDVSEVDAR.H P51532:689 R.LM[147.04]AEDEEGYRK[811.49]LIDQK.K P51531:516 P51532:540 R.LMAEDEEGYRK[967.57]LIDQK.K P51531:516 P51532:540 R.LMAEDEEGYRK[811.5]LIDQK.K P51531:516 P51532:540 K.K[2203.12]DKR.L P51532:546 R.LMAEDEEGYRK[811.49]LIDQK.K P51531:516 P51532:540 K.EK[752.51]AQDRLK.G P51532:1604 R.K[752.51]EK[284.17]AQDR.L P51532:1602 R.YNQMK[2040.09]GMGMR.S P51532:94 K.KK[1009.61]IPDPDSDDVSEVDAR.H P51532:689 R.K[982.53]PVDFKK.I P51531:1445 P51532:1503 R.K[1251.72]PVDFK.K P51531:1445 P51532:1503 K.K[998.58]IK[284.17]ER.I P51531:1451 P51532:1509 K.YLRLDGTTK[1931.95]AEDR.G P51532:1131 R.LDGTTK[1931.95]AEDR.G P51532:1131 K.YLRLDGTTK[1931.95]AEDR.G P51532:1131 R.LDGTTK[1931.95]AEDR.G P51532:1131 R.LDGTTK[1931.95]AEDRGMLLK.T P51532:1131 R.LDGTTK[1931.95]AEDR.G P51532:1131 R.LDGTTK[1931.95]AEDRGMLLK.T P51532:1131 R.LDGTTK[1931.95]AEDR.G P51532:1131 R.LDGTTK[1971.99]AEDR.G P51532:1131 K.K[1802.95]SSR.K P51532:1408 K.K[1913.03]SSR.K P51532:1408 K.K[1913.03]SSR.K P51532:1408 K.K[1913.03]SSR.K P51532:1408 K.VSYK[1370.7]GSPAAR.R P51532:835 K.VSYK[1802.95]GSPAAR.R P51532:835 K.VSYK[1370.7]GSPAAR.R P51532:835 K.QQK[1125.66]IEQER.K P51531:437 P51532:461 R.ITEK[1323.71]LEK.Q P51532:455 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 R.LTC[160.03]EEEEEK[2682.31]MFGR.G P51532:1365 K.AQDRLK[995.61]GGR.R P51532:1610 R.K[795.49]EK[284.17]AQDR.L P51532:1602 R.K[795.48]EK[284.17]AQDR.L P51532:1602 R.SVTGK[1839.98]IQK.L P51532:496 K.LTK[1125.69]AVATYHANTEREQK.K P51532:502 K.VK[284.17]IK[1139.63]LGR.K P51532:1598 K.VK[284.17]IK[1139.63]LGR.K P51532:1598 R.K[851.55]EK[284.17]AQDR.L P51532:1602 R.K[851.55]EKAQDR.L P51532:1602 R.K[851.56]EKAQDR.L P51532:1602 R.K[851.56]EK[284.17]AQDR.L P51532:1602 K.IK[1139.63]LGR.K P51532:1598 K.IK[1139.63]LGR.K P51532:1598 R.K[851.54]EKAQDR.L P51532:1602 K.VK[284.17]IK[795.5]LGR.K P51532:1598 K.K[1300.71]SSR.K P51532:1408 K.K[982.51]IK[284.17]ER.I P51531:1451 P51532:1509 R.IRNHK[795.5]YR.S P51531:1460 P51532:1518 K.EK[1251.72]AQDR.L P51532:1604 K.VSYK[2736.37]GSPAAR.R P51532:835 R.GFK[1370.7]YLR.L P51532:1122 R.GFK[1931.95]YLR.L P51532:1122 K.VSYK[795.49]GSPAAR.R P51532:835 R.LK[1300.71]GGR.R P51532:1610 K.VSYK[2011.1]GSPAAR.R P51532:835 R.ASGK[1004.66]FELLDR.I P51531:1051 P51532:1081 R.K[2085.03]RDSDAGSSTPTTSTR.S P51532:1414 K.K[2085.03]SSR.K P51532:1408 K.VSYK[2085.03]GSPAAR.R P51532:835 R.DDGSTLMEIDGDK[2747.39]GKQGGPTYYIDTNALR.V O96019:60 R.DDGSTLMEIDGDK[2747.39]GKQGGPTYYIDTNALR.V O96019:60 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.DDGSTLM[147.04]EIDGDKGK[2747.43]QGGPTYYIDTNALR.V O96019:62 R.DDGSTLM[147.04]EIDGDKGK[2747.31]QGGPTYYIDTNALR.V O96019:62 R.DDGSTLM[147.04]EIDGDKGK[2747.32]QGGPTYYIDTNALR.V O96019:62 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 K.GK[4123.91]QGGPTYYIDTNALR.V O96019:62 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.DDGSTLM[147.04]EIDGDK[2747.27]GKQGGPTYYIDTNALR.V O96019:60 R.DDGSTLM[147.04]EIDGDK[2747.38]GKQGGPTYYIDTNALR.V O96019:60 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.DDGSTLMEIDGDK[2747.39]GKQGGPTYYIDTNALR.V O96019:60 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.DDGSTLMEIDGDK[2747.3]GKQGGPTYYIDTNALR.V O96019:60 R.DDGSTLMEIDGDK[2747.31]GKQGGPTYYIDTNALR.V O96019:60 R.AGYAGEDC[160.03]PK[3395.62]VDFPTAIGMVVER.D O96019:34 R.DDGSTLM[147.04]EIDGDK[2747.32]GKQGGPTYYIDTNALR.V O96019:60 R.DDGSTLM[147.04]EIDGDK[2747.33]GKQGGPTYYIDTNALR.V O96019:60 K.E[111.03]AVREGSPANWK[1363.82]R.K O96019:238 R.K[1764.93]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1291.67]EKLPQVTR.S O96019:240 R.K[1291.66]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 K.E[111.03]AVREGSPANWK[1519.89]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1291.67]EK[284.17]LPQVTR.S O96019:240 R.K[1291.67]EKLPQVTR.S O96019:240 K.EAVREGSPANWK[1519.89]R.K O96019:238 R.K[1309.68]EK[284.17]LPQVTR.S O96019:240 R.K[1309.68]EKLPQVTR.S O96019:240 R.K[1291.66]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 K.E[111.03]AVREGSPANWK[1363.81]R.K O96019:238 K.EAVREGSPANWK[1519.89]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 K.EAVREGSPANWK[1363.78]R.K O96019:238 R.K[1309.66]EKLPQVTR.S O96019:240 K.E[111.03]AVREGSPANWK[1519.9]R.K O96019:238 R.K[1764.93]EKLPQVTR.S O96019:240 R.K[1291.63]EKLPQVTR.S O96019:240 R.K[284.17]EK[1309.67]LPQVTR.S O96019:242 R.KEK[1291.67]LPQVTR.S O96019:242 R.KEK[1764.93]LPQVTR.S O96019:242 K.EK[1764.93]LPQVTR.S O96019:242 R.KEK[1291.68]LPQVTR.S O96019:242 R.EK[1859.81]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.88]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.82]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.EK[1859.81]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.ELFQEMNIELVPPYMIASK[1519.89]EAVR.E O96019:226 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.E[111.03]LFQEMNIELVPPYMIASK[1363.83]EAVR.E O96019:226 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.ELSQK[1636.95]TPPSMR.L O96019:371 R.ELSQK[1793.05]TPPSMR.L O96019:371 K.YK[988.56]AVSISTEPPTYLR.E Q12824:108 K.TTWAIK[284.17]HAASNPSK[2038.09]K.Y Q9BUJ2:448 K.HAASNPSK[2038.08]K.Y Q9BUJ2:448 K.HAASNPSK[2038.08]K.Y Q9BUJ2:448 K.HAASNPSK[2038.08]K.Y Q9BUJ2:448 K.K[1038.6]RNYILDQTNVYGSAQR.R Q9BUJ2:499 K.INEEISVK[2287.17]HLPSTEPDPHVVR.I Q9BUJ2:270 K.NGK[2661.41]WMGIAFR.I Q9BUJ2:350 K.NGK[2661.41]WMGIAFR.I Q9BUJ2:350 K.K[2661.41]STNSR.F Q9BUJ2:310 K.INEEISVK[957.49]HLPSTEPDPHVVR.I Q9BUJ2:270 K.K[2661.41]STNSR.F Q9BUJ2:310 K.INEEISVK[2741.29]HLPSTEPDPHVVR.I Q9BUJ2:270 R.Q[111.03]NQFYDTQVIK[1356.75]QENESGYER.R Q9BUJ2:117 R.Q[111.03]NQFYDTQVIK[2632.24]QENESGYERR.P Q9BUJ2:117 R.K[1909.98]AGPPPEKR.F Q9BUJ2:600 K.HAASNPSK[1905.02]K[284.17]YNILGTNAIMDK.M Q9BUJ2:448 K.TTWAIK[1745.92]HAASNPSK.K Q9BUJ2:440 R.GLK[1792.02]AELAER.L Q9BUJ2:26 R.GLK[1792.02]AELAER.L Q9BUJ2:26 R.GLK[1792.02]AELAER.L Q9BUJ2:26 K.K[1356.71]STNSR.F Q9BUJ2:310 K.K[1356.71]STNSR.F Q9BUJ2:310 R.GTVGPK[1356.71]SK.A Q9BUJ2:416 R.K[2661.41]RPYEENR.G Q9BUJ2:172 R.K[2661.41]RPYEENR.G Q9BUJ2:172 R.K[696.47]RPYEENR.G Q9BUJ2:172 R.TPTTQETDGFQVK[3087.76]RPGDLSVR.C Q6STE5:241 R.TPTTQETDGFQVK[3261.58]RPGDLSVR.C Q6STE5:241 R.TPTTQETDGFQVK[3261.58]RPGDLSVR.C Q6STE5:241 K.ETERIEK[1137.71]ER.M P51531:500 K.LIDQK[939.54]KDR.R P51531:521 R.LM[147.04]AEDEEGYRK[839.49]LIDQK.K P51531:516 P51532:540 K.K[1197.67]VMATIEK.V Q8WUZ0:20 R.AK[1184.68]DDIK.K Q8WUZ0:15 K.K[954.53]VMATIEK.V Q8WUZ0:20 R.AKDDIK[1311.76]K.V Q8WUZ0:19 K.IVK[1522.87]KNNLFVVDR.S Q8NFD5:1780 K.IVK[1522.87]K[284.17]NNLFVVDR.S Q8NFD5:1780 K.IVK[1539.89]K[284.17]NNLFVVDR.S Q8NFD5:1780 K.K[1465.93]NNLFVVDR.S Q8NFD5:1781 K.K[1465.93]NNLFVVDR.S Q8NFD5:1781 R.NIK[1519.84]LLEDEPR.S Q8NFD5:1904 R.NIK[1519.84]LLEDEPR.S Q8NFD5:1904 R.NIK[1519.84]LLEDEPR.S Q8NFD5:1904 R.MPYEPNK[2560.24]DPFGGMR.K Q8NFD5:1266 R.MPYEPNK[2560.24]DPFGGMR.K Q8NFD5:1266 R.MPYEPNK[2560.24]DPFGGMR.K Q8NFD5:1266 R.MPYEPNK[2239.14]DPFGGMR.K Q8NFD5:1266 R.MPYEPNK[2239.14]DPFGGMR.K Q8NFD5:1266 R.MPYEPNK[4558.02]DPFGGMR.K Q8NFD5:1266 R.MPYEPNK[4558.02]DPFGGMR.K Q8NFD5:1266 R.MPTTQETDGFQVK[2823.37]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[2823.37]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[2845.49]R.P Q92925:289 R.MPTTQETDGFQVK[2845.49]R.P Q92925:289 R.MPTTQETDGFQVK[2845.49]R.P Q92925:289 R.MPTTQETDGFQVK[2845.49]R.P Q92925:289 R.MPTTQETDGFQVK[3001.59]R.P Q92925:289 R.MPTTQETDGFQVK[3001.59]R.P Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[3219.56]RPGDLNVK.C Q92925:289 R.IYISNTFSPSK[2626.4]AEGDSAGTAGTPGGTPAGDK[284.17]VASWELR.V Q92925:206 R.MPTTQETDGFQVK[3219.56]RPGDLNVK.C Q92925:289 R.MPTTQETDGFQVK[4061]RPGDLNVK.C Q92925:289 K.LAGLLQHPDPIVINHVISVDPNDQK[3219.56]K.T Q92925:401 K.LAGLLQHPDPIVINHVISVDPNDQK[3219.56]K.T Q92925:401 K.PLTQK[1510.85]R.K Q92925:191 K.PLTQK[1354.75]R.K Q92925:191 K.KPLTQK[1354.75]R.K Q92925:191 R.VEGK[3125.72]LLDDPSK.Q Q92925:237 Q6STE5:189 R.VEGK[3125.72]LLDDPSK.Q Q92925:237 Q6STE5:189 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 R.LC[160.03]GLK[1964.98]VEVDMEK.I Q969G3:277 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 R.LC[160.03]GLK[1964.96]VEVDM[147.04]EKIAAEIAQAEEQAR.K Q969G3:277 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 R.LC[160.03]GLK[1964.98]VEVDM[147.04]EKIAAEIAQAEEQAR.K Q969G3:277 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 K.FLESTDSFNNELK[3066.57]R.L Q969G3:271 R.LC[160.03]GLK[2093.08]VEVDMEK.I Q969G3:277 K.VWDQVKASNPDLK[1407.66]LWEIGK.I Q969G3:92 K.K[2961.44]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.INKK[2961.44]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 R.GK[996.57]GK[284.17]SK.G Q92785:182 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.K[2646.31]TGQPEELVSC[160.03]SDC[160.03]GR.S Q92785:285 K.EK[2443.18]ASIYQNQNSS. Q92785:381 R.SEEQK[2961.44]SKK.G Q92785:258 R.SEEQK[2961.44]SKK.G Q92785:258 R.SEEQK[2606.21]SK.K Q92785:258 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 R.SEEQK[2606.21]SK.K Q92785:258 K.K[1100.56]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 K.K[1100.57]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 K.K[1100.56]GPDGLALPNNYC[160.03]DFC[160.03]LGDSK.I Q92785:261 K.GK[1123.62]GVGSAR.K Q92785:188 R.TDPLEK[2081.14]R.G Q92785:130 R.TDPLEK[2081.14]R.G Q92785:130 K.K[1123.62]EGLISQDGSSLEALLR.T Q92785:108 R.LSFPSIK[2081.14]PDTDQTLK.K Q92785:99 K.GK[3218.48]GVGSAR.K Q92785:188 R.RGK[3062.38]GK.S Q92785:182 R.RGK[3062.38]GK.S Q92785:182 R.TLFQLK[2133.11]QR.R Q9H8M2:460 R.TLFQLK[2133.11]QR.R Q9H8M2:460 K.DAGSYSK[1298.77]K.V Q9H8M2:437 R.VAPEEHPVLLTEAPLNPK[719.36]ANREK.M P60709:113 R.VAPEEHPVLLTEAPLNPK[719.37]ANR.E P60709:113 K.IK[3366.66]IIAPPER.K P60709:328 K.IK[3366.66]IIAPPER.K P60709:328 K.IK[2608.32]IIAPPERK.Y P60709:328 K.IK[3366.66]IIAPPER.K P60709:328 R.K[1301.81]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 K.IK[2608.32]IIAPPERK.Y P60709:328 R.K[2598.47]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.IK[2608.32]IIAPPER.K P60709:328 K.IK[2608.32]IIAPPER.K P60709:328 R.K[1301.81]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 K.C[160.03]DVDIRK[1301.78]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 K.IK[2608.32]IIAPPERK.Y P60709:328 K.IK[2608.32]IIAPPER.K P60709:328 R.K[1301.82]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.74]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1301.76]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.IK[3366.66]IIAPPER.K P60709:328 K.IK[2608.32]IIAPPER.K P60709:328 K.C[160.03]DVDIRK[1301.78]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 K.IK[2608.32]IIAPPER.K P60709:328 K.IK[2608.32]IIAPPER.K P60709:328 K.IK[2608.32]IIAPPER.K P60709:328 R.MQKEITALAPSTMK[2608.32]IK.I P60709:326 R.MQKEITALAPSTMK[2608.32]IK.I P60709:326 R.MQKEITALAPSTMK[3366.66]IK.I P60709:326 R.MQKEITALAPSTMK[3366.66]IK.I P60709:326 K.EITALAPSTMK[2608.32]IK.I P60709:326 K.EITALAPSTMK[3366.66]IK.I P60709:326 R.MQKEITALAPSTMK[3366.66]IK.I P60709:326 R.K[2598.46]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.C[160.03]DVDIRK[1649.92]DLYANTVLSGGTTMYPGIADR.M P60709:291 K.C[160.03]DVDIRK[1649.91]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.MQKEITALAPSTMK[3366.66]IK.I P60709:326 R.K[1665.93]DLYANTVLSGGTTMYPGIADR.M P60709:291 Unique_(—) protein2 subunit2 realpep2 position2 1 SMARCC2 TDMYTKK 584 1 SMARCC2 NVPSKSKAAASATR 590 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 TKVER 848 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 SKTPEIYLAYR 457 2 SMARCC2 RALPEFFNGKNK 453 1 SMARCC2 KNVPSK 585 1 SMARCC2 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1 SMARCC2 TVNTKKDSESAPVK 364 1 SMARCC2 TVNTKKDSESAPVK 364 1 SMARCC2 TVNTKKDSESAPVK 365 1 SMARCC2 TVNTKKDSESAPVK 365 1 SMARCC2 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1 SMARCC2 TVNTKKDSESAPVK 365 1 SMARCC2 TVNTKKDSESAPVK 365 1 SMARCC2 TVNTKKDSESAPVK 365 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 TKVER 848 2 SMARCC2 LKDIIK 157 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 TKVER 848 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 KDSESAPVK 365 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 848 1 SMARCC2 KVEEAAK 718 1 SMARCC2 GKEKPTDMQNFGLR 566 1 SMARCC2 GKEKPTDMQNFGLR 568 1 SMARCC2 DKKGGNYK 291 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 EGQEEVLKEVVESEGERK 836 1 SMARCC2 TKVERDIGEGNLSTAAAAALAAAAVK 848 1 SMARCC2 EGQEEVLKEVVESEGERK 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KYIQAEPPTNK 37 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 TKVER 848 1 SMARCD1 DLKTMTDVVGNPEEER 464 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 PIKQKR 179 1 SMARCD1 PIKQK 177 1 SMARCD1 PIKQKR 177 2 SMARCD1 KMADKILPQR 131 1 SMARCC1 KGQASLYGK 346 1 SMARCC1 KGQASLYGKR 354 1 SMARCC1 NVNLKKDSENTPVK 392 1 SMARCC1 NVNLKKDSENTPVK 393 1 SMARCC1 NVNLKKDSENTPVK 393 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KGQASLYGK 346 1 SMARCC1 KASANAR 317 1 SMARCC1 RKDGGPATK 34 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 ESDTGKK 854 1 SMARCC1 ESDTGKK 854 1 SMARCC1 ESDTGKK 854 1 SMARCC1 ESDTGKK 854 1 SMARCC1 ESDTGKK 854 1 SMARCC1 ERESDTGKK 854 1 SMARCC1 VREEVPLELVEAHVKK 739 1 SMARCC1 NVNLKKDSENTPVK 393 1 SMARCC1 NVNLKKDSENTPVK 393 1 SMARCC1 ESDTGKK 854 1 SMARCC1 ESDTGKKK 855 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KVQEAAR 740 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KDGGPATK 34 1 SMARCC1 DRKASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KVQEAAR 740 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLRTDIYSK 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLRTDIYSK 592 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNKEK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLRTDIYSK 592 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLRTDIYSK 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 ASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEK 750 1 SMARCC1 ASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEK 750 1 SMARCC1 KVQEAAR 740 1 SMARCC1 GGTVADLDEQDEETVTAGGKEDEDPAKGDQSR 421 1 SMARCC1 NVNLKKDSENTPVK 392 1 SMARCC1 TDIYSKKTLAK 608 1 SMARCC1 TLAKSKGASAGR 613 1 SMARCC1 TLAKSK 613 1 SMARCC1 TDIYSKK 608 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A SNSVGIQDAFNDGSDSTFQKR 1201 1 ARID1A SNSVGIQDAFNDGSDSTFQKR 1201 1 ARID1A SNSVGIQDAFNDGSDSTFQKR 1201 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A LEKLYSTMVR 2146 1 ARID1A DKPASENSEEKLISK 1804 1 ARID1A FDKLPVK 1811 1 ARID1A FDKLPVK 1811 1 ARID1A FDKLPVKIVQK 1815 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A MSYEPNKDPYGSMR 1230 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A ESSKFPFGISPAQSHR 1938 1 ARID1A KHVTTAEGTPGTTDQEGPPPDGPPEKR 1905 1 ARID1A LILLHHKHPERK 2020 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KPLDLYR 1047 1 ARID1A KAEQQQR 26 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 1 ARID1A NIKILEDEPHSKDETPLCTLLDWQDSLAK 1962 1 ARID1A KAPGSDPFMSSGQGPNGGMGDPYSR 1238 1 SMARCA4 YKDSSSGR 1473 1 SMARCA4 LKGGR 1610 1 SMARCA4 YKDSSSGR 1473 1 SMARCA4 YKDSSSGR 1473 1 SMARCA4 YKDSSSGR 1473 1 SMARCA4 LKGGR 1610 2 SMARCA4 KELPEYYELIR 1492 2 SMARCA4 KELPEYYELIR 1492 2 SMARCA4 KPVDFK 1503 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 2 SMARCA4 YKLNVDQK 1221 2 SMARCA4 YKLNVDQK 1221 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 AVATYHANTEREQKK 516 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 1 SMARCA4 ENERIEKER 524 2 SMARCA4 LIDQKK 545 1 SMARCA4 EQKKENER 516 2 SMARCA4 IRNHKYR 1518 1 SMARCA4 GRPPAEKLSPNPPNLTK 1450 1 SMARCA4 LKGGR 1610 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 2 SMARCA4 LMAEDEEGYRKLIDQK 540 2 SMARCA4 LMAEDEEGYRKLIDQK 540 2 SMARCA4 LMAEDEEGYRKLIDQK 540 1 SMARCA4 KDKR 546 2 SMARCA4 LMAEDEEGYRKLIDQK 540 1 SMARCA4 EKAQDRLK 1604 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 YNQMKGMGMR 94 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 2 SMARCA4 KPVDFKK 1503 2 SMARCA4 KPVDFK 1503 2 SMARCA4 KIKER 1509 1 SMARCA4 YLRLDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 YLRLDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDRGMLLK 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDRGMLLK 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 LDGTTKAEDR 1131 1 SMARCA4 KSSR 1408 1 SMARCA4 KSSR 1408 1 SMARCA4 KSSR 1408 1 SMARCA4 KSSR 1408 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 2 SMARCA4 QQKIEQER 461 1 SMARCA4 ITEKLEK 455 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 AQDRLKGGR 1610 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 SVTGKIQK 496 1 SMARCA4 LTKAVATYHANTEREQK 502 1 SMARCA4 VKIKLGR 1598 1 SMARCA4 VKIKLGR 1598 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 IKLGR 1598 1 SMARCA4 IKLGR 1598 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 VKIKLGR 1598 1 SMARCA4 KSSR 1408 2 SMARCA4 KIKER 1509 2 SMARCA4 IRNHKYR 1518 1 SMARCA4 EKAQDR 1604 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 LKGGR 1610 1 SMARCA4 VSYKGSPAAR 835 2 SMARCA4 ASGKFELLDR 1081 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 KSSR 1408 1 SMARCA4 VSYKGSPAAR 835 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 62 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A GKQGGPTYYIDTNALR 62 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 1 ACTL6A AGYAGEDCPKVDFPTAIGMVVER 34 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 1 ACTL6A DDGSTLMEIDGDKGKQGGPTYYIDTNALR 60 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A ELFQEMNIELVPPYMIASKEAVR 226 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A ELFQEMNIELVPPYMIASKEAVR 226 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A ELSQKTPPSMR 371 1 ACTL6A ELSQKTPPSMR 371 1 SMARCB1 YKAVSISTEPPTYLR 108 1 HNRL1 TTWAIKHAASNPSKK 448 1 HNRL1 HAASNPSKK 448 1 HNRL1 HAASNPSKK 448 1 HNRL1 HAASNPSKK 448 1 HNRL1 KRNYILDQTNVYGSAQR 499 1 HNRL1 INEEISVKHLPSTEPDPHVVR 270 1 HNRL1 NGKWMGIAFR 350 1 HNRL1 NGKWMGIAFR 350 1 HNRL1 KSTNSR 310 1 HNRL1 INEEISVKHLPSTEPDPHVVR 270 1 HNRL1 KSTNSR 310 1 HNRL1 INEEISVKHLPSTEPDPHVVR 270 1 HNRL1 QNQFYDTQVIKQENESGYER 117 1 HNRL1 QNQFYDTQVIKQENESGYERR 117 1 HNRL1 KAGPPPEKR 600 1 HNRL1 HAASNPSKKYNILGTNAIMDK 448 1 HNRL1 TTWAIKHAASNPSK 440 1 HNRL1 GLKAELAER 26 1 HNRL1 GLKAELAER 26 1 HNRL1 GLKAELAER 26 1 HNRL1 KSTNSR 310 1 HNRL1 KSTNSR 310 1 HNRL1 GTVGPKSK 416 1 HNRL1 KRPYEENR 172 1 HNRL1 KRPYEENR 172 1 HNRL1 KRPYEENR 172 1 SMARCD3 TPTTQETDGFQVKRPGDLSVR 241 1 SMARCD3 TPTTQETDGFQVKRPGDLSVR 241 1 SMARCD3 TPTTQETDGFQVKRPGDLSVR 241 1 SMARCA2 ETERIEKER 500 1 SMARCA2 LIDQKKDR 521 2 SMARCA2 LMAEDEEGYRKLIDQK 516 1 BCL7C KVMATIEK 20 1 BCL7C AKDDIK 15 1 BCL7C KVMATIEK 20 1 BCL7C AKDDIKK 19 1 ARID1B IVKKNNLFVVDR 1780 1 ARID1B IVKKNNLFVVDR 1780 1 ARID1B IVKKNNLFVVDR 1780 1 ARID1B KNNLFVVDR 1781 1 ARID1B KNNLFVVDR 1781 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 1 ARID1B NIKLLEDEPR 1904 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B MPYEPNKDPFGGMR 1266 1 ARID1B MPYEPNKDPFGGMR 1266 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 MPTTQETDGFQVKR 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 IYISNTFSPSKAEGDSAGTAGTPGGTPAGDKVASWELR 206 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 MPTTQETDGFQVKRPGDLNVK 289 1 SMARCD2 LAGLLQHPDPIVINHVISVDPNDQKK 401 1 SMARCD2 LAGLLQHPDPIVINHVISVDPNDQKK 401 1 SMARCD2 PLTQKR 191 1 SMARCD2 PLTQKR 191 1 SMARCD2 KPLTQKR 191 2 SMARCD2 VEGKLLDDPSK 237 2 SMARCD2 VEGKLLDDPSK 237 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEKIAAEIAQAEEQAR 277 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCE1 VWDQVKASNPDLKLWEIGK 92 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 INKKTGQPEELVSCSDCGR 285 1 DPF2 GKGKSK 182 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 KTGQPEELVSCSDCGR 285 1 DPF2 EKASIYQNQNSS 381 1 DPF2 SEEQKSKK 258 1 DPF2 SEEQKSKK 258 1 DPF2 SEEQKSK 258 1 DPF2 KGPDGLALPNNYCDFCLGDSK 261 1 DPF2 SEEQKSK 258 1 DPF2 KGPDGLALPNNYCDFCLGDSK 261 1 DPF2 KGPDGLALPNNYCDFCLGDSK 261 1 DPF2 KGPDGLALPNNYCDFCLGDSK 261 1 DPF2 GKGVGSAR 188 1 DPF2 TDPLEKR 130 1 DPF2 TDPLEKR 130 1 DPF2 KEGLISQDGSSLEALLR 108 1 DPF2 LSFPSIKPDTDQTLK 99 1 DPF2 GKGVGSAR 188 1 DPF2 RGKGK 182 1 DPF2 RGKGK 182 1 BRD9 TLFQLKQR 460 1 BRD9 TLFQLKQR 460 1 BRD9 DAGSYSKK 437 1 ACTB VAPEEHPVLLTEAPLNPKANREK 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB IKIIAPPER 328 1 ACTB IKIIAPPER 328 1 ACTB IKIIAPPERK 328 1 ACTB IKIIAPPER 328 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB IKIIAPPERK 328 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB IKIIAPPER 328 1 ACTB IKIIAPPER 328 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB CDVDIRKDLYANTVLSGGTTMYPGIADR 291 1 ACTB IKIIAPPERK 328 1 ACTB IKIIAPPER 328 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB IKIIAPPER 328 1 ACTB IKIIAPPER 328 1 ACTB CDVDIRKDLYANTVLSGGTTMYPGIADR 291 1 ACTB IKIIAPPER 328 1 ACTB IKIIAPPER 328 1 ACTB IKIIAPPER 328 1 ACTB MQKEITALAPSTMKIK 326 1 ACTB MQKEITALAPSTMKIK 326 1 ACTB MQKEITALAPSTMKIK 326 1 ACTB MQKEITALAPSTMKIK 326 1 ACTB EITALAPSTMKIK 326 1 ACTB EITALAPSTMKIK 326 1 ACTB MQKEITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB CDVDIRKDLYANTVLSGGTTMYPGIADR 291 1 ACTB CDVDIRKDLYANTVLSGGTTMYPGIADR 291 1 ACTB MQKEITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291

TABLE 8 List of available 3D structures in PDB for mSWI/SNF complex subunit domains Protein Domain Organism Amino Acid Ranee PDB ID Chain PubMedID ACTB Actin Homo sapiens  2-375 3J82 B 25979418 ARID1A ARID Homo sapiens 1000-1119 1RYU A 14722072 BRD7 Bromo Domain Homo sapiens 129-236 2I7K A 17498659 BRD9 Bromo Domain Homo sapiens 134-239 4UIT A 25856009 DPF2 Zinc Finger 1 Homo sapiens 203-249 3IUF A 21888896 DPF2 Zinc Finger 2 Homo sapiens 270-391 5B79 A 27775714 PBRM1 Bromo Domain 6 Homo sapiens 773-914 3IU6 A 22464331 PBRM1 Bromo Domain 5 Homo sapiens 645-766 4Q0O A PBRM1 Bromo Domain 4 Homo sapiens 496-637 3TLP A 22464331 PBRM1 Bromo Domain 2 Homo sapiens 174-293 3LJW A 20368734 PBRM1 Bromo Domain 3 Homo sapiens 388-494 3K2J A PBRM1 Bromo Domain 1 Homo sapiens  43-154 3IU5 A 22464331 SMARCA2 Bromo Domain Homo sapiens 1377-1504 2DAT A SNF2 Bound ATPase Saccharomyces cerevisiae 666-140 5X0X O 28424519 SNF2 Unbound ATPase Thermothelomyces thermophila 5HZR A 27399259 SMARCA4 Bromo Domain Homo sapiens 1448-1575 2GRC A 17582821 SMARCA4 HAS Saccharomyces cerevisiae 575-667 4I6M C 23401505 SMARCB1 Winged Helix Homo sapiens  2-113 5AJ1 A 26073604 SMARCB1 SNF5/INI1 Homo sapiens 185-252 5L7A A SMARCB1 Repeat 1 Homo sapiens  47-250 5GJK B 28438634 SMARCC1 SWRIM Homo sapiens 447-526 5GJK A 28438634 SMARCC1 SANT Homo sapiens 610-675 2YUS A SMARCC2 SWIRM Saccharomyces cerevisiae 309-398 2FQ3 A 16461455 SMARCD1 SWIB Mus musculus 291-370 1UHR A

TABLE 9A S2 BAP60-HA Inter Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 3 Brm- Mor 2 Brm:735- 3.492 Mor:594 −1 0.58075178 CW090817_092017_(—) P 3.492 0.17921018 1.60E−02 //15 12//76 BAP60_70B.13771.13771.4 4 BRD7- Brm 1 BRD7:776- 4.878 Brm:151 −1 3.60100914 CW090817_092017_(—) N 4.878 0.15968835 2//17 15//85 BAP60_50B.17183.17183.4 −1 6.20237448 CW090817_092017_(—) N 4.46 0.14467602 1//17 13//85 BAP60_1ug.17962.17962.4 −2 4.98660046 CW090817_092017_(—) N 4.43675 0.13503005 2//17 14//85 BAP60_D.17707.17707.4 −1 6.63593406 CW090817_092017_(—) N 4.27775 0.15087469 1//17 13//85 BAP60_85B.16791.16791.4 −1 3.8177901 CW090817_092017_(—) N 4.197 0.1546312 1//17 12//85 BAP60_100B.16880.16880.4 −1 6.13011452 CW090817_092017_(—) N 4.18 0.14115184 2//17 13//85 BAP60_D.17742.17742.4 −1 7.06949326 CW090817_092017_(—) N 4.14575 0.15567092 1//17 12//85 BAP60_1ug.17785.17785.4 −1 7.93661052 CW090817_092017_(—) N 4.13025 0.13284391 1//17 12//85 BAP60_70B.16427.16427.4 −1 0.49380502 CW090817_092017_(—) N 4.0435 0.1434832 1//17 11//85 BAP60_D.17570.17570.4 −1 4.75717319 CW090817_092017_(—) N 4.03175 0.15427812 1//17 12//85 BAP60_1ug.18135.18135.4 −2 1.23017918 CW090817_092017_(—) N 3.721 0.12656032 1//17 12//85 BAP60_D.17993.17993.4 −2 2.02480912 CW090817_092017_(—) N 3.43275 0.11885225 1//17 11//85 BAP60_D.18218.18218.4 −2 2.59851 CW090817_092017_(—) N 3.3545 0.11670871 1//17 11//85 BAP60_1ug.18235.18235.4 −2 2.3095513 CW090817_092017_(—) N 3.23625 0.11238345 1//17 11//85 BAP60_D.18159.18159.4 7 Bap55- Brm 1 Bap55:375- 5.988 Brm:525 −1 7.87561672 CW090817_092017_(—) N 5.988 0.36584695 //17 13//122 BAP60_85B.18645.18645.5 −2 11.5330008 CW090817_092017_(—) N 5.2445 0.28702386 //17 16//122 BAP60_85B.18697.18697.5 9 Mor- Snr1 1 Mor:481- 8.016 Snr1:167 −3 4.48516013 CW090817_092017_(—) P 8.016 0.22387309 5.82E−03 //9 18//170 BAP60_50B.20737.20737.4 10 Mor- Polybromo 1 Mor:479- 3.6375 Polybromo:434 0 0.12580825 CW090817_092017_(—) N 3.6375 0.21374427 //13 6//64 BAP60_85B.20759.20759.4 16 Bap60- Brm 2 Bap60:175- 6.4935 Brm:735 0 −5.7330735 CW090817_092017_(—) NP 6.4935 0.35759128 4.06E−02 //11 11//48 BAP60_85B.11817.11817.4 0 −5.9152523 CW090817_092017_(—) NP 5.91825 0.35274922 2.00E−02 //11 13//48 BAP60_85B.11364.11364.4 3 Bap60:175- 3.50825 Brm:557 0 −0.4564267 CW090817_092017_(—) P 3.50825 0.22386893 4.07E−02 //11 10//45 BAP60_85B.09050.09050.4 17 Bap60- Snr1 1 Bap60:104- 3.982 Snr1:143 0 0.41156312 CW090817_092017_(—) P 3.982 0.26008295 3.52E−06 //19 11//99 BAP60_85B.04264.04264.4 2 Bap60:104- 6.33975 Snr1:349 0 −3.0714842 CW090817_092017_(—) P 6.33975 0.51803808 2.62E−02 //19 14//97 BAP60_85B.04845.04845.4 0 −1.8231923 CW090817_092017_(—) P 6.1435 0.33250345 2.41E−03 //19 15//119 BAP60_85B.04856.04856.5 0 6.65233501 CW090817_092017_(—) P 5.701 0.4827265 1.56E−02 //19 13//97 BAP60_85B.04922.04922.4 18 Bap60- Osa 1 Bap60:158- 5.5235 Osa:2365 −1 8.46305909 CW090817_092017_(—) N 5.5235 0.2354684 //12 13//55 BAP60_50B.15680.15680.4 19 Bap60- Mor 1 Bap60:435- 7.82275 Mor:973 0 3.54913565 CW090817_092017_(—) N 7.82275 0.43092241 //16 7//112 BAP60_D.18137.18137.5 2 Bap60:435- 7.87325 Mor:971 0 1.02559778 CW090817_092017_(—) N 7.87325 0.45360661 //16 8//112 BAP60_100B.17323.17323.5 −2 5.10281051 CW090817_092017_(—) N 6.6105 0.3945154 //16 9//112 BAP60_100B.17282.17282.5 3 Bap60:435- 11.0335 Mor:639 0 1.34335623 CW090817_092017_(—) N 11.0335 0.44550997 4//16 26//118 BAP60_70B.07794.07794.5 4 Bap60:328- 8.856 Mor:1028 0 1.50631703 CW090817_092017_(—) N 8.856 0.42792945 //15 18//96 BAP60_100B.14890.14890.5 0 1.9002728 CW090817_092017_(—) N 8.6125 0.39419182 //15 17//96 BAP60_D.15745.15745.5 −1 1.14139744 CW090817_092017_(—) N 8.436 0.46291876 //15 13//74 BAP60_100B.14900.14900.6 −1 0.66880168 CW090817_092017_(—) N 8.22 0.44449251 //15 15//74 BAP60_D.15777.15777.6 0 1.52172793 CW090817_092017_(—) N 7.50425 0.39775528 //15 12//74 BAP60_100B.14893.14893.6 −1 3.6225325 CW090817_092017_(—) N 7.50375 0.48528699 //15 11//74 BAP60_D.15807.15807.6 0 2.73301404 CW090817_092017_(—) N 7.40875 0.41637396 //15 12//74 BAP60_D.15774.15774.6 0 1.66932515 CW090817_092017_(—) N 7.322 0.33656631 //15 12//74 BAP60_100B.14975.14975.6 0 0.32444785 CW090817_092017_(—) N 6.86775 0.34683854 //15 12//96 BAP60_D.15854.15854.5 0 2.92141984 CW090817_092017_(—) N 5.773 0.33672606 //15 13//74 BAP60_100B.14970.14970.4 0 0.22870151 CW090817_092017_(—) NP 5.5765 0.30186483 8.36E−09 //16 10//103 BAP60_D.14109.14109.6 −1 1.17220938 CW090817_092017_(—) N 5.5165 0.31195747 //15 13//74 BAP60_D.15771.15771.4 0 4.75830297 CW090817_092017_(—) NP 5.35175 0.26934498 7.50E−11 //16 15//103 BAP60_D.14131.14131.5 0 4.93035136 CW090817_092017_(—) NP 5.101 0.26238362 1.20E−08 //16 11//103 BAP60_D.14096.14096.6 0 1.42796766 CW090817_092017_(—) NP 4.8785 0.24565688 1.14E−06 //16 12//103 BAP60_D.14099.14099.5 −1 1.17220938 CW090817_092017_(—) N 4.728 0.2794574 //15 11//74 BAP60_D.15773.15773.4 −1 7.63106326 CW090817_092017_(—) N 3.911 0.23627137 //15 11//74 BAP60_100B.15001.15001.4 −1 2.20045399 CW090817_092017_(—) N 3.76025 0.23491285 //15 11//96 BAP60_100B.15086.15086.5 −1 2.90506443 CW090817_092017_(—) N 3.73725 0.24192452 //15 9//74 BAP60_100B.14904.14904.4 0 5.43044998 CW090817_092017_(—) N 3.6895 0.23656707 //15 10//74 BAP60_D.15793.15793.4 5 Bap60:385- 4.5715 Mor:378 −61 9.92047371 CW090817_092017_(—) P 4.5715 0.36398742 4.73E−08 // 13//331 BAP60_D.22922.22922.6 −60 9.95926831 CW090817_092017_(—) P 3.29275 0.40035868 5.93E−05 // 6//331 BAP60_D.22912.22912.6 −61 4.68320191 CW090817_092017_(—) P 2.98375 0.23187364 3.62E−03 // 9//331 BAP60_D.22918.22918.6 7 Bap60:138- 6.104 Mor:962 0 1.28729727 CW090817_092017_(—) N 6.104 0.32725713 //10 11//64 BAP60_85B.11819.11819.5 0 1.69478143 CW090817_092017_(—) NP 5.72125 0.29302927 2.65E−01 //10 11//64 BAP60_85B.11649.11649.5 0 1.33613132 CW090817_092017_(—) NP 5.27625 0.30429078 4.43E−01 //10 11//64 BAP60_1ug.12655.12655.5 0 2.01083946 CW090817_092017_(—) N 5.1805 0.24920627 //10 10//54 BAP60_85B.11658.11658.4 −1 0.80359073 CW090817_092017_(—) NP 4.66 0.34331602 1.74E−01 //11 12//73 BAP60_100B.10694.10694.5 8 Bap60:138- 4.71175 Mor:639 0 3.3714349 CW090817_092017_(—) N 4.71175 0.2620332 3//9 13//36 BAP60_70B.08376.08376.4 9 Bap60:354- 6.0855 Mor:1028 0 1.77368703 CW090817_092017_(—) N 6.0855 0.33076066 //16 13//104 BAP60_85B.16744.16744.5 0 0.73842478 CW090817_092017_(—) N 5.99225 0.3567134 //15 12//75 BAP60_85B.18279.18279.4 0 0.07550463 CW090817_092017_(—) N 5.31325 0.30212954 //15 8//75 BAP60_85B.18447.18447.4 −1 3.55091628 CW090817_092017_(—) N 5.0715 0.37667112 //16 9//104 BAP60_85B.16795.16795.5 0 −6.5812844 CW090817_092017_(—) NP 3.63925 0.25259414 3.96E−04 //16 7//80 BAP60_70B.18088.18088.4 10 Bap60:354- 5.1635 Mor:162 0 2.52391385 CW090817_092017_(—) N 5.1635 0.24241784 //9 9//49 BAP60_70B.13457.13457.4 11 Bap60:133- 3.89175 Mor:990 0 −0.5357867 CW090817_092017_(—) P 3.89175 0.21273368 1.78E−02 //11 13//49 BAP60_85B.13643.13643.4 12 Bap60:502- 2.76675 Mor:990 0 0.41995454 CW090817_092017_(—) N 2.76675 0.19690069 //9 7//35 BAP60_100B.08954.08954.4 13 Bap60:502- 4.52625 Mor:1028 0 0.20743668 CW090817_092017_(—) N 4.52625 0.21265974 //15 14//81 BAP60_70B.15912.15912.4 14 Bap60:274- 4.46975 Mor:481 −1 −2.4110928 CW090817_092017_(—) P 4.46975 0.33492563 8.06E−02 //15 11//144 BAP60_100B.07211.07211.5 16 Bap60:274- 3.07175 Mor:589 0 −3.7910165 CW090817_092017_(—) P 3.07175 0.14494857 3.40E−02 //15 11//137 BAP60_100B.13877.13877.6 17 Bap60:274- 6.467 Mor:639 0 2.07679673 CW090817_092017_(—) N 6.467 0.37415025 //15 19//142 BAP60_100B.07930.07930.5 18 Bap60:223- 5.43625 Mor:1028 −1 1.27373275 CW090817_092017_(—) N 5.43625 0.21556595 //15 6//74 BAP60_50B.18406.18406.4 19 Bap60:233- 1.77575 Mor:277 0 1.12157566 CW090817_092017_(—) P 1.77575 0.17189391 5.52E−03 //8 5//36 BAP60_D.10883.10883.4 20 Bap60:342- 9.891 Mor:1028 0 7.9067987 CW090817_092017_(—) N 9.891 0.39228985 //12 19//96 BAP60_70B.21461.21461.4 21 Bap60:498- 5.568 Mor:1028 −1 3.52263057 CW090817_092017_(—) N 5.568 0.41337837 //15 7//74 BAP60_70B.19432.19432.4 22 Bap60:498- 6.60175 Mor:962 0 0.13104821 CW090817_092017_(—) NP 6.60175 0.43524196 1.02E−06 //11 9//48 BAP60_85B.14205.14205.4 −1 0.92879025 CW090817_092017_(—) NP 6.00825 0.41020346 4.81E−06 //11 9//48 BAP60_85B.14219.14219.4 23 Bap60:104- 3.07075 Mor:157 −2 2.80742 CW090817_092017_(—) P 3.07075 0.10964028 2.94E−02 //14 7//129 BAP60_70B.15586.15586.5 0 1.55427996 CW090817_092017_(—) P 2.8185 0.12980404 2.54E−02 //14 7//129 BAP60_70B.15609.15609.5 0 2.51153971 CW090817_092017_(—) P 2.23575 0.10082527 3.94E−03 //14 7//129 BAP60_70B.15620.15620.5 24 Bap60:104- 7.25475 Mor:1028 0 2.68778037 CW090817_092017_(—) N 7.25475 0.30642436 //15 9//74 BAP60_70B.15900.15900.4 25 Bap60:104- 3.83375 Mor:274 0 −1.0286573 CW090817_092017_(—) P 3.83375 0.24362926 7.63E−06 1//19 17//98 BAP60_85B.03350.03350.4 26 Bap60:104- 7.225 Mor:333 0 −0.1867644 CW090817_092017_(—) NP 7.225 0.3562799 2.02E−05 1//19 18//98 BAP60_70B.06133.06133.4 28 Bap60:104- 7.8505 Mor:162 0 2.94527341 CW090817_092017_(—) NP 7.8505 0.30014146 9.07E−04 //19 17//99 BAP60_70B.09472.09472.4 29 Bap60:104- 12.21925 Mor:277 0 0.64277365 CW090817_092017_(—) P 12.21925 0.67000685 2.53E−02 //19 24//100 BAP60_85B.03867.03867.4 30 Bap60:104- 6.064 Mor:334 0 −3.3180656 CW090817_092017_(—) NP 6.064 0.30335168 7.10E−04 //14 8//103 BAP60_70B.06248.06248.5 0 −0.4005136 CW090817_092017_(—) NP 5.6355 0.30759784 6.00E−05 //14 7//103 BAP60_70B.06254.06254.5 31 Bap60:104- 6.395 Mor:378 0 −0.4658982 CW090817_092017_(—) P 6.395 0.20616396 3.56E−02 //20 16//106 BAP60_50B.07807.07807.4 32 Bap60:104- 6.89225 Mor:294 0 −2.1938711 CW090817_092017_(—) P 6.89225 0.4011787 2.95E−04 //19 16//96 BAP60_70B.04310.04310.4 0 1.70476956 CW090817_092017_(—) NP 5.62575 0.27906198 1.71E−03 1//19 14//96 BAP60_70B.04724.04724.4 33 Bap60:104- 8.0545 Mor:962 −1 8.21115644 CW090817_092017_(—) NP 8.0545 0.37580777 1.34E−03 1//19 17//94 BAP60_70B.08887.08887.4 0 0.55974445 CW090817_092017_(—) N 7.124 0.29175199 1//19 11//116 BAP60_70B.08883.08883.5 34 Bap60:158- 4.69325 Mor:157 0 1.48510079 CW090817_092017_(—) N 4.69325 0.1728669 1//14 14//131 BAP60_70B.16921.16921.5 35 Bap60:158- 9.00775 Mor:1028 0 0.23132229 CW090817_092017_(—) N 9.00775 0.3306203 1//15 18//76 BAP60_85B.17679.17679.4 0 3.59880319 CW090817_092017_(—) N 8.58725 0.34418525 1//15 18//76 BAP60_70B.17432.17432.4 0 0.83574361 CW090817_092017_(—) N 8.51725 0.35163281 1//15 12//76 BAP60_50B.18308.18308.4 −1 1.45653382 CW090817_092017_(—) N 8.27925 0.34926913 1//15 16//76 BAP60_50B.18313.18313.4 0 0.31766824 CW090817_092017_(—) N 8.25675 0.40732838 1//15 13//76 BAP60_D.18598.18598.4 −1 0.59338313 CW090817_092017_(—) N 7.5985 0.27041888 1//15 20//76 BAP60_50B.18355.18355.4 −1 1.56450009 CW090817_092017_(—) N 7.42925 0.3283719 1//15 12//76 BAP60_D.18567.18567.4 −1 0.09760813 CW090817_092017_(—) N 5.86975 0.25039993 //16 12//105 BAP60_85B.16010.16010.5 −1 5.21944332 CW090817_092017_(—) N 5.8215 0.26266751 //16 10//81 BAP60_85B.16016.16016.4 0 6.76274896 CW090817_092017_(—) N 5.21625 0.30519557 //15 10//76 BAP60_100B.17701.17701.4 0 6.09135837 CW090817_092017_(—) N 5.19225 0.28583815 //16 8//81 BAP60_85B.16005.16005.4 −1 7.79343972 CW090817_092017_(—) N 4.7385 0.27302584 //16 8//81 BAP60_85B.15970.15970.4 0 5.49839779 CW090817_092017_(—) N 4.31075 0.23919376 //15 10//76 BAP60_1ug.18811.18811.4 −1 0.42075282 CW090817_092017_(—) N 3.8945 0.24229322 //15 8//76 BAP60_100B.17761.17761.4 0 5.01383619 CW090817_092017_(—) N 3.87525 0.18365679 //16 9//105 BAP60_85B.15951.15951.5 36 Bap60:158- 5.66225 Mor:638 0 2.04431624 CW090817_092017_(—) N 5.66225 0.28459238 //14 10//87 BAP60_70B.09323.09323.5 −1 2.59723439 CW090817_092017_(—) N 5.2175 0.27090527 //14 12//87 BAP60_70B.09328.09328.5 37 Bap60:158- 4.86725 Mor:162 0 0.930962 CW090817_092017_(—) N 4.86725 0.24927659 //9 9//43 BAP60_70B.12111.12111.4 38 Bap60:158- 4.5765 Mor:589 0 1.80419593 CW090817_092017_(—) N 4.5765 0.21937015 //14 8//68 BAP60_70B.14618.14618.4 39 Bap60:158- 5.13575 Mor:639 0 4.29985605 CW090817_092017_(—) N 5.13575 0.26672986 1//9 11//42 BAP60_70B.07948.07948.4 40 Bap60:446- 10.65075 Mor:962 0 1.3039989 CW090817_092017_(—) N 10.65075 0.46419621 //15 19//122 BAP60_100B.19018.19018.5 0 1.21159697 CW090817_092017_(—) N 10.221 0.46961796 //15 21//122 BAP60_D.19812.19812.5 0 0.56478299 CW090817_092017_(—) N 10.2085 0.4858183 //15 19//122 BAP60_100B.19186.19186.5 −1 0.97281878 CW090817_092017_(—) N 9.692 0.49216707 1//15 17//122 BAP60_100B.19001.19001.5 0 2.74144485 CW090817_092017_(—) N 9.03575 0.39627875 //15 14//92 BAP60_100B.19046.19046.6 0 4.93016298 CW090817_092017_(—) N 9.0105 0.41378123 //15 17//92 BAP60_100B.19037.19037.4 −1 0.32620002 CW090817_092017_(—) N 8.7035 0.51442166 //15 16//122 BAP60_100B.19203.19203.5 0 0.74958707 CW090817_092017_(—) N 8.62775 0.42932673 //15 18//122 BAP60_1ug.20273.20273.5 0 1.21159697 CW090817_092017_(—) N 8.476 0.40584151 //15 19//122 BAP60_D.19865.19865.5 0 0.01037034 CW090817_092017_(—) N 8.47075 0.39502647 //15 18//122 BAP60_1ug.20231.20231.5 0 0.41291772 CW090817_092017_(—) N 8.44525 0.44412453 //15 14//92 BAP60_D.19855.19855.6 −1 1.86363233 CW090817_092017_(—) N 8.35625 0.44800826 //15 13//92 BAP60_D.19836.19836.6 −2 0.01614416 CW090817_092017_(—) N 7.8255 0.35805632 //15 14//122 BAP60_1ug.20217.20217.5 −1 2.6811642 CW090817_092017_(—) N 6.85275 0.33493402 //15 13//92 BAP60_100B.19015.19015.6 −2 4.43892479 CW090817_092017_(—) N 6.01175 0.29775142 //15 14//92 BAP60_D.19843.19843.4 −3 5.29673942 CW090817_092017_(—) N 5.43525 0.29655445 //15 11//92 BAP60_D.19848.19848.4 −2 4.05688859 CW090817_092017_(—) N 5.2625 0.29097092 //15 12//92 BAP60_100B.19013.19013.4 −1 0.32770871 CW090817_092017_(—) N 4.78025 0.3094714 //15 11//116 BAP60_100B.21262.21262.5 0 0.54674655 CW090817_092017_(—) N 4.47525 0.37745119 //15 10//116 BAP60_100B.21276.21276.5 −2 4.90517189 CW090817_092017_(—) N 4.22825 0.25247052 //15 9//116 BAP60_100B.21256.21256.5 41 Bap60:446- 9.8845 Mor:639 0 0.60439537 CW090817_092017_(—) N 9.8845 0.48883559 //15 25//124 BAP60_85B.18294.18294.5 0 3.13755177 CW090817_092017_(—) N 7.64075 0.36537634 //15 21//124 BAP60_85B.18344.18344.5 −1 2.70894615 CW090817_092017_(—) N 4.0045 0.28148174 //15 14//94 BAP60_85B.18271.18271.4 −1 0.62555726 CW090817_092017_(—) N 2.4685 0.14739073 //15 11//94 BAP60_85B.18355.18355.4 42 Bap60:129- 6.27825 Mor:990 0 1.8267999 CW090817_092017_(—) NP 6.27825 0.3023477 1.97E−07 3//9 13//35 BAP60_85B.09956.09956.4 43 Bap60:175- 5.037 Mor:1028 −1 2.69255947 CW090817_092017_(—) N 5.037 0.21048453 //15 13//96 BAP60_70B.18472.18472.5 44 Bap60:229- 1.95975 Mor:277 0 0.41432408 CW090817_092017_(—) P 1.95975 0.16954321 4.38E−01 //16 9//105 BAP60_100B.06779.06779.5 0 1.65685905 CW090817_092017_(—) P 1.76775 0.13933554 5.34E−01 //16 8//105 BAP60_100B.06769.06769.5 20 Osa- Polybromo 1 Osa:1009- 2.8915 Polybromo:102 0 3.82955807 CW090817_092017_(—) N 2.8915 0.11556755 1//9 7//36 BAP60_85B.06412.06412.4 21 Bap111- Brm 1 Bap111:189- 3.99175 Brm:496 0 2.93245156 CW090817_092017_(—) NP 3.99175 0.25473023 7.09E−07 //12 8//56 BAP60_85B.04763.04763.4 2 Bap111:189- 2.6875 Brm:499 0 3.00181843 CW090817_092017_(—) N 2.6875 0.25338236 //12 4//55 BAP60_100B.04556.04556.4 0 −2.2200275 CW090817_092017_(—) P 1.4045 0.14318483 5.65E−01 //12 5//69 BAP60_100B.04546.04546.5 23 Bap111- Bap60 1 Bap111:173- 5.12725 Bap60:104 0 5.26640454 CW090817_092017_(—) N 5.12725 0.25629843 //13 11//95 BAP60_70B.06482.06482.5 2 Bap111:214- 9.68375 Bap60:464 −1 1.73316841 CW090817_092017_(—) N 9.68375 0.34543493 //10 12//152 BAP60_70B.14444.14444.6 −2 6.72887509 CW090817_092017_(—) N 8.36925 0.36751564 //10 14//210 BAP60_70B.14423.14423.5 −1 0.40031415 CW090817_092017_(—) N 8.34875 0.30798104 //10 13//152 BAP60_85B.13891.13891.6 −3 0.26857216 CW090817_092017_(—) N 8.2705 0.31352591 //10 13//152 BAP60_70B.14456.14456.6 −2 2.08538821 CW090817_092017_(—) N 7.59875 0.32640679 //10 16//210 BAP60_70B.14404.14404.5 3 Bap111:214- 4.8595 Bap60:435 −2 3.75255344 CW090817_092017_(—) N 4.8595 0.20507248 //10 9//152 BAP60_85B.12202.12202.6 −1 0.20541951 CW090817_092017_(—) N 4.18025 0.15244425 //10 10//152 BAP60_85B.12189.12189.6 4 Bap111:214- 8.118 Bap60:104 −1 1.59247769 CW090817_092017_(—) NP 8.118 0.28254703 3.85E−01 //10 14//210 BAP60_70B.11368.11368.5 −1 1.59247769 CW090817_092017_(—) NP 5.833 0.22774481 2.29E−01 //10 13//210 BAP60_70B.11359.11359.5 5 Bap111:214- 10.992 Bap60:502 0 0.55491834 CW090817_092017_(—) P 10.992 0.47888122 3.18E−01 //10 30//213 BAP60_85B.11167.11167.5 6 Bap111:214- 5.18225 Bap60:498 −1 1.06421611 CW090817_092017_(—) P 5.18225 0.25743275 1.50E−02 //10 16//210 BAP60_85B.15096.15096.5 −1 3.86393458 CW090817_092017_(—) P 4.581 0.19241432 2.31E−04 //10 13//210 BAP60_85B.15048.15048.5 −2 −0.0447193 CW090817_092017_(—) P 1.9955 0.12199297 3.33E−02 //10 9//210 BAP60_85B.15050.15050.6 7 Bap111:189- 3.8315 Bap60:118 −1 −3.1377219 CW090817_092017_(—) NP 3.8315 0.26462463 1.35E−03 //17 14//84 BAP60_70B.07429.07429.4 8 Bap111:189- 9.46 Bap60:435 0 0.59373065 CW090817_092017_(—) N 9.46 0.44396471 //16 19//115 BAP60_100B.06613.06613.5 0 0.90390676 CW090817_092017_(—) N 5.196 0.34608852 //16 15//89 BAP60_100B.06625.06625.4 0 0.73197347 CW090817_092017_(—) N 4.989 0.2834015 //16 12//89 BAP60_100B.06624.06624.6 −1 0.60503791 CW090817_092017_(—) N 4.10125 0.21635059 //16 11//89 BAP60_100B.06605.06605.6 9 Bap111:189- 12.36275 Bap60:104 0 2.5711404 CW090817_092017_(—) NP 12.36275 0.58550996 1.38E−04 //19 27//95 BAP60_85B.04095.04095.4 0 0.91602532 CW090817_092017_(—) NP 11.79925 0.46171079 3.10E−06 1//19 29//117 BAP60_85B.04106.04106.5 10 Bap111:189- 4.52225 Bap60:158 0 0.19873578 CW090817_092017_(—) N 4.52225 0.27140285 //12 5//55 BAP60_85B.06429.06429.4 0 11.4822298 CW090817_092017_(—) N 3.89425 0.2388451 //12 5//55 BAP60_85B.06397.06397.4 11 Bap111:189- 4.874 Bap60:175 0 1.80709684 CW090817_092017_(—) N 4.874 0.25506973 //14 12//87 BAP60_100B.09921.09921.5 0 1.08680614 CW090817_092017_(—) N 3.2685 0.1951285 //14 7//87 BAP60_100B.09997.09997.5 12 Bap111:189- 4.11075 Bap60:138 0 3.17564292 CW090817_092017_(—) NP 4.11075 0.24308143 2.22E−03 //12 5//56 BAP60_85B.06765.06765.4 24 Bap111- Osa 1 Bap111:110- 4.41775 Osa:2156 0 2.33558441 CW090817_092017_(—) NP 4.41775 0.1887766 6.54E−06 //10 9//42 BAP60_85B.06113.06113.4 25 Bap111- Mor 1 Bap111:276- 6.752 Mor:990 0 1.54521505 CW090817_092017_(—) N 6.752 0.33168767 //16 16//90 BAP60_70B.14838.14838.4 0 3.22656584 CW090817_092017_(—) N 6.14375 0.27223884 //15 13//124 BAP60_85B.13950.13950.5 0 1.2454072 CW090817_092017_(—) N 4.43075 0.20692353 //15 10//124 BAP60_85B.14170.14170.5 −1 2.44889163 CW090817_092017_(—) N 3.01025 0.1717542 //15 8//124 BAP60_85B.14251.14251.5 2 Bap111:276- 8.945 Mor:986 −2 5.24736789 CW090817_092017_(—) N 8.945 0.40838222 //16 17//92 BAP60_D.15284.15284.4 −2 6.73790466 CW090817_092017_(—) N 6.9445 0.24492999 //16 15//92 BAP60_50B.14966.14966.4 3 Bap111:280- 4.9335 Mor:990 0 −2.0976234 CW090817_092017_(—) NP 4.9335 0.21687621 4.34E−05 3//9 12//35 BAP60_D.11347.11347.4 0 −1.8767501 CW090817_092017_(—) NP 2.238 0.15123665 5.69E−03 1//9 7//35 BAP60_D.11323.11323.4 0 0.62648149 CW090817_092017_(—) P 1.5685 0.11946835 2.27E−03 //9 7//35 BAP60_1ug.11516.11516.4 4 Bap111:189- 5.515 Mor:962 −1 4.05079405 CW090817_092017_(—) NP 5.515 0.36009272 3.09E−04 //10 14//53 BAP60_D.07366.07366.4 0 −4.2029583 CW090817_092017_(—) NP 5.461 0.41422991 3.70E−06 //10 14//64 BAP60_D.07285.07285.5 5 Bap111:189- 3.7525 Mor:775 0 −0.3453994 CW090817_092017_(—) P 3.7525 0.26943098 1.34E−04 //12 5//55 BAP60_85B.04227.04227.4 6 Bap111:300- 12.16425 Mor:1028 0 0.4909824 CW090817_092017_(—) N 12.16425 0.42429237 //15 16//96 BAP60_100B.16711.16711.5 −1 7.32043712 CW090817_092017_(—) N 5.65 0.21393412 //15 14//74 BAP60_70B.16482.16482.4 0 5.81575543 CW090817_092017_(—) N 4.65725 0.22369116 //15 13//74 BAP60_70B.16451.16451.4 −2 13.028801 CW090817_092017_(—) N 3.02575 0.17617176 //15 9//74 BAP60_100B.16694.16694.4 Total counted inter crosslinks are: 189 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 2.86275 1.03846154 K.PLGK[1053.64]DGGLELGDK.S tr|Q9VF03|Q9VF03_DROME:594 1 Mor 3.0985 0.92857143 R.AIDSM[147.04]EEK[1772.91]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.663 0.78571429 R.AIDSM[147.04]EEK[1772.92]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.60525 0.78571429 R.AIDSM[147.04]EEK[1772.91]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.57375 0.78571429 R.AIDSM[147.04]EEK[1772.92]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.46125 0.64285714 R.AIDSM[147.04]EEK[1772.91]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.5515 0.67857143 R.AIDSM[147.04]EEK[1772.92]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.393 0.64285714 R.AIDSM[147.04]EEK[1772.92]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.402 0.64285714 R.AIDSM[147.04]EEK[1772.92]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.44275 0.60714286 R.AIDSM[147.04]EEK[1772.9]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.20875 0.64285714 R.AIDSM[147.04]EEK[1772.91]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 2.10525 0.64285714 R.AIDSM[147.04]EEK[1772.9]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 1.9615 0.53571429 R.AIDSM[147.04]EEK[1772.9]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 1.983 0.64285714 R.AIDSM[147.04]EEK[1772.89]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 1.72425 0.53571429 R.AIDSM[147.04]EEK[1772.89]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 Brm 3.059 1.16666667 K.HLEFLAAVLQHGK[1585.82]DLR.E sp|P25439|BRM_DROME:525 1 Brm 3.22525 1.26666667 K.HLEFLAAVLQHGK[1585.81]DLR.E sp|P25439|BRM_DROME:525 1 Brm 7.8045 0.92857143 R.TFPMC[160.03]FDDTDPTASLENAAQK[741.44]EC[160.03]LVPIR.L tr|Q24090|Q24090_DROME:167 1 Snr1 2.5245 0.65 R.AMPEFFNSK[1083.64]NK.S tr|Q9VF03|Q9VF03_DROME:479 1 Mor 5.30275 1.66666667 R.LDIQEALK[1053.64]R.P sp|Q9VYG2|BAP60_DROME:175 1 Bap60 4.82 1.94444444 R.LDIQEALK[1053.64]R.P sp|Q9VYG2|BAP60_DROME:175 1 Bap60 3.434 1.44444444 R.LDIQEALK[797.46]R.P sp|Q9VYG2|BAP60_DROME:175 1 Bap60 3.7425 0.85294118 R.GTGAGGGGVGSGGGSK[877.54]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 6.1335 1.23529412 R.GTGAGGGGVGSGGGSK[1195.67]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 5.4525 1.02941177 R.GTGAGGGGVGSGGGSK[1195.67]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 5.47725 1.14705882 R.GTGAGGGGVGSGGGSK[1195.67]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 3.2665 1.66666667 R.LEK[1228.7]LC[160.03]AVLTR.H sp|Q8IN94|OSA_DROME:2365 1 Osa 2.16875 0.75 K.IHETVDTINQM[147.04]K[1982.2]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 Bap60 2.16575 0.78571429 K.IHETVDTINQM[147.04]K[1982.18]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 Bap60 2.4175 0.89285714 K.IHETVDTINQM[147.04]K[1982.2]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 Bap60 9.4685 2.85714286 K.IHETVDTINQM[147.04]K[954.54]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 Bap60 5.96125 1.875 R.Q[111.03]QFHLEQLK[1499.79]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 5.846 1.75 R.Q[111.03]QFHLEQLK[1499.79]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 5.84775 1.70833333 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 5.4785 1.54166667 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 5.11 1.29166667 R.Q[111.03]QFHLEQLK[1499.79]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 5.07575 1.25 R.Q[111.03]QFHLEQLK[1499.77]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 5.03125 1.29166667 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 5.24675 1.375 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 4.944 1.29166667 R.Q[111.03]QFHLEQLK[1499.79]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.20925 1.29166667 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.30775 0.92857143 R.QQFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.32225 1.25 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.28 1.14285714 R.QQFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.678 0.78571429 R.QQFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.71525 0.89285714 R.QQFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.4425 0.83333333 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.20575 1.125 R.Q[111.03]QFHLEQLK[1499.76]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.841 1 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 1.7575 0.625 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.237 0.75 R.Q[111.03]QFHLEQLK[1499.8]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.90075 0.3625 R.LNPLLHPPDPIVINHFIESGAENK[1949.03]QTAC[160.03]YDIDVEVDDTLK.N sp|Q9VYG2|BAP60_DROME:385 1 Bap60 1.81275 0.175 R.LNPLLHPPDPIVINHFIESGAENK[1949.03]QTAC[160.03]YDIDVEVDDTLK.N sp|Q9VYG2|BAP60_DROME:385 1 Bap60 2.48425 0.2125 R.LNPLLHPPDPIVINHFIESGAENK[1949.03]QTAC[160.03]YDIDVEVDDTLK.N sp|Q9VYG2|BAP60_DROME:385 1 Bap60 4.5435 1.72222222 K.AK[1118.72]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Mor 4.4825 1.55 K.AK[1118.72]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Mor 4.28825 1.55 K.AK[1118.72]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Mor 3.4245 1.66666667 K.AK[1118.72]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Mor 3.6555 1.54545455 K.AK[1118.72]HLAALEERK.I tr|Q9VF03|Q9VF03_DROME:962 1 Mor 3.8085 2.41666667 K.ILPQK[954.53]VR.D sp|Q9VYG2|BAP60_DROME:138 1 Bap60 3.046 1.11538462 R.QQFHLEQLK[1400.75]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.6455 1.41666667 R.Q[111.03]QFHLEQLK[1400.75]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 1.67725 0.625 R.Q[111.03]QFHLEQLK[1400.75]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 1.29175 0.53846154 R.QQFHLEQLK[1400.74]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 1.0985 0.42857143 R.QQFHLEQLK[1384.75]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.695 1.75 R.M[147.04]K[1071.6]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 Bap60 3.541 1.83333333 K.LAEK[1164.76]ILPQK.V sp|Q9VYG2|BAP60_DROME:133 1 Bap60 1.716 1.41666667 K.KLEIK[909.54]LR.H tr|Q9VF03|Q9VF03_DROME:990 1 Mor 3.519 1.125 R.Q[111.03]QFHLEQLK[909.54]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 4.04475 0.72222222 R.THTTQETDGFQVK[741.44]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 1 Bap60 2.2265 0.66666667 R.THTTQETDGFQVK[1605.97]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 1 Bap60 5.2615 1.17647059 R.THTTQETDGFQVK[954.54]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 1 Bap60 1.49325 0.70833333 R.Q[111.03]QFHLEQLK[1551.82]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 1.3745 0.85714286 R.K[934.53]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 1 Bap60 7.224 1.4375 R.EYINC[160.03]DK[1993.08]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 Bap60 1.939 0.83333333 R.Q[111.03]QFHLEQLK[1439.77]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.06925 1.38888889 R.YFFTK[1402.79]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 Bap60 2.89025 1.38888889 R.YFFTK[1402.79]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 Bap60 1.5955 0.58823529 R.IPYIYIRPEIEK[1583.8]GFEGK.L tr|Q9VF03|Q9VF03_DROME:157 1 Mor 1.4025 0.5 R.IPYIYIRPEIEK[1583.8]GFEGK.L tr|Q9VF03|Q9VF03_DROME:157 1 Mor 0.98825 0.32352941 R.IPYIYIRPEIEK[1583.8]GFEGK.L tr|Q9VF03|Q9VF03_DROME:157 1 Mor 1.92175 0.79166667 R.Q[111.03]QFHLEQLK[1583.79]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.7805 1.05882353 R.GTGAGGGGVGSGGGSK[778.47]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 5.945 1.38235294 R.GTGAGGGGVGSGGGSK[1130.68]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 6.793 1.58823529 R.GTGAGGGGVGSGGGSK[1071.61]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 11.95425 2.38235294 R.GTGAGGGGVGSGGGSK[934.53]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 1.80175 0.96153846 K.K[1583.8]SRNDDDDEDLTR.D tr|Q9VF03|Q9VF03_DROME:334 1 Mor 1.851 0.92307692 K.K[1583.8]SRNDDDDEDLTR.D tr|Q9VF03|Q9VF03_DROME:334 1 Mor 5.424 1.11111111 K.ANAALQSTASPAPGGK[1583.8]SR.G tr|Q9VF03|Q9VF03_DROME:378 1 Mor 5.6875 1.35294118 R.GTGAGGGGVGSGGGSK[1252.71]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 4.39025 1.05882353 R.GTGAGGGGVGSGGGSK[1252.71]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 4.81375 1.20588235 R.GTGAGGGGVGSGGGSK[1402.79]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 3.0505 0.84375 R.GTGAGGGGVGSGGGSK[1402.8]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 2.56325 0.8125 R.IPYIYIRPEIEK[1228.69]GFEGK.L tr|Q9VF03|Q9VF03_DROME:157 1 Mor 4.26425 1.70833333 R.Q[111.03]QFHLEQLK[1228.69]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 5.133 1.79166667 R.Q[111.03]QFHLEQLK[1228.7]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 4.11175 1.33333333 R.Q[111.03]QFHLEQLK[1228.69]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 4.338 1.54166667 R.Q[111.03]QFHLEQLK[1228.69]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 4.313 1.5 R.Q[111.03]QFHLEQLK[1228.69]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 4.5705 1.95833333 R.Q[111.03]QFHLEQLK[1228.69]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.74 1.33333333 R.Q[111.03]QFHLEQLK[1228.68]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.7315 0.84615385 R.QQFHLEQLK[1228.68]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.0365 0.80769231 R.QQFHLEQLK[1228.67]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.9215 1.20833333 R.Q[111.03]QFHLEQLK[1228.67]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.52125 0.73076923 R.QQFHLEQLK[1228.7]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.04075 0.61538462 R.QQFHLEQLK[1228.66]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.7235 1.04166667 R.Q[111.03]QFHLEQLK[1228.7]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 1.468 0.75 R.Q[111.03]QFHLEQLK[1228.69]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 1.64525 0.53846154 R.QQFHLEQLK[1228.7]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.002 0.86363636 K.LDQYAK[1228.69]KPAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:638 1 Mor 2.363 1.27272727 K.LDQYAK[1228.68]KPAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:638 1 Mor 2.4555 1.375 R.K[1071.61]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 Bap60 1.1855 0.63636364 K.TLLDLDK[1228.69]KPLGK.D tr|Q9VF03|Q9VF03_DROME:589 1 Mor 3.41425 1.875 R.K[954.54]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 Bap60 6.55875 1.83333333 R.EFFLSFAK[1402.8]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 6.381 1.86666667 R.EFFLSFAK[1402.8]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 6.21 1.7 R.EFFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 6.1575 1.63333333 R.EFFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 4.863 1.2 R.EFFLSFAK[1402.8]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 5.1645 1.5 R.EFFLSFAK[1402.81]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 5.0595 1.4 R.EFFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 5.15975 1.53333333 R.EFFLSFAK[1402.8]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 5.31675 1.73333333 R.EFFLSFAK[1402.8]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 5.2115 1.53333333 R.EFFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 4.44975 1.26666667 R.EFFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 4.58625 1.23333333 R.EFFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 4.717 1.33333333 R.EFFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 3.53375 1.06666667 R.EFFLSFAK[1402.8]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 3.3835 1.03333333 R.EFFLSFAK[1402.81]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 2.69625 0.76666667 R.EFFLSFAK[1402.78]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 2.53175 0.8 R.EFFLSFAK[1402.78]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 2.05775 0.67857143 R.E[111.03]FFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 2.042 0.57142857 R.E[111.03]FFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 1.81 0.53571429 R.E[111.03]FFLSFAK[1402.81]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 8.3245 2.46666667 R.EFFLSFAK[954.53]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 6.48 1.8 R.EFFLSFAK[954.54]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 2.917 0.86666667 R.EFFLSFAK[954.54]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 1.56675 0.56666667 R.EFFLSFAK[954.53]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 Bap60 4.18675 2.07142857 K.KLEIK[853.53]LR.H tr|Q9VF03|Q9VF03_DROME:990 1 Mor 4.106 1.16666667 R.Q[111.03]QFHLEQLK[1722.96]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 1.753 0.5 R.LLEDGKGDPNTK[934.53]IK.R sp|Q9VYG2|BAP60_DROME:229 1 Bap60 1.553 0.42857143 R.LLEDGKGDPNTK[934.53]IK.R sp|Q9VYG2|BAP60_DROME:229 1 Bap60 1.25725 0.91666667 R.GWLDK[1008.63]LR.A sp|Q8IN94|OSA_DROME:1009 1 Osa 1.3485 0.95 R.GGGSK[1083.62]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 1.644 0.66666667 R.ATEKLEK[1307.66]QQK.L sp|P25439|BRM_DROME:499 1 Brm 0.82925 0.35 R.ATEKLEK[1307.66]QQK.L sp|P25439|BRM_DROME:499 1 Brm 2.32375 0.875 K.VK[1583.79]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 1 Bap111 3.34725 0.62 R.RIDIQPAEDEDDQDEGYTTK[2098.03]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 2.75325 0.52 R.RIDIQPAEDEDDQDEGYTTK[2097.99]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 3.87675 0.62 R.RIDIQPAEDEDDQDEGYTTK[2254.13]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 2.8755 0.58 R.RIDIQPAEDEDDQDEGYTTK[2098.03]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 2.6575 0.54 R.RIDIQPAEDEDDQDEGYTTK[2098.04]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 2.9815 0.56 R.RIDIQPAEDEDDQDEGYTTK[2081.08]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 3.04175 0.58 R.RIDIQPAEDEDDQDEGYTTK[2081.06]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 4.2825 0.63461539 R.RIDIQPAEDEDDQDEGYTTK[1583.8]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 3.7945 0.53846154 R.RIDIQPAEDEDDQDEGYTTK[1583.8]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 10.867 1.73076923 R.RIDIQPAEDEDDQDEGYTTK[909.54]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 4.68925 0.80769231 R.RIDIQPAEDEDDQDEGYTTK[1439.78]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 3.73575 0.53846154 R.RIDIQPAEDEDDQDEGYTTK[1439.78]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 1.30625 0.25 R.RIDIQPAEDEDDQDEGYTTK[1439.78]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 2.54275 1.3 R.SLGGGGSK[1307.66]SDFATAK.K sp|Q9VYG2|BAP60_DROME:118 1 Bap60 8.42075 2.03571429 K.IHETVDTINQM[147.04]K[1307.66]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 Bap60 3.86925 0.89285714 K.IHETVDTINQM[147.04]K[1307.66]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 Bap60 3.8645 1.21428571 K.IHETVDTINQM[147.04]K[1307.66]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 Bap60 2.94725 0.89285714 K.IHETVDTINQM[147.04]K[1307.66]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 Bap60 10.8275 2.47058824 R.GTGAGGGGVGSGGGSK[1307.66]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 9.673 2.14705882 R.GTGAGGGGVGSGGGSK[1307.66]R.S sp|Q9VYG2|BAP60_DROME:104 1 Bap60 1.12 0.55555556 R.GGGSK[1228.68]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 1.2945 0.88888889 R.GGGSK[1228.66]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 3.59475 1.22727273 R.LDIQEALK[1307.65]RPM[147.04]K.Q sp|Q9VYG2|BAP60_DROME:175 1 Bap60 2.2965 0.63636364 R.LDIQEALK[1307.66]RPM[147.04]K.Q sp|Q9VYG2|BAP60_DROME:175 1 Bap60 1.03875 0.5 R.GGGSK[1118.72]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 3.30975 1.375 R.TTAK[1087.64]DEAR.V sp|Q8IN94|OSA_DROME:2156 1 Osa 5.697 1.5 K.LEAELQQM[147.04]EEK[1164.76]FEAK.K tr|Q9W384|Q9W384_DROME:276 1 Bap111 4.438 1.1 K.LEAELQQM[147.04]EEK[1164.77]FEAKK.Q tr|Q9W384|Q9W384_DROME:276 1 Bap111 3.12125 0.73333333 K.LEAELQQM[147.04]EEK[1164.76]FEAKK.Q tr|Q9W384|Q9W384_DROME:276 1 Bap111 1.89475 0.6 K.LEAELQQM[147.04]EEK[1164.77]FEAKK.Q tr|Q9W384|Q9W384_DROME:276 1 Bap111 7.9195 1.85714286 K.LEAELQQM[147.04]EEK[895.59]FEAK.K tr|Q9W384|Q9W384_DROME:276 1 Bap111 5.8135 1.46428571 K.LEAELQQM[147.04]EEK[895.56]FEAK.K tr|Q9W384|Q9W384_DROME:276 1 Bap111 3.43975 2.07142857 K.KLEIK[887.51]LR.H tr|Q9VF03|Q9VF03_DROME:990 1 Mor 1.30975 0.85714286 K.KLEIK[887.51]LR.H tr|Q9VF03|Q9VF03_DROME:990 1 Mor 1.15525 1 K.KLEIK[887.51]LR.H tr|Q9VF03|Q9VF03_DROME:990 1 Mor 4.16025 1.7 K.AK[1307.66]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Mor 4.06175 1.65 K.AK[1307.66]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Mor 0.5385 0.5 R.GGGSK[1225.67]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 5.5705 1.70833333 R.Q[111.03]QFHLEQLK[1853.9]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 3.65625 1.41666667 R.Q[111.03]QFHLEQLK[1853.87]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 2.43675 1.25 R.Q[111.03]QFHLEQLK[1853.92]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor 1.4065 0.91666667 R.Q[111.03]QFHLEQLK[1853.85]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Mor realpep1 position1 immonium2 ion2 dot2 connective2 PLGKDGGLELGDK 594 //9 4//33 0.62925 0.64285714 AIDSMEEKGLQEDPR 151 //15 9//81 1.7795 0.64285714 AIDSMEEKGLQEDPR 151 1//15 10//81 1.797 0.67857143 AIDSMEEKGLQEDPR 151 1//15 10//81 1.8315 0.60714286 AIDSMEEKGLQEDPR 151 //15 10//81 1.704 0.67857143 AIDSMEEKGLQEDPR 151 1//15 11//81 1.73575 0.71428571 AIDSMEEKGLQEDPR 151 1//15 10//81 1.6285 0.60714286 AIDSMEEKGLQEDPR 151 1//15 10//81 1.75275 0.67857143 AIDSMEEKGLQEDPR 151 1//15 11//81 1.72825 0.71428571 AIDSMEEKGLQEDPR 151 1//15 10//81 1.60075 0.67857143 AIDSMEEKGLQEDPR 151 1//15 11//81 1.823 0.71428571 AIDSMEEKGLQEDPR 151 2//15 12//81 1.61575 0.64285714 AIDSMEEKGLQEDPR 151 1//15 9//81 1.47125 0.53571429 AIDSMEEKGLQEDPR 151 1//15 9//81 1.3715 0.53571429 AIDSMEEKGLQEDPR 151 1//15 9//81 1.512 0.53571429 HLEFLAAVLQHGKDLR 525 //12 10//76 2.929 0.90909091 HLEFLAAVLQHGKDLR 525 //12 9//76 2.01925 0.72727273 TFPMCFDDTDPTASLENAAQKECLVPIR 167 //4 2//15 0.2115 0.5 AMPEFFNSKNK 479 //9 5//33 1.113 0.58333333 LDIQEALKR 175 //9 5//35 1.19075 0.5 LDIQEALKR 175 //9 5//35 1.09825 0.5 LDIQEALKR 175 //6 2//17 0.07425 0.25 GTGAGGGGVGSGGGSKR 104 //7 2//23 0.2395 0.4 GTGAGGGGVGSGGGSKR 104 //8 2//38 0.20625 0.14285714 GTGAGGGGVGSGGGSKR 104 //8 4//46 0.691 0.42857143 GTGAGGGGVGSGGGSKR 104 //8 3//38 0.22375 0.21428571 LEKLCAVLTR 2365 //9 7//44 2.257 1.5 IHETVDTINQMKTNR 435 //17 12//109 5.654 1.32142857 IHETVDTINQMKTNR 435 //16 11//116 5.7075 1.1 IHETVDTINQMKTNR 435 //16 10//116 4.193 0.76666667 IHETVDTINQMKTNR 435 //7 5//34 1.565 1.33333333 QQFHLEQLKAAEFR 1028 3//12 15//63 2.89475 1.88888889 QQFHLEQLKAAEFR 1028 3//12 15//63 2.7665 1.88888889 QQFHLEQLKAAEFR 1028 1//12 9//50 2.58825 1.5 QQFHLEQLKAAEFR 1028 1//12 9//50 2.7415 1.5 QQFHLEQLKAAEFR 1028 1//12 9//50 2.39425 1.5 QQFHLEQLKAAEFR 1028 1//12 9//50 2.428 1.5 QQFHLEQLKAAEFR 1028 //12 10//50 2.3775 1.5 QQFHLEQLKAAEFR 1028 //12 11//50 2.07525 1.55555556 QQFHLEQLKAAEFR 1028 //12 9//63 1.92375 1.44444444 QQFHLEQLKAAEFR 1028 //12 11//50 2.56375 1.44444444 QQFHLEQLKAAEFR 1028 //12 10//63 2.26875 1.35 QQFHLEQLKAAEFR 1028 //12 9//50 2.19425 1.11111111 QQFHLEQLKAAEFR 1028 //12 11//63 2.07175 1.4 QQFHLEQLKAAEFR 1028 //12 9//63 2.423 1.3 QQFHLEQLKAAEFR 1028 //12 12//63 2.16325 1.45 QQFHLEQLKAAEFR 1028 //12 11//50 2.2855 1.16666667 QQFHLEQLKAAEFR 1028 //12 9//50 1.70525 0.94444444 QQFHLEQLKAAEFR 1028 //12 6//63 0.91925 0.61111111 QQFHLEQLKAAEFR 1028 //12 9//50 1.97975 1.05555556 QQFHLEQLKAAEFR 1028 //12 9//50 1.4525 0.61111111 LNPLLHPPDPIVINHFIESGAENKQTACYDIDVEVDDTLK 385 //20 4//132 0.67075 0.16666667 LNPLLHPPDPIVINHFIESGAENKQTACYDIDVEVDDTLK 385 //20 5//132 1.48 0.36111111 LNPLLHPPDPIVINHFIESGAENKQTACYDIDVEVDDTLK 385 //20 2//132 0.4995 0.11111111 AKHLAALEER 962 3//9 10//43 1.5605 1.75 AKHLAALEER 962 //9 8//43 1.23875 1 AKHLAALEER 962 2//9 8//43 0.988 0.85714286 AKHLAALEER 962 1//9 10//36 1.756 1.66666667 AKHLAALEERK 962 //9 6//41 1.0045 0.57142857 ILPQKVR 138 //7 6//31 0.90325 0.83333333 QQFHLEQLKAAEFR 1028 1//9 7//52 3.0395 1.125 QQFHLEQLKAAEFR 1028 1//9 9//42 3.34675 1.25 QQFHLEQLKAAEFR 1028 //9 10//42 3.636 1.3125 QQFHLEQLKAAEFR 1028 2//9 12//52 3.77975 1.9375 QQFHLEQLKAAEFR 1028 //9 9//42 2.54075 1.22222222 MKFAEIPQR 354 2//9 8//36 1.4685 1.16666667 LAEKILPQK 133 1//9 6//36 0.35075 0.57142857 KLEIKLR 990 //7 4//23 1.05075 0.75 QQFHLEQLKAAEFR 1028 //7 4//20 1.00725 0.75 THTTQETDGFQVKRPGDR 274 //4 2//19 0.425 0.5 THTTQETDGFQVKRPGDR 274 //14 5//83 0.84525 0.375 THTTQETDGFQVKRPGDR 274 //7 3//34 1.2055 0.66666667 QQFHLEQLKAAEFR 1028 //14 13//62 3.943 1.18181818 KFSSFFK 233 //7 3//23 0.40125 0.5 EYINCDKYLEQIFSCQR 342 //15 10//74 2.667 1.33333333 QQFHLEQLKAAEFR 1028 //11 10//45 3.629 1.75 YFFTKVNQK 498 1//10 13//52 3.5325 1.65 YFFTKVNQK 498 //10 8//52 3.118 1.05 IPYIYIRPEIEKGFEGK 157 //19 10//109 1.47525 0.5 IPYIYIRPEIEKGFEGK 157 //19 9//109 1.416 0.47058824 IPYIYIRPEIEKGFEGK 157 //19 8//109 1.2475 0.35294118 QQFHLEQLKAAEFR 1028 //19 16//87 5.333 1.375 GTGAGGGGVGSGGGSKR 104 //5 1//21 0.05325 0.125 GTGAGGGGVGSGGGSKR 104 //10 4//38 1.28 0.75 GTGAGGGGVGSGGGSKR 104 //9 6//34 1.0575 0.85714286 GTGAGGGGVGSGGGSKR 104 //7 3//23 0.265 0.5 KSRNDDDDEDLTR 334 //19 12//109 4.26225 0.94117647 KSRNDDDDEDLTR 334 //19 12//109 3.7845 0.91176471 ANAALQSTASPAPGGKSR 378 //19 8//87 0.971 0.47058824 GTGAGGGGVGSGGGSKR 104 //11 5//53 1.20475 0.45454546 GTGAGGGGVGSGGGSKR 104 //11 7//53 1.2355 0.68181818 GTGAGGGGVGSGGGSKR 104 //10 10//51 3.24075 1.5 GTGAGGGGVGSGGGSKR 104 //10 11//62 4.0735 1.72222222 IPYIYIRPEIEKGFEGK 157 //9 7//47 2.13 1.3125 QQFHLEQLKAAEFR 1028 //9 13//39 4.7435 2.1875 QQFHLEQLKAAEFR 1028 //9 10//39 3.45425 1.4375 QQFHLEQLKAAEFR 1028 //9 13//39 4.4055 2 QQFHLEQLKAAEFR 1028 //9 13//39 3.94125 2 QQFHLEQLKAAEFR 1028 //9 11//39 3.94375 1.875 QQFHLEQLKAAEFR 1028 1//9 12//39 3.028 1.5625 QQFHLEQLKAAEFR 1028 //9 12//39 3.68925 1.9375 QQFHLEQLKAAEFR 1028 //9 8//47 3.13825 1.5625 QQFHLEQLKAAEFR 1028 //9 8//38 2.785 1.1875 QQFHLEQLKAAEFR 1028 //9 9//39 2.29475 1.25 QQFHLEQLKAAEFR 1028 //9 6//38 2.671 1.0625 QQFHLEQLKAAEFR 1028 //9 7//38 2.69775 1.125 QQFHLEQLKAAEFR 1028 //9 7//39 1.58725 0.9375 QQFHLEQLKAAEFR 1028 //9 8//39 2.4265 1.1875 QQFHLEQLKAAEFR 1028 //9 5//47 2.23 1 LDQYAKKPAAMR 638 //9 11//51 3.66025 1.875 LDQYAKKPAAMR 638 //9 9//51 2.8545 1.5625 KLDATIMR 158 3//9 13//36 2.41175 2.41666667 TLLDLDKKPLGK 589 //9 10//42 3.391 1.8125 KLDATIMR 158 //7 5//32 1.7215 1.33333333 EFFLSFAKDPQMFIHR 446 //10 10//58 4.092 1.66666667 EFFLSFAKDPQMFIHR 446 //10 9//58 3.84 1.61111111 EFFLSFAKDPQMFIHR 446 1//10 10//58 3.9985 1.66666667 EFFLSFAKDPQMFIHR 446 //10 9//58 3.5345 1.61111111 EFFLSFAKDPQMFIHR 446 1//10 10//47 4.17275 1.66666667 EFFLSFAKDPQMFIHR 446 //10 12//47 3.846 1.88888889 EFFLSFAKDPQMFIHR 446 //10 9//58 3.644 1.61111111 EFFLSFAKDPQMFIHR 446 //10 10//58 3.468 1.66666667 EFFLSFAKDPQMFIHR 446 //10 9//58 3.15925 1.44444444 EFFLSFAKDPQMFIHR 446 //10 10//58 3.25925 1.66666667 EFFLSFAKDPQMFIHR 446 //10 9//47 3.9955 1.61111111 EFFLSFAKDPQMFIHR 446 //10 9//47 3.77 1.61111111 EFFLSFAKDPQMFIHR 446 //10 9//58 3.1085 1.61111111 EFFLSFAKDPQMFIHR 446 //10 9//47 3.319 1.22222222 EFFLSFAKDPQMFIHR 446 //10 8//47 2.62825 1 EFFLSFAKDPQMFIHR 446 //10 7//47 2.739 0.94444444 EFFLSFAKDPQMFIHR 446 //10 8//47 2.73075 1.16666667 EFFLSFAKDPQMFIHR 446 //10 7//58 2.7225 0.94444444 EFFLSFAKDPQMFIHR 446 //10 7//58 2.43325 0.94444444 EFFLSFAKDPQMFIHR 446 //10 6//58 2.41825 0.77777778 EFFLSFAKDPQMFIHR 446 //7 6//34 1.56 1.41666667 EFFLSFAKDPQMFIHR 446 //7 5//34 1.16075 0.83333333 EFFLSFAKDPQMFIHR 446 //7 5//27 1.0875 0.83333333 EFFLSFAKDPQMFIHR 446 //7 5//27 0.90175 0.83333333 KLEIKLR 990 //6 6//25 2.0915 1.6 QQFHLEQLKAAEFR 1028 //14 10//85 0.931 0.86363636 LLEDGKGDPNTKIK 229 //7 2//25 0.20675 0.2 LLEDGKGDPNTKIK 229 //7 2//25 0.21475 0.2 GWLDKLR 1009 1//8 9//30 1.63425 1.5 GGGSKSQHER 189 //9 8//36 2.64325 1.28571429 ATEKLEKQQK 499 //12 5//51 1.0435 0.55555556 ATEKLEKQQK 499 //12 7//63 0.57525 0.55 VKTDVDMHETPSR 173 //19 12//110 2.8035 0.78125 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //17 13//94 6.3365 1.5 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //17 15//122 5.616 1.23333333 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //16 10//101 4.472 0.84375 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //17 12//94 5.395 1.23333333 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //17 12//122 4.94125 0.93333333 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //16 7//86 1.878 0.75 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //16 8//86 1.1385 0.60714286 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //19 16//109 3.8355 1.20588235 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //19 11//109 2.0385 0.70588235 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //7 1//25 0.125 0.1 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //11 6//57 0.493 0.44444444 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //11 5//57 0.84525 0.55555556 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 1//11 6//57 0.68925 0.55555556 SLGGGGSKSDFATAK 118 //12 6//50 1.28875 0.85 IHETVDTINQMKTNR 435 //12 6//60 1.03925 0.61111111 IHETVDTINQMKTNR 435 //12 5//48 1.32675 0.55555556 IHETVDTINQMKTNR 435 //12 6//48 1.1245 0.94444444 IHETVDTINQMKTNR 435 //12 5//48 1.154 0.88888889 GTGAGGGGVGSGGGSKR 104 //12 8//50 1.53525 1.05 GTGAGGGGVGSGGGSKR 104 //12 12//62 2.12625 1.4 GGGSKSQHER 189 //9 13//45 3.40225 1.875 GGGSKSQHER 189 //9 10//45 2.59975 1.375 LDIQEALKRPMK 175 //12 6//61 1.27925 0.72222222 LDIQEALKRPMK 175 //12 6//61 0.972 0.72222222 GGGSKSQHER 189 1//9 11//36 3.072 1.64285714 TTAKDEAR 2156 1//7 5//34 1.108 0.64285714 LEAELQQMEEKFEAK 276 //9 5//31 1.055 0.75 LEAELQQMEEKFEAKK 276 //9 7//38 1.70575 1.08333333 LEAELQQMEEKFEAKK 276 //9 6//38 1.3095 0.83333333 LEAELQQMEEKFEAKK 276 //9 6//38 1.1155 0.83333333 LEAELQQMEEKFEAK 276 //6 5//23 1.0255 1.6 LEAELQQMEEKFEAK 276 //6 5//23 1.131 1.6 KLEIKLR 990 //7 6//23 1.49375 1.1 KLEIKLR 990 //7 4//23 0.92825 0.6 KLEIKLR 990 //7 4//23 0.41325 0.6 AKHLAALEER 962 //12 7//51 1.35475 0.9 AKHLAALEER 962 //12 6//63 1.39925 0.85 GGGSKSQHER 189 //12 11//54 3.214 1.6 QQFHLEQLKAAEFR 1028 2//15 21//90 6.59375 2 QQFHLEQLKAAEFR 1028 //15 16//71 1.99375 1.33333333 QQFHLEQLKAAEFR 1028 //15 13//71 2.2205 0.875 QQFHLEQLKAAEFR 1028 //15 13//71 1.61925 0.79166667 peptide2 protein2 K.DLITK[1563.85]AK.V sp|P25439|BRM_DROME:735 R.K[1998.97]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.98]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.97]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.98]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.97]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.98]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.98]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.98]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.96]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.97]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.96]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.96]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.95]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.K[1998.95]AM[147.04]GM[147.04]SYAGLPPPR.P tr|Q9VLX2|Q9VLX2_DROME:776 R.LK[2112.16]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2112.15]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 K.NK[3434.62]SK.T tr|Q9VF03|Q9VF03_DROME:481 K.DALK[1577.79]MLK.L tr|Q9VC36|Q9VC36_DROME:434 K.DLITK[1350.79]AK.V sp|P25439|BRM_DROME:735 K.DLITK[1350.79]AK.V sp|P25439|BRM_DROME:735 R.EQK[1350.79]K.E sp|P25439|BRM_DROME:557 R.VHTK[1583.8]K.V tr|Q24090|Q24090_DROME:143 K.K[1583.8]IRDQDR.N tr|Q24090|Q24090_DROME:349 K.K[1583.8]IRDQDR.N tr|Q24090|Q24090_DROME:349 K.K[1583.8]IRDQDR.N tr|Q24090|Q24090_DROME:349 R.K[1467.87]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.KIK[2081.07]SLVALLVETQM[147.04]K.K tr|Q9VF03|Q9VF03_DROME:973 R.K[2081.05]IKSLVALLVETQM[147.04]K.K tr|Q9VF03|Q9VF03_DROME:971 R.K[2081.08]IKSLVALLVETQM[147.04]K.K tr|Q9VF03|Q9VF03_DROME:971 K.K[2081.06]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 K.THK[1993.05]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.05]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.04]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.04]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.05]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.03]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.03]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.04]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.04]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.03]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2010.07]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.04]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2010.07]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2010.07]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2010.07]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.04]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.02]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.04]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.03]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.06]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.ANAALQSTASPAPGGK[4738.38]SR.G tr|Q9VF03|Q9VF03_DROME:378 K.ANAALQSTASPAPGGK[4738.38]SR.G tr|Q9VF03|Q9VF03_DROME:378 K.ANAALQSTASPAPGGK[4738.38]SR.G tr|Q9VF03|Q9VF03_DROME:378 K.ILPQK[1402.8]VR.D sp|Q9VYG2|BAP60_DROME:138 K.ILPQK[1402.79]VR.D sp|Q9VYG2|BAP60_DROME:138 K.ILPQK[1402.79]VR.D sp|Q9VYG2|BAP60_DROME:138 K.ILPQK[1402.8]VR.D sp|Q9VYG2|BAP60_DROME:138 K.ILPQK[1530.89]VR.D sp|Q9VYG2|BAP60_DROME:138 K.K[1118.71]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 R.M[147.04]K[2010.07]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 R.M[147.04]K[1993.04]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 R.M[147.04]K[1993.04]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 R.M[147.04]K[2010.06]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 R.MK[2010.07]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 K.GFEGK[1400.74]LR.E tr|Q9VF03|Q9VF03_DROME:162 K.KLEIK[1304.81]LR.H tr|Q9VF03|Q9VF03_DROME:990 K.VNQK[1164.76]R.A sp|Q9VYG2|BAP60_DROME:502 K.VNQK[1993.04]R.A sp|Q9VYG2|BAP60_DROME:502 K.NK[2338.17]SK.T tr|Q9VF03|Q9VF03_DROME:481 K.TLLDLDK[2338.17]KPLGK.D tr|Q9VF03|Q9VF03_DROME:589 K.K[2338.17]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 R.LLEDGK[1993.05]GDPNTK.I sp|Q9VYG2|BAP60_DROME:223 K.THK[1155.63]QR.M tr|Q9VF03|Q9VF03_DROME:277 R.Q[111.03]QFHLEQLK[2531.22]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.YFFTK[1993.03]VNQK.R sp|Q9VYG2|BAP60_DROME:498 K.AK[1439.78]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[1439.78]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 R.GTGAGGGGVGSGGGSK[2317.27]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[2317.27]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[2317.27]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1993.03]R.S sp|Q9VYG2|BAP60_DROME:104 I.K[1583.8]THK.L tr|Q9VF03|Q9VF03_DROME:274 R.SPAVVHK[1583.8]K.S tr|Q9VF03|Q9VF03_DROME:333 K.GFEGK[1583.8]LR.E tr|Q9VF03|Q9VF03_DROME:162 K.THK[1583.8]QR.M tr|Q9VF03|Q9VF03_DROME:277 R.GTGAGGGGVGSGGGSK[1843.85]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1843.85]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1949.03]R.S sp|Q9VYG2|BAP60_DROME:104 K.KK[1583.8]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 K.KK[1583.8]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 K.AK[1583.8]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[1583.8]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 R.K[2317.28]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.04]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.05]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.04]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.05]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.04]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.04]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.04]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[2010.07]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[2010.05]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.02]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[2010.09]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[2010.05]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.06]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1993.04]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[2010.08]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1672.9]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1672.89]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 K.GFEGK[1228.69]LR.E tr|Q9VF03|Q9VF03_DROME:162 R.K[1605.97]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 K.K[1228.69]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.15]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.17]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.15]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.15]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.17]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.14]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.14]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2276.14]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2276.14]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2276.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.K[2294.15]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 K.K[2294.16]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 K.K[2294.16]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 K.K[2294.15]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 K.K[1164.76]LAEK.I sp|Q9VYG2|BAP60_DROME:129 R.LDIQEALK[1993.03]RPM[147.04]K.Q sp|Q9VYG2|BAP60_DROME:175 K.THK[1792.99]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[1792.99]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.VQQK[1152.66]LK.T tr|Q9VC36|Q9VC36_DROME:102 R.ATEK[1307.66]LEK.Q sp|P25439|BRM_DROME:496 R.GGGSK[1467.84]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[1467.83]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GTGAGGGGVGSGGGSK[1795.86]R.S sp|Q9VYG2|BAP60_DROME:104 R.DLK[3314.58]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 R.DLK[3314.54]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 R.DLK[3314.57]LM[147.04]TDVAGNPEEERR.A sp|Q9VYG2|BAP60_DROME:464 R.DLK[3314.57]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 R.DLK[3314.58]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 K.IHETVDTINQM[147.04]K[3314.59]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.IHETVDTINQM[147.04]K[3314.57]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.GTGAGGGGVGSGGGSK[3314.57]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[3314.57]R.S sp|Q9VYG2|BAP60_DROME:104 K.VNQK[3314.57]R.A sp|Q9VYG2|BAP60_DROME:502 R.YFFTK[3314.57]VNQK.R sp|Q9VYG2|BAP60_DROME:498 R.YFFTK[3314.57]VNQK.R sp|Q9VYG2|BAP60_DROME:498 R.YFFTK[3314.57]VNQK.R sp|Q9VYG2|BAP60_DROME:498 R.GGGSK[1647.85]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[2081.06]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[2081.06]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[2081.06]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[2081.06]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[1583.8]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[1583.8]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.K[1307.66]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1307.63]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.GGGSK[1722.97]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[1722.97]SQHER.R tr|Q9W384|Q9W384_DROME:189 K.ILPQK[1307.66]VR.D sp|Q9VYG2|BAP60_DROME:138 K.AK[1156.61]HPELK.L tr|Q9W384|Q9W384_DROME:110 K.KLEIK[2104.04]LR.H tr|Q9VF03|Q9VF03_DROME:990 K.KLEIK[2232.14]LR.H tr|Q9VF03|Q9VF03_DROME:990 K.KLEIK[2232.13]LR.H tr|Q9VF03|Q9VF03_DROME:990 K.KLEIK[2232.14]LR.H tr|Q9VF03|Q9VF03_DROME:990 K.K[2104.05]LEIK.L tr|Q9VF03|Q9VF03_DROME:986 K.K[2104.02]LEIK.L tr|Q9VF03|Q9VF03_DROME:986 K.FEAK[1164.76]K.Q tr|Q9W384|Q9W384_DROME:280 K.FEAK[1164.76]K.Q tr|Q9W384|Q9W384_DROME:280 K.FEAK[1164.76]K.Q tr|Q9W384|Q9W384_DROME:280 R.GGGSK[1402.79]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[1402.79]SQHER.R tr|Q9W384|Q9W384_DROME:189 K.NVEK[1307.66]ASAGGK.F tr|Q9VF03|Q9VF03_DROME:775 R.HC[160.03]K[1993.04]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993.02]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993.06]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 Unique_(—) protein2 subunit2 realpep2 position2 1 Brm DLITKAK 735 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 BRD7 KAMGMSYAGLPPPR 776 1 Bap55 LKMISANGSVER 375 1 Bap55 LKMISANGSVER 375 1 Mor NKSK 481 1 Polybromo DALKMLK 434 1 Brm DLITKAK 735 1 Brm DLITKAK 735 1 Brm EQKK 557 1 Snr1 VHTKK 143 1 Snr1 KIRDQDR 349 1 Snr1 KIRDQDR 349 1 Snr1 KIRDQDR 349 1 Bap60 KLDATIMR 158 1 Mor KIKSLVALLVETQMK 973 1 Mor KIKSLVALLVETQMK 971 1 Mor KIKSLVALLVETQMK 971 1 Mor KPAAMR 639 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Bap60 THKLQDAHER 328 1 Mor ANAALQSTASPAPGGKSR 378 1 Mor ANAALQSTASPAPGGKSR 378 1 Mor ANAALQSTASPAPGGKSR 378 1 Bap60 ILPQKVR 138 1 Bap60 ILPQKVR 138 1 Bap60 ILPQKVR 138 1 Bap60 ILPQKVR 138 1 Bap60 ILPQKVR 138 1 Mor KPAAMR 639 1 Bap60 MKFAEIPQR 354 1 Bap60 MKFAEIPQR 354 1 Bap60 MKFAEIPQR 354 1 Bap60 MKFAEIPQR 354 1 Bap60 MKFAEIPQR 354 1 Mor GFEGKLR 162 1 Mor KLEIKLR 990 1 Bap60 VNQKR 502 1 Bap60 VNQKR 502 1 Mor NKSK 481 1 Mor TLLDLDKKPLGK 589 1 Mor KPAAMR 639 1 Bap60 LLEDGKGDPNTK 223 1 Mor THKQR 277 1 Mor QQFHLEQLKAAEFR 1028 1 Bap60 YFFTKVNQK 498 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Mor KTHK 274 1 Mor SPAVVHKK 333 1 Mor GFEGKLR 162 1 Mor THKQR 277 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Mor KKPAASSGGGK 294 1 Mor KKPAASSGGGK 294 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Mor GFEGKLR 162 1 Bap60 KLDATIMR 158 1 Mor KPAAMR 639 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor AKHLAALEER 962 1 Mor KPAAMR 639 1 Mor KPAAMR 639 1 Mor KPAAMR 639 1 Mor KPAAMR 639 1 Bap60 KLAEK 129 1 Bap60 LDIQEALKRPMK 175 1 Mor THKQR 277 1 Mor THKQR 277 1 Polybromo VQQKLK 102 1 Brm ATEKLEK 496 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Bap60 DLKLMTDVAGNPEEER 464 1 Bap60 DLKLMTDVAGNPEEER 464 1 Bap60 DLKLMTDVAGNPEEERR 464 1 Bap60 DLKLMTDVAGNPEEER 464 1 Bap60 DLKLMTDVAGNPEEER 464 1 Bap60 IHETVDTINQMKTNR 435 1 Bap60 IHETVDTINQMKTNR 435 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Bap60 GTGAGGGGVGSGGGSKR 104 1 Bap60 VNQKR 502 1 Bap60 YFFTKVNQK 498 1 Bap60 YFFTKVNQK 498 1 Bap60 YFFTKVNQK 498 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap60 KLDATIMR 158 1 Bap60 KLDATIMR 158 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap60 ILPQKVR 138 1 Bap111 AKHPELK 110 1 Mor KLEIKLR 990 1 Mor KLEIKLR 990 1 Mor KLEIKLR 990 1 Mor KLEIKLR 990 1 Mor KLEIK 986 1 Mor KLEIK 986 1 Bap111 FEAKK 280 1 Bap111 FEAKK 280 1 Bap111 FEAKK 280 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Mor NVEKASAGGK 775 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 HCKPAVDEETFQK 300

TABLE 9B S2 BAP60-HA Intra Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 Bap111 1 Bap111:101- 3.15525 Bap111:189 0 0.2599223 CW090817_092017_(—) N 3.15525 0.27694637 1//6 5//17 BAP60_100B.04006.04006.4 2 Bap111:296- 10.1965 Bap111:300 0 1.76689126 CW090817_092017_(—) N 10.1965 0.34843152 //15 13//90 BAP60_70B.12894.12894.5 0 0.34455092 CW090817_092017_(—) N 9.592 0.30586735 1//15 18//71 BAP60_70B.12913.12913.4 0 3.13575791 CW090817_092017_(—) N 9.552 0.36347032 //15 13//90 BAP60_D.13822.13822.5 0 3.90621401 CW090817_092017_(—) N 6.755 0.31291981 //15 12//90 BAP60_85B.13043.13043.5 0 0.22593831 CW090817_092017_(—) N 6.33725 0.41852133 //15 8//71 BAP60_D.13779.13779.4 −1 2.2288335 CW090817_092017_(—) NP 5.924 0.32257011 7.49E−04 //16 9//102 BAP60_D.14303.14303.5 −1 5.72015111 CW090817_092017_(—) N 5.81525 0.22111217 //15 9//71 BAP60_70B.13416.13416.4 0 1.15619482 CW090817_092017_(—) N 5.2945 0.27271557 //15 11//90 BAP60_D.14295.14295.5 −2 2.15718761 CW090817_092017_(—) NP 4.14975 0.22111363 4.13E−04 //16 8//102 BAP60_D.14342.14342.5 0 6.04552761 CW090817_092017_(—) N 3.92125 0.1865574 //15 8//90 BAP60_85B.12972.12972.5 3 Bap111:173- 5.38825 Bap111:75 0 6.86724259 CW090817_092017_(—) N 5.38825 0.28362196 //13 8//71 BAP60_70B.05680.05680.5 0 1.58795438 CW090817_092017_(—) N 5.2785 0.23348963 //13 8//71 BAP60_70B.05702.05702.5 0 1.58795438 CW090817_092017_(—) N 3.72325 0.15932091 //13 7//71 BAP60_70B.05700.05700.5 4 Bap111:173- 6.797 Bap111:189 −1 4.01597935 CW090817_092017_(—) N 6.797 0.2897519 //12 6//60 BAP60_85B.05053.05053.5 0 4.07525175 CW090817_092017_(—) N 3.97775 0.30391183 //12 4//48 BAP60_85B.05064.05064.4 0 0.56573864 CW090817_092017_(—) N 3.97425 0.17430921 //12 6//60 BAP60_85B.05049.05049.5 5 Bap111:189- 3.72225 Bap111:75 0 −0.9793511 CW090817_092017_(—) P 3.72225 0.37987957 3.50E−02 //13 10//59 BAP60_85B.02948.02948.4 0 0.20933745 CW090817_092017_(—) P 2.71875 0.2109275 4.07E−07 //13 6//74 BAP60_85B.02954.02954.5 6 Bap111:189- 12.3605 Bap111:214 0 −2.6956385 CW090817_092017_(—) NP 12.3605 0.41227778 8.98E−07 //10 32//210 BAP60_100B.10436.10436.6 −1 3.56960513 CW090817_092017_(—) NP 6.33275 0.27880996 3.10E−04 //10 23//210 BAP60_100B.10538.10538.6 −2 4.18886713 CW090817_092017_(—) N 4.817 0.24919169 //12 5//48 BAP60_100B.10464.10464.7 −3 5.79275609 CW090817_092017_(—) P 3.63025 0.23811945 4.79E−03 //10 13//210 BAP60_100B.10559.10559.6 7 Bap111:189- 4.91975 Bap111:67 −3 1.9416972 CW090817_092017_(—) P 4.91975 0.33991433 2.98E−04 //13 16//208 BAP60_100B.10702.10702.6 −1 −2.8656788 CW090817_092017_(—) P 4.72425 0.38529136 3.13E−02 //13 16//208 BAP60_100B.10669.10669.6 −1 −2.0441652 CW090817_092017_(—) P 4.3755 0.29590181 3.02E−05 //13 16//208 BAP60_100B.10696.10696.6 8 Bap111:169- 10.745 Bap111:173 −1 5.51933708 CW090817_092017_(—) N 10.745 0.3724114 //13 11//91 BAP60_85B.09237.09237.5 0 0.27523479 CW090817_092017_(—) N 8.86425 0.39323263 1//13 9//91 BAP60_85B.09392.09392.5 −1 7.37313151 CW090817_092017_(—) N 8.708 0.35129193 //13 11//91 BAP60_85B.10701.10701.5 0 0.27523479 CW090817_092017_(—) N 7.082 0.33300419 //13 9//91 BAP60_85B.09438.09438.5 9 Bap111:169- 10.2605 Bap111:189 0 2.4321839 CW090817_092017_(—) N 10.2605 0.49052229 //12 7//60 BAP60_100B.07892.07892.5 10 Bap111:67- 10.93675 Bap111:75 −1 0.22037975 CW090817_092017_(—) NP 10.93675 0.42956599 3.08E−11 //13 27//206 BAP60_70B.11206.11206.5 −1 0.22037975 CW090817_092017_(—) NP 9.447 0.36931918 5.36E−10 //13 30//206 BAP60_70B.11201.11201.5 2 BAP60 1 BAP60:274- 4.898 BAP60:354 0 5.14598755 CW090817_092017_(—) N 4.898 0.31845519 //9 8//52 BAP60_85B.11713.11713.5 2 BAP60:223- 2.95925 BAP60:328 0 −2.626476 CW090817_092017_(—) P 2.95925 0.17126281 5.62E−08 //14 9//79 BAP60_85B.07664.07664.5 3 BAP60:223- 4.39025 BAP60:233 0 3.89702015 CW090817_092017_(—) N 4.39025 0.21134914 //8 6//42 BAP60_100B.12894.12894.5 0 −4.2022051 CW090817_092017_(—) NP 4.174 0.16003681 5.54E−02 //16 9//103 BAP60_100B.13438.13438.5 4 BAP60:158- 4.5635 BAP60:328 0 2.61908239 CW090817_092017_(—) N 4.5635 0.30474124 //9 7//52 BAP60_100B.07741.07741.5 0 1.47426204 CW090817_092017_(—) N 3.3975 0.2954091 //9 7//43 BAP60_100B.07759.07759.4 5 BAP60:158- 7.74825 BAP60:354 0 2.50709279 CW090817_092017_(—) N 7.74825 0.34558774 1//9 12//44 BAP60_50B.13942.13942.4 6 BAP60:158- 6.50875 BAP60:446 −1 0.97294316 CW090817_092017_(—) N 6.50875 0.35259622 //9 8//38 BAP60_70B.19255.19255.4 7 BAP60:158- 6.7575 BAP60:166 0 1.73161851 CW090817_092017_(—) N 6.7575 0.28388682 //9 14//44 BAP60_85B.13305.13305.4 0 1.17640067 CW090817_092017_(—) N 6.74 0.287169 //9 10//53 BAP60_70B.13198.13198.5 0 3.10359817 CW090817_092017_(—) N 6.0185 0.2562045 //9 12//44 BAP60_70B.13196.13196.4 0 1.24236171 CW090817_092017_(—) N 5.584 0.23557206 //9 9//53 BAP60_85B.13298.13298.5 8 BAP60:158- 6.30425 BAP60:435 0 0.57544608 CW090817_092017_(—) N 6.30425 0.25115533 //9 7//47 BAP60_70B.10318.10318.5 9 BAP60:158- 6.93275 BAP60:498 0 2.05263077 CW090817_092017_(—) N 6.93275 0.33298511 //9 8//44 BAP60_70B.13954.13954.4 10 BAP60:158- 6.13225 BAP60:233 0 1.31424223 CW090817_092017_(—) N 6.13225 0.30525412 //8 7//39 BAP60_70B.14657.14657.4 11 BAP60:158- 9.6345 BAP60:274 0 0.80798512 CW090817_092017_(—) N 9.6345 0.39375115 //9 11//47 BAP60_85B.10417.10417.5 12 BAP60:435- 11.94425 BAP60:446 0 2.88901836 CW090817_092017_(—) N 11.94425 0.37532208 //16 17//112 BAP60_D.18983.18983.5 0 2.88901836 CW090817_092017_(—) N 11.7765 0.33464998 1//16 19//112 BAP60_85B.18247.18247.5 0 1.43250492 CW090817_092017_(—) N 11.53025 0.34129827 1//16 18//112 BAP60_100B.18159.18159.5 0 2.13646717 CW090817_092017_(—) N 11.3265 0.36886327 //16 15//86 BAP60_85B.18107.18107.4 0 4.02828755 CW090817_092017_(—) N 11.09775 0.43228162 //16 16//112 BAP60_70B.19870.19870.5 −1 3.82867847 CW090817_092017_(—) N 10.99225 0.35352813 //16 15//112 BAP60_85B.18470.18470.5 0 3.60017971 CW090817_092017_(—) N 10.622 0.34849081 //16 15//112 BAP60_85B.18918.18918.5 −1 2.46716214 CW090817_092017_(—) N 10.3375 0.40323367 1//16 13//112 BAP60_85B.20185.20185.5 0 4.05088937 CW090817_092017_(—) N 10.22 0.34093942 1//16 15//86 BAP60_85B.18096.18096.6 0 0.27928619 CW090817_092017_(—) N 10.06275 0.31945238 //16 14//86 BAP60_85B.18098.18098.6 0 1.63385303 CW090817_092017_(—) N 10.04975 0.39467277 //16 15//112 BAP60_85B.18081.18081.5 0 1.40274101 CW090817_092017_(—) N 10.0345 0.40079484 //16 15//112 BAP60_85B.19213.19213.5 −2 5.15370161 CW090817_092017_(—) N 9.962 0.41073637 //16 11//86 BAP60_85B.19248.19248.6 −2 4.14086339 CW090817_092017_(—) N 9.82825 0.48972296 //16 12//86 BAP60_100B.18145.18145.6 0 0.00331411 CW090817_092017_(—) N 9.82175 0.43456187 //16 12//86 BAP60_D.18953.18953.6 0 1.66248101 CW090817_092017_(—) N 9.6325 0.38943581 //16 15//112 BAP60_85B.18552.18552.5 0 0.787266 CW090817_092017_(—) N 9.4715 0.40297396 //16 13//86 BAP60_85B.18273.18273.4 −1 0.76970809 CW090817_092017_(—) N 9.067 0.32444134 1//16 12//112 BAP60_1ug.19303.19303.5 −2 3.9530086 CW090817_092017_(—) N 8.882 0.3853613 //16 10//86 BAP60_85B.19204.19204.6 −2 4.60058837 CW090817_092017_(—) N 8.8215 0.40082241 //16 11//86 BAP60_D.18946.18946.6 −1 0.13792856 CW090817_092017_(—) N 8.67975 0.35247 //16 11//86 BAP60_85B.18380.18380.6 0 2.39506709 CW090817_092017_(—) N 8.51225 0.43241218 //16 11//86 BAP60_100B.18136.18136.6 −2 2.35659405 CW090817_092017_(—) N 8.44725 0.34629812 //16 13//86 BAP60_85B.18092.18092.4 −1 3.11735076 CW090817_092017_(—) N 8.4315 0.43711442 //16 10//86 BAP60_85B.18882.18882.6 −2 2.78566915 CW090817_092017_(—) N 8.4245 0.3103118 //16 13//86 BAP60_D.19014.19014.4 −1 1.38282311 CW090817_092017_(—) N 8.39 0.35606672 //16 13//112 BAP60_D.19125.19125.5 −1 1.60611969 CW090817_092017_(—) N 8.18025 0.41858769 //16 12//112 BAP60_85B.18062.18062.5 −1 2.22909011 CW090817_092017_(—) N 8.12925 0.33710346 //16 13//112 BAP60_70B.19964.19964.5 0 0.08867662 CW090817_092017_(—) N 8.0445 0.37760515 //16 12//86 BAP60_85B.18758.18758.6 −1 0.09532592 CW090817_092017_(—) N 7.726 0.49882171 1//16 14//86 BAP60_85B.18135.18135.7 0 2.51734524 CW090817_092017_(—) N 7.4795 0.4358429 //16 12//112 BAP60_85B.20309.20309.5 −1 5.53958951 CW090817_092017_(—) N 7.40725 0.38634763 //16 13//112 BAP60_D.21064.21064.5 −1 2.16126234 CW090817_092017_(—) N 7.29625 0.31983562 //16 11//86 BAP60_85B.18605.18605.6 0 1.21655689 CW090817_092017_(—) N 7.2745 0.29289554 //16 13//86 BAP60_100B.18169.18169.4 0 4.45404899 CW090817_092017_(—) N 7.24925 0.40316167 //16 10//86 BAP60_D.19746.19746.6 −1 5.20820269 CW090817_092017_(—) N 7.18525 0.37223489 //16 13//112 BAP60_85B.18667.18667.5 −3 0.52974099 CW090817_092017_(—) N 7.1245 0.39279413 //16 9//86 BAP60_85B.19182.19182.6 −1 0.67770071 CW090817_092017_(—) N 7.069 0.40990403 //16 8//86 BAP60_85B.18502.18502.6 0 3.70365527 CW090817_092017_(—) N 6.51875 0.37170349 //16 12//112 BAP60_85B.21493.21493.5 0 4.50504674 CW090817_092017_(—) N 6.49275 0.37785893 1//16 11//86 BAP60_1ug.20066.20066.6 −1 2.00928478 CW090817_092017_(—) N 6.414 0.38748263 //16 11//86 BAP60_1ug.20073.20073.6 −2 0.79682644 CW090817_092017_(—) N 6.33575 0.40181063 //16 10//112 BAP60_100B.18408.18408.5 0 1.00858483 CW090817_092017_(—) N 6.28925 0.32318029 //16 11//86 BAP60_100B.18318.18318.6 −2 5.26480611 CW090817_092017_(—) N 6.2885 0.28942584 //16 10//112 BAP60_1ug.20404.20404.5 −1 4.37174803 CW090817_092017_(—) N 6.26175 0.41729699 //16 12//112 BAP60_100B.18367.18367.5 −1 1.87159393 CW090817_092017_(—) N 6.1395 0.31613501 //16 13//86 BAP60_85B.20209.20209.4 −1 9.91634911 CW090817_092017_(—) N 6.09275 0.32116971 //16 13//112 BAP60_70B.20231.20231.5 −1 1.4471631 CW090817_092017_(—) N 6.00775 0.32226961 //16 10//86 BAP60_85B.18520.18520.6 −1 0.92298692 CW090817_092017_(—) N 5.85425 0.32928819 //16 10//112 BAP60_1ug.19249.19249.5 0 4.79836763 CW090817_092017_(—) N 5.8365 0.40577745 //16 9//112 BAP60_100B.20207.20207.5 −1 2.62113687 CW090817_092017_(—) N 5.786 0.30832356 //16 8//112 BAP60_85B.18495.18495.5 −2 2.57805249 CW090817_092017_(—) N 5.78525 0.39629072 //16 8//112 BAP60_85B.19041.19041.5 −1 0.45836687 CW090817_092017_(—) N 5.714 0.38527409 //16 12//112 BAP60_85B.20133.20133.5 −3 6.65901784 CW090817_092017_(—) N 5.69275 0.38968751 //16 11//86 BAP60_85B.18206.18206.7 −3 4.31891384 CW090817_092017_(—) N 5.632 0.4332641 //16 10//112 BAP60_85B.18860.18860.5 −1 0.23452313 CW090817_092017_(—) N 5.56475 0.45108013 //16 12//112 BAP60_100B.20233.20233.5 −2 11.9988836 CW090817_092017_(—) N 5.47325 0.23111435 //16 10//112 BAP60_D.19190.19190.5 −1 1.05764939 CW090817_092017_(—) N 5.459 0.37773319 //16 9//86 BAP60_100B.18368.18368.6 −1 2.76003563 CW090817_092017_(—) N 5.45 0.29695418 //16 10//112 BAP60_85B.19015.19015.5 −2 2.44107356 CW090817_092017_(—) N 5.4255 0.29027339 //16 7//86 BAP60_85B.18973.18973.4 −1 2.80497676 CW090817_092017_(—) N 5.2385 0.36086522 //16 9//86 BAP60_1ug.19253.19253.6 −2 0.57788975 CW090817_092017_(—) N 5.23675 0.21352701 //16 11//112 BAP60_D.20025.20025.5 0 5.75162629 CW090817_092017_(—) N 5.22475 0.36333449 //16 9//112 BAP60_85B.20366.20366.5 −3 4.53814399 CW090817_092017_(—) N 5.11075 0.38691423 //16 9//112 BAP60_85B.18870.18870.5 −1 6.05976129 CW090817_092017_(—) N 5.0575 0.19610694 //16 12//86 BAP60_70B.19912.19912.4 −1 11.5660554 CW090817_092017_(—) N 5.0345 0.23071283 //16 9//86 BAP60_D.19066.19066.4 −1 2.53241173 CW090817_092017_(—) N 4.9155 0.324509 //16 11//112 BAP60_100B.18117.18117.5 −1 2.0725766 CW090817_092017_(—) N 4.90725 0.2701189 //16 8//112 BAP60_1ug.19443.19443.5 −3 5.38409523 CW090817_092017_(—) N 4.76325 0.23730228 //16 9//86 BAP60_100B.18492.18492.6 −2 0.29603808 CW090817_092017_(—) N 4.62725 0.27752954 //16 9//86 BAP60_85B.20256.20256.4 −2 0.54830724 CW090817_092017_(—) N 4.55275 0.33543931 //16 7//86 BAP60_100B.18119.18119.6 0 2.05865525 CW090817_092017_(—) N 4.4955 0.24874122 //16 9//86 BAP60_85B.20272.20272.4 −2 4.08922126 CW090817_092017_(—) N 3.98225 0.30151429 //16 7//86 BAP60_1ug.20381.20381.6 −1 5.99817034 CW090817_092017_(—) N 3.8685 0.19097574 //16 8//86 BAP60_85B.20180.20180.4 13 BAP60:435- 6.577 BAP60:498 0 2.26064951 CW090817_092017_(—) N 6.577 0.22259451 //11 9//45 BAP60_70B.12716.12716.4 0 2.64346604 CW090817_092017_(—) N 6.05875 0.26774864 //11 7//57 BAP60_70B.12718.12718.5 −1 1.41652862 CW090817_092017_(—) N 5.164 0.20418734 //11 7//45 BAP60_70B.12677.12677.4 0 5.07940825 CW090817_092017_(—) N 4.793 0.17472295 //11 9//45 BAP60_70B.12738.12738.4 14 BAP60:435- 8.79625 BAP60:464 −1 6.84803895 CW090817_092017_(—) N 8.79625 0.3174281 1//16 14//112 BAP60_70B.11543.11543.5 15 BAP60:229- 8.791 BAP60:233 0 4.57554709 CW090817_092017_(—) NP 8.791 0.34849656 8.84E−06 2//16 25//104 BAP60_70B.14057.14057.5 0 1.36694742 CW090817_092017_(—) NP 8.6395 0.30291715 7.44E−12 1//16 26//83 BAP60_70B.14063.14063.4 0 7.38734593 CW090817_092017_(—) N 8.12475 0.34989557 //8 6//42 BAP60_100B.13059.13059.5 0 1.90515424 CW090817_092017_(—) NP 7.1785 0.3985288 4.39E−09 //16 17//82 BAP60_100B.12927.12927.4 0 −0.937052 CW090817_092017_(—) P 6.0785 0.26177864 6.98E−02 //16 15//103 BAP60_100B.13059.13059.5 −1 5.1900551 CW090817_092017_(—) NP 5.8825 0.29636254 1.33E−04 //16 14//83 BAP60_70B.14181.14181.4 0 8.2381343 CW090817_092017_(—) N 5.3245 0.25793872 //8 6//34 BAP60_100B.12912.12912.6 0 −0.2615031 CW090817_092017_(—) NP 3.893 0.15430349 1.64E−02 //16 12//103 BAP60_100B.13416.13416.5 0 2.99176819 CW090817_092017_(—) P 2.775 0.14641095 1.93E−03 //16 8//83 BAP60_1ug.15242.15242.4 −1 7.10160894 CW090817_092017_(—) P 2.50275 0.1454115 4.06E−04 //16 10//83 BAP60_1ug.15285.15285.4 0 3.38655956 CW090817_092017_(—) P 2.272 0.10927805 6.07E−03 //11 6//50 BAP60_85B.12143.12143.4 16 BAP60:342- 9.83875 BAP60:354 0 4.88763984 CW090817_092017_(—) N 9.83875 0.59121774 //9 7//42 BAP60_70B.18585.18585.4 0 4.42893619 CW090817_092017_(—) N 9.385 0.75700746 //9 7//42 BAP60_D.19702.19702.4 0 5.67113322 CW090817_092017_(—) N 8.3345 0.60607934 //9 6//42 BAP60_D.19708.19708.4 −1 9.35729792 CW090817_092017_(—) N 7.165 0.73438221 //9 6//42 BAP60_100B.18927.18927.4 −1 2.45801653 CW090817_092017_(—) N 7.08175 0.61841244 //9 6//42 BAP60_100B.18924.18924.4 0 2.49662358 CW090817_092017_(—) N 5.80925 0.20165755 //9 6//42 BAP60_50B.19565.19565.4 0 1.39244159 CW090817_092017_(—) N 5.536 0.56843618 //9 6//42 BAP60_85B.18898.18898.4 −2 3.06458129 CW090817_092017_(—) N 5.282 0.50803116 //9 7//42 BAP60_85B.18939.18939.4 −1 9.35729792 CW090817_092017_(—) N 4.9315 0.49969602 //9 6//42 BAP60_100B.18937.18937.4 −1 1.07817168 CW090817_092017_(—) N 4.37125 0.41569588 //9 5//42 BAP60_85B.18875.18875.4 17 BAP60:464- 8.1795 BAP60:498 0 1.20071619 CW090817_092017_(—) N 8.1795 0.40307002 //11 12//45 BAP60_70B.15085.15085.4 −1 2.63148717 CW090817_092017_(—) N 7.7305 0.36541325 //11 10//45 BAP60_70B.15056.15056.4 −3 7.37404058 CW090817_092017_(—) N 7.19125 0.28002765 //11 7//45 BAP60_50B.16816.16816.4 0 0.26460794 CW090817_092017_(—) N 7.1445 0.36303354 1//11 8//57 BAP60_70B.15037.15037.5 −1 −6.0678276 CW090817_092017_(—) NP 4.72875 0.13731198 8.06E−04 //17 15//97 BAP60_50B.18666.18666.4 −1 11.803563 CW090817_092017_(—) N 3.61075 0.19565689 //11 7//45 BAP60_70B.15154.15154.4 18 BAP60:104- 10.79275 BAP60:233 0 0.02655584 CW090817_092017_(—) NP 10.79275 0.51818466 6.42E−11 1//19 27//97 BAP60_70B.12198.12198.4 19 BAP60:104- 7.158 BAP60:274 0 −1.1935693 CW090817_092017_(—) P 7.158 0.26982302 1.60E−03 //15 11//137 BAP60_85B.08188.08188.5 −2 0.05214844 CW090817_092017_(—) P 4.949 0.18341178 1.73E−02 //15 11//137 BAP60_85B.08167.08167.5 0 5.88656514 CW090817_092017_(—) P 3.5805 0.22142857 2.94E−02 //15 5//103 BAP60_85B.08121.08121.4 20 BAP60:104- 5.238 BAP60:223 0 −0.2317434 CW090817_092017_(—) NP 5.238 0.19718787 5.60E−02 //19 16//92 BAP60_50B.08300.08300.4 21 BAP60:104- 10.32275 BAP60:158 0 0.18822129 CW090817_092017_(—) N 10.32275 0.38097655 1//9 8//43 BAP60_50B.08481.08481.4 0 0.39013834 CW090817_092017_(—) N 4.29825 0.21148642 //9 4//43 BAP60_1ug.08711.08711.4 0 −0.1041773 CW090817_092017_(—) NP 3.76575 0.22014849 7.03E−03 //19 10//96 BAP60_1ug.10668.10668.4 22 BAP60:104- 4.8375 BAP60:446 −2 4.83326245 CW090817_092017_(—) N 4.8375 0.16700903 //19 11//87 BAP60_70B.17967.17967.4 23 BAP60:104- 8.14175 BAP60:435 0 3.28701353 CW090817_092017_(—) N 8.14175 0.20368378 //19 17//87 BAP60_70B.08041.08041.4 0 −1.5131709 CW090817_092017_(—) NP 6.36175 0.21758127 2.55E−03 //16 7//87 BAP60_70B.10069.10069.4 0 1.74242177 CW090817_092017_(—) N 6.29475 0.2153045 //19 13//109 BAP60_70B.10104.10104.5 0 4.41622131 CW090817_092017_(—) N 5.86725 0.16214592 1//19 13//109 BAP60_70B.08071.08071.5 0 0.21930638 CW090817_092017_(—) N 5.597 0.21445677 //19 12//87 BAP60_70B.10086.10086.4 −1 1.11231476 CW090817_092017_(—) NP 5.39675 0.23595444 2.07E−04 //16 7//87 BAP60_70B.10096.10096.4 24 BAP60:104- 4.12225 BAP60:498 0 2.70970939 CW090817_092017_(—) NP 4.12225 0.15072488 1.56E−03 //19 12//93 BAP60_50B.11879.11879.4 25 BAP60:104- 7.026 BAP60:464 −1 0.6246973 CW090817_092017_(—) N 7.026 0.19652597 //19 11//87 BAP60_50B.11639.11639.4 26 BAP60:104- 8.841 BAP60:354 0 0.88448943 CW090817_092017_(—) N 8.841 0.32947008 1//9 10//45 BAP60_50B.10290.10290.4 −2 −0.1695938 CW090817_092017_(—) NP 5.1095 0.21142904 1.81E−03 1//19 19//94 BAP60_50B.11513.11513.4 −1 −2.5405381 CW090817_092017_(—) NP 4.9065 0.20200918 5.64E−03 1//19 18//94 BAP60_50B.11483.11483.4 0 −0.1695938 CW090817_092017_(—) NP 4.161 0.18412727 8.73E−04 1//19 16//94 BAP60_50B.11491.11491.4 −1 0.9186451 CW090817_092017_(—) N 3.80525 0.20744405 //9 8//45 BAP60_1ug.11978.11978.4 −2 1.05321537 CW090817_092017_(—) N 3.3325 0.13311098 //9 8//45 BAP60_50B.11468.11468.4 −1 0.63424349 CW090817_092017_(—) N 3.01925 0.14249475 //9 9//45 BAP60_50B.11543.11543.4 27 BAP60:104- 4.476 BAP60:118 0 5.49305087 CW090817_092017_(—) NP 4.476 0.17303232 3.85E−05 //17 10//82 BAP60_1ug.09628.09628.4 0 2.22337608 CW090817_092017_(—) P 1.8545 0.05694502 3.73E−04 //17 7//82 BAP60_50B.09248.09248.4 −1 1.87919979 CW090817_092017_(—) P 1.5185 0.07933232 7.77E−02 //17 5//82 BAP60_1ug.09667.09667.4 28 BAP60:104- 4.405 BAP60:125 −1 3.32637805 CW090817_092017_(—) N 4.405 0.20002725 1//10 5//38 BAP60_50B.07544.07544.4 0 6.11933942 CW090817_092017_(—) P 3.1675 0.18200885 4.64E−02 //19 8//98 BAP60_1ug.07767.07767.4 29 BAP60:104- 8.72775 BAP60:328 0 1.73620736 CW090817_092017_(—) NP 8.72775 0.49137203 3.12E−05 //19 19//92 BAP60_100B.05498.05498.4 0 0.41493963 CW090817_092017_(—) NP 8.30225 0.37365543 2.58E−03 1//19 18//114 BAP60_100B.05470.05470.5 0 −3.2567627 CW090817_092017_(—) P 6.958 0.40730551 9.59E−05 //19 14//92 BAP60_100B.05488.05488.4 30 BAP60:104- 6.3875 BAP60:175 0 0.11606974 CW090817_092017_(—) N 6.3875 0.20939877 1//19 16//111 BAP60_70B.11278.11278.5 0 0.11606974 CW090817_092017_(—) N 4.571 0.15091038 //19 13//111 BAP60_70B.11269.11269.5 31 BAP60:118- 6.01775 BAP60:435 −1 1.83713516 CW090817_092017_(—) N 6.01775 0.23715271 1//17 14//82 BAP60_70B.10774.10774.4 32 BAP60:175- 5.4375 BAP60:223 −2 7.33937961 CW090817_092017_(—) N 5.4375 0.27349546 //14 13//62 BAP60_70B.13472.13472.4 −1 1.00401949 CW090817_092017_(—) N 4.93525 0.24721367 //14 12//62 BAP60_70B.13487.13487.4 33 BAP60:233- 5.0115 BAP60:274 0 3.40289507 CW090817_092017_(—) NP 5.0115 0.34863821 6.45E−07 //15 10//140 BAP60_100B.13661.13661.5 0 −0.4369812 CW090817_092017_(—) NP 4.47625 0.28182648 3.11E−04 //15 12//140 BAP60_100B.13656.13656.5 34 BAP60:183- 5.1675 BAP60:223 0 3.22497211 CW090817_092017_(—) N 5.1675 0.25350765 //4 4//16 BAP60_50B.08678.08678.4 35 BAP60:183- 4.7275 BAP60:229 0 −3.1785041 CW090817_092017_(—) P 4.7275 0.21246236 1.32E−02 //16 14//104 BAP60_100B.07850.07850.5 0 −4.4007509 CW090817_092017_(—) P 3.5235 0.27163397 2.34E−03 //16 11//85 BAP60_100B.07902.07902.4 36 BAP60:446- 7.15625 BAP60:464 −2 1.35337086 CW090817_092017_(—) N 7.15625 0.33754304 //17 14//122 BAP60_70B.20394.20394.5 −1 0.71599419 CW090817_092017_(—) N 6.38675 0.35902805 //17 9//122 BAP60_70B.20432.20432.5 −1 2.33658499 CW090817_092017_(—) N 6.192 0.34911059 //17 13//122 BAP60_70B.20453.20453.5 −1 3.92118229 CW090817_092017_(—) N 4.86 0.25574909 //17 9//122 BAP60_70B.20420.20420.5 37 BAP60:196- 14.069 BAP60:274 0 10.5681075 CW090817_092017_(—) N 14.069 0.37578461 //15 9//103 BAP60_70B.17023.17023.6 0 5.56321393 CW090817_092017_(—) P 13.5795 0.37050325 1.38E−04 //6 33//223 BAP60_70B.17022.17022.5 0 0.59064882 CW090817_092017_(—) NP 12.35825 0.35079764 5.89E−04 //6 28//223 BAP60_70B.17090.17090.6 0 −1.3882886 CW090817_092017_(—) P 10.24975 0.36384693 1.41E−03 //6 26//223 BAP60_1ug.18461.18461.6 −1 0.96843972 CW090817_092017_(—) P 8.076 0.32341516 1.22E−04 //6 20//223 BAP60_1ug.18439.18439.5 −1 3.35681245 CW090817_092017_(—) P 7.616 0.35696375 2.20E−01 //6 21//223 BAP60_1ug.18416.18416.5 −1 7.33743366 CW090817_092017_(—) P 6.62375 0.34732054 9.59E−04 //6 20//223 BAP60_85B.17341.17341.5 −1 0.85470769 CW090817_092017_(—) P 5.906 0.33908425 8.41E−02 //6 15//223 BAP60_1ug.18412.18412.5 0 −1.3200494 CW090817_092017_(—) P 5.5345 0.23617394 1.76E−01 //6 18//223 BAP60_85B.17356.17356.6 −2 −0.6693016 CW090817_092017_(—) P 5.39925 0.18333928 1.62E−02 //6 20//223 BAP60_70B.17223.17223.5 0 −6.2920573 CW090817_092017_(—) P 4.9825 0.12672958 4.74E−04 //6 19//262 BAP60_70B.16204.16204.6 −1 0.85470769 CW090817_092017_(—) P 4.9135 0.32315028 3.87E−02 //6 12//223 BAP60_1ug.18409.18409.5 −2 −5.9830628 CW090817_092017_(—) P 4.89925 0.22196172 4.77E−02 //6 16//223 BAP60_85B.17315.17315.6 −2 3.43394969 CW090817_092017_(—) P 4.581 0.23618272 9.48E−01 //6 11//223 BAP60_100B.17353.17353.6 −1 2.04641886 CW090817_092017_(—) P 4.39375 0.14597904 5.09E−02 //6 14//223 BAP60_70B.17231.17231.6 −2 3.43394969 CW090817_092017_(—) P 3.5505 0.1908717 6.44E−01 //6 9//223 BAP60_100B.17348.17348.6 −1 9.62097237 CW090817_092017_(—) P 2.8905 0.21068552 6.00E−01 //6 10//223 BAP60_100B.17393.17393.6 38 BAP60:129- 5.63625 BAP60:354 0 6.20688733 CW090817_092017_(—) N 5.63625 0.29297484 //6 5//26 BAP60_70B.10540.10540.4 39 BAP60:129- 8.22125 BAP60:435 −1 4.75434395 CW090817_092017_(—) N 8.22125 0.33899965 //6 4//22 BAP60_70B.08459.08459.4 −1 17.8511524 CW090817_092017_(—) N 6.8135 0.27799425 //6 5//28 BAP60_70B.08450.08450.5 40 BAP60:138- 6.86125 BAP60:446 0 1.23747259 CW090817_092017_(—) N 6.86125 0.23293612 //13 9//75 BAP60_70B.21552.21552.5 −1 0.71428968 CW090817_092017_(—) N 6.729 0.21940364 //9 6//31 BAP60_85B.19804.19804.4 0 2.51354761 CW090817_092017_(—) N 5.36425 0.23252563 1//9 7//31 BAP60_70B.21862.21862.4 0 4.24832004 CW090817_092017_(—) N 5.04625 0.22339908 //13 8//75 BAP60_70B.21614.21614.5 −1 3.16658568 CW090817_092017_(—) N 3.57425 0.21072102 1//9 7//31 BAP60_70B.23138.23138.4 41 BAP60:138- 5.75325 BAP60:435 0 3.47990367 CW090817_092017_(—) N 5.75325 0.20617642 //9 7//31 BAP60_70B.10658.10658.4 −1 0.50587646 CW090817_092017_(—) N 5.72 0.20058563 //9 6//31 BAP60_70B.10642.10642.4 −1 2.24372564 CW090817_092017_(—) N 2.8005 0.1100501 //13 7//75 BAP60_70B.14536.14536.5 42 BAP60:328- 6.48025 BAP60:354 0 0.2031456 CW090817_092017_(—) N 6.48025 0.40226264 //9 11//56 BAP60_D.09709.09709.5 0 2.17126104 CW090817_092017_(—) N 5.6495 0.39504231 //9 11//56 BAP60_D.09747.09747.5 0 7.10268495 CW090817_092017_(—) N 4.90475 0.34965247 1//9 10//56 BAP60_100B.09171.09171.5 0 1.88432697 CW090817_092017_(—) N 3.3105 0.22834972 //9 9//46 BAP60_D.09705.09705.4 43 BAP60:328- 5.54825 BAP60:342 −1 −0.8287231 CW090817_092017_(—) P 5.54825 0.37087233 4.89E−05 //12 13//129 BAP60_100B.15751.15751.5 0 1.70186856 CW090817_092017_(—) NP 5.25325 0.37349805 2.63E−04 //12 11//129 BAP60_100B.15805.15805.6 −1 2.44397639 CW090817_092017_(—) P 5.062 0.30678788 1.30E−05 //12 12//129 BAP60_100B.15765.15765.5 −2 0.9634133 CW090817_092017_(—) P 4.033 0.2998513 3.41E−06 //12 9//129 BAP60_100B.15810.15810.6 44 BAP60:125- 10.2905 BAP60:435 0 3.20427915 CW090817_092017_(—) N 10.2905 0.36535833 //10 7//34 BAP60_70B.09808.09808.4 3 Bap55 1 Bap55:58- 8.9545 Bap55:72 −1 −0.5978291 CW090817_092017_(—) NP 8.9545 0.29919142 8.30E−13 //3 21//202 BAP60_50B.19548.19548.4 −3 −3.5142291 CW090817_092017_(—) P 7.3635 0.26665339 2.47E−13 //3 18//202 BAP60_50B.19558.19558.4 4 D4 1 D4:232- 6.3625 D4:236 0 0.19703471 CW090817_092017_(—) NP 6.3625 0.32721335 9.14E−06 1//14 14//81 BAP60_85B.04571.04571.5 0 2.18177273 CW090817_092017_(—) P 6.307 0.38842186 5.71E−04 2//14 15//68 BAP60_85B.04564.04564.4 0 0.49230515 CW090817_092017_(—) NP 5.98175 0.36195994 3.87E−07 1//14 14//81 BAP60_85B.04561.04561.5 2 D4:232- 6.63 D4:243 0 1.56809734 CW090817_092017_(—) NP 6.63 0.3608556 4.22E−08 2//14 12//65 BAP60_70B.06181.06181.4 5 Snr1 1 Snr1:183- 8.18625 Snr1:349 0 1.15301103 CW090817_092017_(—) N 8.18625 0.40947629 //4 3//16 BAP60_70B.10299.10299.4 0 0.18351315 CW090817_092017_(—) N 6.8835 0.39988962 //4 3//16 BAP60_70B.12611.12611.4 0 2.55741067 CW090817_092017_(—) P 6.566 0.36130523 6.68E−04 //13 13//61 BAP60_85B.11424.11424.4 0 2.04841616 CW090817_092017_(—) P 6.3775 0.35059509 1.54E−05 //13 12//61 BAP60_85B.11399.11399.4 0 −0.5983553 CW090817_092017_(—) P 6.246 0.33077371 2.35E−04 //13 12//61 BAP60_85B.11411.11411.4 6 OSA 1 OSA:2048- 3.2325 OSA:2058 0 −0.1107444 CW090817_092017_(—) NP 3.2325 0.16173822 1.05E−07 //11 9//57 BAP60_85B.07242.07242.4 7 mor 1 mor:1028- 3.5835 mor:639 0 6.13535166 CW090817_092017_(—) N 3.5835 0.21254448 //7 5//28 BAP60_85B.16053.16053.4 2 mor:1028- 11.6085 mor:378 0 2.26133094 CW090817_092017_(—) N 11.6085 0.42187415 //20 22//103 BAP60_70B.16461.16461.4 3 mor:878- 7.652 mor:885 0 1.70659566 CW090817_092017_(—) P 7.652 0.27433898 7.01E−06 //17 15//93 BAP60_50B.05940.05940.4 0 3.22496302 CW090817_092017_(—) P 5.394 0.23107075 6.29E−05 //17 14//93 BAP60_70B.06162.06162.4 −1 1.48968604 CW090817_092017_(—) P 4.70525 0.17548391 1.64E−04 //17 12//93 BAP60_1ug.06065.06065.4 4 mor:292- 13.549 mor:294 −1 7.09504523 CW090817_092017_(—) N 13.549 0.47994191 //11 10//47 BAP60_50B.11873.11873.4 0 0.55045818 CW090817_092017_(—) N 12.102 0.41339733 //11 8//47 BAP60_50B.11848.11848.4 0 1.38919017 CW090817_092017_(—) N 12.001 0.45077565 //11 8//47 BAP60_50B.11869.11869.4 −1 1.00128551 CW090817_092017_(—) N 10.3085 0.40515259 //11 8//47 BAP60_50B.13267.13267.4 0 7.02344948 CW090817_092017_(—) N 4.881 0.32102338 //11 7//47 BAP60_1ug.12203.12203.4 −1 3.12486001 CW090817_092017_(—) N 4.8055 0.25418529 //11 6//47 BAP60_1ug.12260.12260.4 5 mor:70- 15.82575 mor:8 0 3.75154371 CW090817_092017_(—) NP 15.82575 0.39780683 2.60E−03 4//17 37//146 BAP60_50B.19950.19950.4 0 −1.5305389 CW090817_092017_(—) NP 9.84875 0.50297482 1.51E−07 1//17 22//146 BAP60_1ug.20408.20408.4 −1 −5.8299085 CW090817_092017_(—) NP 7.94525 0.19682294 4.29E−06 1//17 22//146 BAP60_50B.19975.19975.4 −1 4.54999807 CW090817_092017_(—) NP 7.33375 0.36433752 1.75E−08 1//17 19//146 BAP60_1ug.20410.20410.4 −1 1.35618065 CW090817_092017_(—) NP 5.75375 0.28642722 6.43E−05 //17 16//146 BAP60_1ug.20390.20390.4 −1 7.62097635 CW090817_092017_(—) P 4.78975 0.29586448 4.29E−06 //17 15//146 BAP60_1ug.20464.20464.4 6 mor:479- 6.994 mor:483 0 1.84371885 CW090817_092017_(—) N 6.994 0.29990138 //13 8//60 BAP60_50B.16002.16002.4 0 1.76852418 CW090817_092017_(—) N 6.97 0.25723354 //13 12//60 BAP60_50B.14541.14541.4 0 1.76852418 CW090817_092017_(—) N 6.944 0.24632849 //13 11//60 BAP60_50B.14539.14539.4 0 0.66396126 CW090817_092017_(—) N 3.935 0.12188512 1//13 10//60 BAP60_50B.16152.16152.4 7 mor:590- 6.9735 mor:603 0 −3.7230931 CW090817_092017_(—) NP 6.9735 0.32831148 1.98E−11 //18 15//88 BAP60_1ug.19611.19611.4 −1 8.17563322 CW090817_092017_(—) NP 5.16975 0.30440735 9.25E−12 //18 12//88 BAP60_1ug.19578.19578.4 0 3.5082446 CW090817_092017_(—) NP 4.31275 0.25162636 9.95E−06 //18 11//115 BAP60_1ug.19612.19612.5 −2 5.35737099 CW090817_092017_(—) NP 3.55125 0.22146176 6.32E−07 //18 10//115 BAP60_1ug.19574.19574.5 −1 3.0258638 CW090817_092017_(—) NP 3.2215 0.29235865 3.07E−05 //18 8//115 BAP60_70B.18240.18240.5 8 mor:162- 2.18325 mor:334 0 2.35307612 CW090817_092017_(—) P 2.18325 0.19563172 1.58E−04 //14 6//83 BAP60_85B.09660.09660.4 0 −0.8424761 CW090817_092017_(—) P 1.67675 0.12194989 7.84E−03 //14 5//83 BAP60_85B.09680.09680.4 9 mor:162- 2.4865 mor:274 0 0.13032491 CW090817_092017_(—) N 2.4865 0.15674347 1//9 7//36 BAP60_100B.09843.09843.4 10 mor:162- 2.678 mor:333 0 1.95077224 CW090817_092017_(—) NP 2.678 0.12799618 9.65E−03 //10 4//41 BAP60_85B.09627.09627.4 11 mor:832- 3.78 mor:838 0 0.7613903 CW090817_092017_(—) NP 3.78 0.18315285 3.35E−04 1//10 7//41 BAP60_70B.03360.03360.4 0 −1.8121362 CW090817_092017_(—) NP 3.00325 0.21868856 4.42E−04 1//10 6//41 BAP60_D.03328.03328.4 12 mor:748- 6.04325 mor:962 −2 0.97058308 CW090817_092017_(—) N 6.04325 0.26972774 //10 8//47 BAP60_85B.17825.17825.7 −1 2.52054186 CW090817_092017_(—) N 5.2575 0.23572005 //10 7//47 BAP60_85B.17873.17873.6 13 mor:632- 11.60525 mor:639 −2 −1.2302451 CW090817_092017_(—) NP 11.60525 0.32853261 3.01E−08 //11 26//169 BAP60_50B.19871.19871.4 −2 −4.2644292 CW090817_092017_(—) P 10.39825 0.28096544 2.59E−03 //11 27//169 BAP60_50B.19875.19875.4 −1 −4.3992818 CW090817_092017_(—) P 3.9075 0.31180179 3.31E−02 //11 13//169 BAP60_1ug.20308.20308.4 −3 0.38798647 CW090817_092017_(—) P 2.8105 0.2508815 1.28E−03 //11 11//169 BAP60_1ug.20339.20339.4 14 mor:277- 6.54775 mor:334 0 −1.6963383 CW090817_092017_(—) P 6.54775 0.5566158 6.36E−04 //14 13//103 BAP60_D.04647.04647.5 15 mor:277- 4.94125 mor:775 0 −0.9308319 CW090817_092017_(—) P 4.94125 0.33244189 7.62E−05 //12 15//54 BAP60_85B.03942.03942.4 16 mor:277- 4.6045 mor:294 0 4.09710563 CW090817_092017_(—) P 4.6045 0.31935775 1.97E−03 //12 11//60 BAP60_D.02231.02231.4 0 4.11402528 CW090817_092017_(—) N 4.5765 0.31741573 3//8 7//30 BAP60_D.02231.02231.4 0 0.16528886 CW090817_092017_(—) N 4.4315 0.2980863 2//8 8//30 BAP60_D.02575.02575.4 0 0.14835238 CW090817_092017_(—) P 4.34725 0.2924192 3.32E−03 //11 13//56 BAP60_D.02575.02575.4 0 0.00851026 CW090817_092017_(—) P 3.2375 0.30262666 1.32E−02 //11 8//51 BAP60_85B.02930.02930.4 0 −0.0648098 CW090817_092017_(—) P 3.09025 0.38233839 3.66E−03 //11 9//51 BAP60_D.02934.02934.4 17 mor:277- 4.37775 mor:303 0 5.42103169 CW090817_092017_(—) P 4.37775 0.35650882 4.16E−05 //14 10//66 BAP60_D.02273.02273.4 0 6.75544642 CW090817_092017_(—) P 3.62075 0.35267618 1.63E−02 //14 8//66 BAP60_D.02355.02355.4 18 mor:277- 5.88675 mor:333 0 0.40339472 CW090817_092017_(—) P 5.88675 0.35194153 5.96E−05 //10 14//40 BAP60_D.04233.04233.4 19 mor:277- 5.8195 mor:70 0 −0.3042422 CW090817_092017_(—) P 5.8195 0.33317112 6.63E−04 //14 15//68 BAP60_85B.05563.05563.4 20 mor:638- 4.55375 mor:962 −1 1.70169918 CW090817_092017_(—) N 4.55375 0.32340826 //10 10//61 BAP60_100B.09678.09678.5 21 mor:378- 10.5675 mor:378 0 14.0862144 CW090817_092017_(—) N 10.5675 0.35531758 //20 18//132 BAP60_70B.09303.09303.5 −1 19.5115667 CW090817_092017_(—) N 7.794 0.32863889 //20 16//132 BAP60_70B.09367.09367.5 22 mor:378- 3.143 mor:389 −2 −5.8655342 CW090817_092017_(—) P 3.143 0.49566315 5.21E−04 //7 5//357 BAP60_85B.07758.07758.6 23 mor:157- 5.06225 mor:277 −2 3.04253569 CW090817_092017_(—) P 5.06225 0.28717912 1.42E−03 //14 15//134 BAP60_D.15618.15618.5 −1 0.24447156 CW090817_092017_(—) P 4.9705 0.2820622 8.74E−04 //14 15//134 BAP60_D.15607.15607.5 24 mor:157- 4.55425 mor:274 0 4.85547204 CW090817_092017_(—) P 4.55425 0.27036213 1.51E−03 //14 15//135 BAP60_100B.14828.14828.5 25 mor:589- 5.92225 mor:639 0 2.35385393 CW090817_092017_(—) N 5.92225 0.26252854 //7 5//39 BAP60_70B.12316.12316.5 0 0.3595264 CW090817_092017_(—) N 5.3635 0.25421841 //7 4//32 BAP60_70B.12335.12335.4 26 mor:589- 10.92175 mor:594 0 0.1663528 CW090817_092017_(—) NP 10.92175 0.48164359 6.50E−11 1//15 16//73 BAP60_1ug.18355.18355.4 0 −3.0132159 CW090817_092017_(—) NP 9.598 0.36965145 7.02E−09 1//15 15//73 BAP60_50B.17835.17835.4 0 −5.5773841 CW090817_092017_(—) NP 8.99025 0.50215042 8.03E−08 1//15 16//73 BAP60_70B.17014.17014.4 0 0.1663528 CW090817_092017_(—) NP 7.702 0.48861257 3.33E−06 //15 14//73 BAP60_1ug.18326.18326.4 0 −1.9185394 CW090817_092017_(—) NP 4.54 0.21789734 6.87E−02 //19 17//163 BAP60_70B.17391.17391.5 27 mor:589- 10.418 mor:603 0 0.69435662 CW090817_092017_(—) NP 10.418 0.38413038 1.30E−08 //18 17//115 BAP60_50B.19194.19194.5 0 −1.2150674 CW090817_092017_(—) NP 9.74875 0.36813436 1.40E−08 //18 17//115 BAP60_50B.19154.19154.5 28 mor:589- 3.844 mor:610 −2 2.53390334 CW090817_092017_(—) P 3.844 0.13180182 2.84E−02 //14 12//237 BAP60_50B.21129.21129.5 29 mor:589- 4.14875 mor:590 0 8.92866734 CW090817_092017_(—) N 4.14875 0.19640448 //10 7//44 BAP60_85B.13972.13972.5 30 mor:827- 3.5695 mor:838 0 −1.8121362 CW090817_092017_(—) NP 3.5695 0.25339864 7.48E−05 //11 8//49 BAP60_D.02858.02858.4 31 mor:274- 6.19975 mor:293 0 1.22377807 CW090817_092017_(—) NP 6.19975 0.42554396 4.68E−04 //12 13//57 BAP60_D.02102.02102.4 32 mor:274- 2.7235 mor:70 0 −1.2254549 CW090817_092017_(—) P 2.7235 0.28184829 8.59E−04 //14 9//66 BAP60_85B.05334.05334.4 33 mor:962- 8.06825 mor:973 −1 0.55610673 CW090817_092017_(—) N 8.06825 0.43417371 //10 8//58 BAP60_D.19037.19037.5 34 mor:962- 15.62 mor:962 −1 1.24177678 CW090817_092017_(—) NP 15.62 0.83147024 1.36E−08 1//10 18//64 BAP60_D.12348.12348.5 −2 −1.8336116 CW090817_092017_(—) NP 11.8645 0.64605625 4.02E−05 //10 14//64 BAP60_D.12288.12288.5 0 −3.0051033 CW090817_092017_(—) NP 11.2735 0.6670118 1.13E−08 //10 16//53 BAP60_D.12359.12359.4 35 mor:962- 5.32875 mor:986 0 −0.4077356 CW090817_092017_(—) NP 5.32875 0.30979304 4.66E−06 //10 14//53 BAP60_85B.11371.11371.4 36 mor:119- 5.6055 mor:162 0 4.26596036 CW090817_092017_(—) P 5.6055 0.24178834 3.65E−04 //13 17//65 BAP60_70B.16206.16206.4 −1 7.98093427 CW090817_092017_(—) NP 2.99475 0.20500051 6.85E−05 //14 9//71 BAP60_85B.15203.15203.4 0 2.99902115 CW090817_092017_(—) NP 2.69225 0.15493626 4.52E−05 //14 10//71 BAP60_85B.15150.15150.4 37 mor:882- 13.44925 mor:888 0 3.31581787 CW090817_092017_(—) P 13.44925 0.52251404 6.73E−05 1//18 35//134 BAP60_50B.10741.10741.4 0 4.32450491 CW090817_092017_(—) NP 10.53725 0.52732391 5.75E−05 //18 23//134 BAP60_D.10862.10862.4 −1 2.05495908 CW090817_092017_(—) P 9.68975 0.51645614 3.74E−03 //18 27//134 BAP60_D.10869.10869.4 0 1.80278732 CW090817_092017_(—) P 8.68325 0.39863423 1.68E−02 //18 27//134 BAP60_D.10931.10931.4 38 mor:758- 11.806 mor:962 0 1.72901476 CW090817_092017_(—) N 11.806 0.36460778 1//10 10//58 BAP60_70B.16697.16697.5 0 0.45728055 CW090817_092017_(—) N 10.91825 0.38288154 3//10 12//47 BAP60_70B.16744.16744.6 0 0.55240196 CW090817_092017_(—) N 10.64225 0.38380879 2//10 10//47 BAP60_70B.16683.16683.6 0 0.49393452 CW090817_092017_(—) N 10.48575 0.39531574 2//10 11//47 BAP60_85B.16954.16954.6 0 4.82044338 CW090817_092017_(—) N 9.61 0.3366909 //10 9//58 BAP60_85B.16992.16992.5 0 0.49393452 CW090817_092017_(—) N 9.50175 0.3800852 1//10 10//47 BAP60_85B.16958.16958.6 −2 1.83158081 CW090817_092017_(—) N 9.166 0.37253348 1//10 9//47 BAP60_85B.16932.16932.6 0 1.09487319 CW090817_092017_(—) N 9.091 0.33289392 //10 9//58 BAP60_85B.16946.16946.5 0 6.11854374 CW090817_092017_(—) N 8.98825 0.34278169 //10 9//58 BAP60_85B.16942.16942.5 0 4.97897767 CW090817_092017_(—) N 7.9445 0.3043928 //10 9//58 BAP60_85B.16925.16925.5 −1 5.48140269 CW090817_092017_(—) N 7.10425 0.24251139 //10 9//58 BAP60_70B.16787.16787.5 −1 1.43982419 CW090817_092017_(—) N 6.89675 0.38187985 //10 8//58 BAP60_100B.16964.16964.5 −1 2.23229313 CW090817_092017_(—) N 6.64925 0.27993306 //10 9//58 BAP60_D.17924.17924.5 −2 5.34581252 CW090817_092017_(—) N 6.41675 0.23263001 //10 9//58 BAP60_70B.16624.16624.5 −2 8.43568715 CW090817_092017_(—) N 6.142 0.20945658 //10 9//58 BAP60_70B.16638.16638.5 −1 1.17533226 CW090817_092017_(—) N 5.7635 0.24519272 //10 8//58 BAP60_D.17852.17852.5 0 0.58905613 CW090817_092017_(—) N 5.23675 0.26472298 //10 8//47 BAP60_D.17904.17904.6 −1 1.05497016 CW090817_092017_(—) N 4.74875 0.14757983 //10 7//58 BAP60_70B.18003.18003.5 −2 6.87267475 CW090817_092017_(—) N 4.24875 0.14969612 //10 7//58 BAP60_70B.17965.17965.5 39 mor:826- 3.8995 mor:834 0 −0.1314487 CW090817_092017_(—) NP 3.8995 0.26157974 6.30E−08 //12 10//57 BAP60_D.05308.05308.4 40 mor:806- 6.034 mor:827 −1 −5.9473775 CW090817_092017_(—) P 6.034 0.22267326 4.98E−02 //3 21//338 BAP60_50B.14282.14282.5 41 mor:639- 6.18675 mor:962 0 0.63801558 CW090817_092017_(—) N 6.18675 0.34497324 //7 4//32 BAP60_85B.08410.08410.4 8 BCL7 1 BCL7:14- 7.0925 BCL7:26 0 0.46893099 CW090817_092017_(—) N 7.0925 0.32886653 //7 6//34 BAP60_70B.07646.07646.4 0 1.55281314 CW090817_092017_(—) N 3.705 0.17050161 //7 5//41 BAP60_70B.07660.07660.5 9 brm 1 brm:1303- 10.427 brm:1311 0 2.29149773 CW090817_092017_(—) NP 10.427 0.48287679 2.50E−05 1//11 13//75 BAP60_100B.12168.12168.5 0 3.36035242 CW090817_092017_(—) NP 9.46275 0.59600365 2.82E−13 1//11 11//60 BAP60_100B.11832.11832.4 0 9.1238501 CW090817_092017_(—) NP 6.77625 0.48772807 4.56E−06 //11 8//60 BAP60_100B.12163.12163.4 0 −0.9227606 CW090817_092017_(—) NP 6.141 0.32594676 2.52E−03 //11 8//75 BAP60_100B.12005.12005.5 −1 1.20047575 CW090817_092017_(—) NP 5.942 0.29892343 2.43E−04 1//11 11//75 BAP60_100B.12145.12145.6 0 0.56863516 CW090817_092017_(—) N 5.8615 0.24081264 //12 11//65 BAP60_D.12706.12706.5 0 2.47366046 CW090817_092017_(—) P 5.80325 0.47437365 6.46E−07 //11 3//60 BAP60_100B.12019.12019.4 −1 8.14848895 CW090817_092017_(—) P 5.44 0.34052142 3.19E−16 //11 7//60 BAP60_100B.11827.11827.4 −2 −2.4031453 CW090817_092017_(—) P 4.87125 0.4149276 2.79E−08 //11 6//60 BAP60_100B.12187.12187.4 −1 1.14362254 CW090817_092017_(—) P 4.73525 0.36910515 3.00E−04 //11 3//60 BAP60_D.12750.12750.4 2 brm:1303- 11.4865 brm:1310 0 8.16583191 CW090817_092017_(—) NP 11.4865 0.51012568 9.54E−07 1//12 13//83 BAP60_100B.11812.11812.5 −1 5.86043283 CW090817_092017_(—) NP 9.4315 0.48698818 1.29E−05 1//12 9//83 BAP60_100B.11800.11800.5 −1 4.53039491 CW090817_092017_(—) NP 9.42175 0.45359026 4.57E−02 1//12 12//83 BAP60_100B.11963.11963.5 0 3.36035242 CW090817_092017_(—) NP 9.16475 0.52612015 3.71E−14 1//12 8//66 BAP60_100B.11837.11837.4 0 1.8529761 CW090817_092017_(—) NP 8.74925 0.5056347 3.66E−13 //12 8//66 BAP60_100B.11847.11847.4 0 −1.304429 CW090817_092017_(—) NP 8.04475 0.34085035 9.98E−05 2//12 12//83 BAP60_100B.12069.12069.6 3 brm:1453- 6.402 brm:1475 0 0.28047081 CW090817_092017_(—) P 6.402 0.42596227 3.61E−10 //14 16//74 BAP60_50B.15988.15988.4 4 brm:543- 3.3265 brm:558 0 0.8766145 CW090817_092017_(—) N 3.3265 0.21986847 //6 4//24 BAP60_100B.03765.03765.6 5 brm:535- 5.9155 brm:543 0 0.8623 CW090817_092017_(—) N 5.9155 0.35514664 //10 7//35 BAP60_100B.05719.05719.6 0 0.6641602 CW090817_092017_(—) N 5.74375 0.32354598 //10 8//43 BAP60_100B.05750.05750.5 0 1.21051856 CW090817_092017_(—) N 4.74675 0.33675641 //10 6//35 BAP60_100B.06435.06435.6 −2 14.09525 CW090817_092017_(—) N 3.68775 0.2734908 //10 5//35 BAP60_100B.06187.06187.6 −1 6.28727551 CW090817_092017_(—) N 3.6545 0.31477175 //10 6//43 BAP60_100B.06124.06124.5 −2 14.09525 CW090817_092017_(—) N 3.64775 0.2695747 //10 6//35 BAP60_100B.06194.06194.6 6 brm:557- 6.18925 brm:565 −3 8.61637622 CW090817_092017_(—) N 6.18925 0.26521758 1//6 7//27 BAP60_85B.04674.04674.4 0 −1.5263734 CW090817_092017_(—) NP 3.6665 0.27520078 4.89E−02 //10 8//42 BAP60_85B.04510.04510.4 0 1.06399114 CW090817_092017_(—) P 3.666 0.15709633 4.21E−02 //10 9//42 BAP60_85B.04674.04674.4 −1 7.70028347 CW090817_092017_(—) N 2.57825 0.21452344 //7 5//23 BAP60_85B.04916.04916.4 −1 8.86534426 CW090817_092017_(—) N 2.352 0.17984401 //7 5//23 BAP60_85B.04954.04954.4 0 2.22965518 CW090817_092017_(—) P 2.10875 0.17107451 3.36E−02 //10 5//42 BAP60_D.04592.04592.4 7 brm:1468- 3.5515 brm:1474 0 2.14374141 CW090817_092017_(—) N 3.5515 0.22309819 //12 6//65 BAP60_70B.17477.17477.5 −1 0.01178086 CW090817_092017_(—) N 3.296 0.23104693 //12 4//65 BAP60_100B.17779.17779.5 8 brm:1149- 6.323 brm:1159 0 −1.3595474 CW090817_092017_(—) NP 6.323 0.29309785 3.19E−09 //17 16//117 BAP60_70B.10669.10669.5 0 4.55430715 CW090817_092017_(—) NP 6.3055 0.2938805 7.75E−09 //17 18//92 BAP60_70B.10677.10677.4 10 Polybromo 1 Polybromo:631- 2.23725 Polybromo:637 0 2.6259633 CW090817_092017_(—) P 2.23725 0.19393637 1.21E−05 //12 6//56 BAP60_85B.09815.09815.4 2 Polybromo:1062- 5.1185 Polybromo:976 0 −0.1716051 CW090817_092017_(—) NP 5.1185 0.23066177 4.38E−05 4//10 14//41 BAP60_70B.13221.13221.4 0 1.17498026 CW090817_092017_(—) NP 4.23575 0.17713539 3.84E−04 4//10 13//41 BAP60_70B.13244.13244.4 Total unique intra crosslinks are: 111 Total counted intra crosslinks are: 394 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 0.96675 1.16666667 R.YSK[1307.66]R.V tr|Q9W384|Q9W384_DROME:101 1 Bap111 4.75325 1.625 R.HC[160.03]K[1963.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 2.65575 1.29166667 R.HC[160.03]K[1963.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 4.18825 1.375 R.HC[160.03]K[1963.95]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 2.47675 1.04166667 R.HC[160.03]K[1963.97]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 1.46375 0.54166667 R.HC[160.03]K[1963.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 3.43375 0.71428571 R.MVESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 1 Bap111 1.28725 0.70833333 R.HC[160.03]K[1947.94]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 2.5465 0.91666667 R.HC[160.03]K[1947.97]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 2.057 0.53571429 R.MVESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 1 Bap111 1.66925 0.54166667 R.HC[160.03]K[1963.98]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 2.241 1.1 K.SSSSK[1795.86]NQNESR.L tr|Q9W384|Q9W384_DROME:75 1 Bap111 2.1505 1.1 K.SSSSK[1795.87]NQNESR.L tr|Q9W384|Q9W384_DROME:75 1 Bap111 1.2415 0.6 K.SSSSK[1795.87]NQNESR.L tr|Q9W384|Q9W384_DROME:75 1 Bap111 1.26175 0.94444444 R.GGGSK[1795.87]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 1.505 0.66666667 R.GGGSK[1795.87]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 1.196 0.94444444 R.GGGSK[1795.88]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 2.98075 1 K.SSSSK[1307.66]NQNESR.L tr|Q9W384|Q9W384_DROME:75 1 Bap111 1.86875 0.63636364 K.SSSSK[1307.66]NQNESR.L tr|Q9W384|Q9W384_DROME:75 1 Bap111 11.28425 1.57692308 R.RIDIQPAEDEDDQDEGYTTK[1307.66]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 5.41525 0.88461539 R.RIDIQPAEDEDDQDEGYTTK[1307.66]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 0.9685 0.88888889 R.GGGSK[3314.55]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 3.11225 0.5 R.RIDIQPAEDEDDQDEGYTTK[1307.66]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 4.04325 0.58 R.NKDQTPIFTHSNYGNPAFTPQK[1307.66]VTK.S tr|Q9W384|Q9W384_DROME:67 1 Bap111 4.506 0.7 R.NKDQTPIFTHSNYGNPAFTPQK[1307.66]VTK.S tr|Q9W384|Q9W384_DROME:67 1 Bap111 4.04725 0.64 R.NKDQTPIFTHSNYGNPAFTPQK[1307.66]VTK.S tr|Q9W384|Q9W384_DROME:67 1 Bap111 2.8045 0.79166667 K.VK[2226.1]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 1 Bap111 1.934 0.54166667 K.VK[2226.08]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 1 Bap111 2.229 0.79166667 K.VK[2210.06]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 1 Bap111 1.57625 0.58333333 K.VK[2226.08]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 1 Bap111 1.54275 1 R.GGGSK[2226.07]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 7.38475 1.32 R.NKDQTPIFTHSNYGNPAFTPQK[1488.72]VTK.S tr|Q9W384|Q9W384_DROME:67 1 Bap111 6.6405 1.38 R.NKDQTPIFTHSNYGNPAFTPQK[1488.72]VTK.S tr|Q9W384|Q9W384_DROME:67 1 Bap111 3.4785 1.1875 R.M[147.04]K[2338.18]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.541 0.95833333 R.LLEDGK[1499.78]GDPNTK.I sp|Q9VYG2|BAP60_DROME:223 1 BAP60 2.689 1.42857143 R.K[1949.08]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 1 BAP60 1.42075 0.75 R.LLEDGK[1311.73]GDPNTKIK.R sp|Q9VYG2|BAP60_DROME:223 1 BAP60 2.721 1.3125 R.K[1499.79]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 1.8995 1.125 R.K[1499.79]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 3.31325 1.9375 R.K[1384.75]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 3.138 1.5625 R.K[2294.15]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 4.48525 2.375 R.K[1478.89]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 4.203 1.8125 R.K[1478.88]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 4.7045 2.125 R.K[1478.89]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 3.11925 1.3125 R.K[1478.88]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 2.267 1.5 R.K[2081.06]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 3.1665 1.5625 R.K[1439.79]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 2.497 1.5 R.K[1228.69]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 1 BAP60 4.8125 1.875 R.K[2338.16]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 5.957 1.67857143 K.IHETVDTINQM[147.04]K[2294.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 6.25675 2.03571429 K.IHETVDTINQM[147.04]K[2294.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 5.5985 1.64285714 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.2815 1.28571429 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 6.002 1.64285714 K.IHETVDTINQM[147.04]K[2276.13]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 5.43975 1.5 K.IHETVDTINQM[147.04]K[2294.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.45525 1.28571429 K.IHETVDTINQM[147.04]K[2278.18]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.646 1.21428571 K.IHETVDTINQM[147.04]K[2276.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.875 1.42857143 K.IHETVDTINQM[147.04]K[2294.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.646 1.39285714 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 5.7745 1.53571429 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 5.02 1.32142857 K.IHETVDTINQMK[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.6525 1.28571429 K.IHETVDTINQM[147.04]K[2276.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.4745 1.21428571 K.IHETVDTINQM[147.04]K[2294.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.85725 1.21428571 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.74725 1.5 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.45975 1.32142857 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.32725 1.10714286 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.8825 1.14285714 K.IHETVDTINQM[147.04]K[2276.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.392 1.17857143 K.IHETVDTINQM[147.04]K[2294.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.41775 1.17857143 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.89875 1.07142857 K.IHETVDTINQM[147.04]K[2294.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.94575 1.21428571 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.316 1.14285714 K.IHETVDTINQM[147.04]K[2278.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.783 1.28571429 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.04425 1.25 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.977 1.07142857 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.70325 1.14285714 K.IHETVDTINQM[147.04]K[2276.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.224 1.21428571 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.27675 1.32142857 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.16375 1.17857143 K.IHETVDTINQM[147.04]K[2276.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.011 1.14285714 K.IHETVDTINQM[147.04]K[2276.12]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.224 1.17857143 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.7145 1.25 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.4585 1.14285714 K.IHETVDTINQM[147.04]K[2278.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.42625 1.35714286 K.IHETVDTINQM[147.04]K[2294.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.303 1 K.IHETVDTINQM[147.04]K[2276.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.2435 0.85714286 K.IHETVDTINQM[147.04]K[2276.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.75475 0.96428571 K.IHETVDTINQM[147.04]K[2294.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.70675 1.07142857 K.IHETVDTINQM[147.04]K[2278.18]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.2615 1.17857143 K.IHETVDTINQM[147.04]K[2278.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.97375 0.85714286 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.8645 0.85714286 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.19175 0.92857143 K.IHETVDTINQM[147.04]K[2276.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.23525 1.21428571 K.IHETVDTINQM[147.04]K[2294.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.60725 1.21428571 K.IHETVDTINQM[147.04]K[2276.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.5845 1.03571429 K.IHETVDTINQMK[2294.12]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.123 1.14285714 K.IHETVDTINQM[147.04]K[2276.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.751 0.82142857 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.30825 0.60714286 K.IHETVDTINQM[147.04]K[2276.13]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.305 0.85714286 K.IHETVDTINQM[147.04]K[2276.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.677 0.85714286 K.IHETVDTINQM[147.04]K[2278.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.86125 1.17857143 K.IHETVDTINQM[147.04]K[2276.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.87325 1.07142857 K.IHETVDTINQM[147.04]K[2294.13]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.7825 0.82142857 K.IHETVDTINQM[147.04]K[2278.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.718 1.28571429 K.IHETVDTINQM[147.04]K[2276.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.035 0.96428571 K.IHETVDTINQM[147.04]K[2294.11]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.29475 0.78571429 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.9375 0.92857143 K.IHETVDTINQM[147.04]K[2278.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.008 0.64285714 K.IHETVDTINQM[147.04]K[2278.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.083 0.89285714 K.IHETVDTINQM[147.04]K[2294.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.919 0.96428571 K.IHETVDTINQMK[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.8875 0.82142857 K.IHETVDTINQM[147.04]K[2276.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.85725 0.82142857 K.IHETVDTINQM[147.04]K[2294.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.73075 0.82142857 K.IHETVDTINQM[147.04]K[2276.12]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.48475 0.78571429 K.IHETVDTINQM[147.04]K[2294.11]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.22325 0.82142857 K.IHETVDTINQM[147.04]K[2294.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.11425 0.67857143 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.1555 0.78571429 K.IHETVDTINQM[147.04]K[2294.13]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.13425 0.67857143 K.IHETVDTINQM[147.04]K[2276.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 1.49175 0.60714286 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.03 0.53571429 K.IHETVDTINQM[147.04]K[2276.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 1.40325 0.60714286 K.IHETVDTINQMK[2294.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 1.90775 0.53571429 K.IHETVDTINQM[147.04]K[2276.12]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.62775 1.375 R.YFFTK[2081.06]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 BAP60 1.5815 1.25 R.YFFTK[2081.05]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 BAP60 1.70625 0.6875 R.YFFTK[2081.06]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 BAP60 1.78075 1.1875 R.YFFTK[2081.04]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 BAP60 3.43075 1.21428571 K.IHETVDTINQM[147.04]K[2254.1]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.424 1.78571429 R.LLEDGKGDPNTK[1155.63]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 6.08725 1.92857143 R.LLEDGKGDPNTK[1155.63]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 3.2255 1.42857143 R.K[1949.09]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 1 BAP60 5.533 1.39285714 R.LLEDGKGDPNTK[1311.73]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 2.7955 0.89285714 R.LLEDGKGDPNTK[1311.73]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 4.2435 1.03571429 R.LLEDGKGDPNTK[1155.63]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 3.044 1.42857143 R.K[1949.09]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 1 BAP60 1.51225 0.64285714 R.LLEDGKGDPNTK[1311.73]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 2.2955 0.46428571 R.LLEDGKGDPNTK[1155.63]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 2.092 0.71428571 R.LLEDGKGDPNTK[1155.63]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 0.50575 0.61111111 K.GDPNTK[1155.63]IKR.K sp|Q9VYG2|BAP60_DROME:229 1 BAP60 3.293 1.5 R.M[147.04]K[2531.16]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 3.217 1.5 R.M[147.04]K[2531.2]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.5315 1.0625 R.M[147.04]K[2531.2]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.56025 1.0625 R.M[147.04]K[2531.15]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.5485 1.0625 R.M[147.04]K[2531.17]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.18225 1.0625 R.M[147.04]K[2531.19]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.26425 1.0625 R.M[147.04]K[2531.19]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.08875 1.125 R.M[147.04]K[2531.17]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 1.8495 1.0625 R.M[147.04]K[2531.15]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 1.31825 0.5625 R.M[147.04]K[2531.18]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 3.59225 1.875 R.YFFTK[2254.13]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 BAP60 3.5495 1.75 R.YFFTK[2254.12]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 BAP60 1.401 0.875 R.YFFTK[2098]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 BAP60 1.6965 0.875 R.YFFTK[2254.13]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 BAP60 3.24775 1.125 R.DLK[1439.78]LMTDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 1 BAP60 1.3435 0.6875 R.YFFTK[2254.09]VNQK.R sp|Q9VYG2|BAP60_DROME:498 1 BAP60 9.68325 2.08823529 R.GTGAGGGGVGSGGGSK[1155.63]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 1.19075 0.41666667 R.THTTQETDGFQVK[1583.8]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 1 BAP60 1.217 0.41666667 R.THTTQETDGFQVK[1583.8]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 1 BAP60 0.384 0.13888889 R.THTTQETDGFQVK[1583.8]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 1 BAP60 3.96 1.02941177 R.GTGAGGGGVGSGGGSK[1551.81]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 2.0185 1.1875 R.K[1583.8]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 1.0505 0.75 R.K[1583.8]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 1 BAP60 2.34 0.58823529 R.GTGAGGGGVGSGGGSK[1212.69]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 1.958 0.6875 R.GTGAGGGGVGSGGGSK[2294.17]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 4.903 1.5 R.GTGAGGGGVGSGGGSK[2081.05]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 2.79575 0.6 K.IHETVDTINQMK[1583.8]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 1.4565 0.71875 R.GTGAGGGGVGSGGGSK[2065.06]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 1.40125 0.78125 R.GTGAGGGGVGSGGGSK[2081.07]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 2.50675 0.84375 R.GTGAGGGGVGSGGGSK[2065.06]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 1.6485 0.5 K.IHETVDTINQMK[1583.8]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.6585 0.91176471 R.GTGAGGGGVGSGGGSK[1439.78]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 1.69575 0.75 R.GTGAGGGGVGSGGGSK[2098.02]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 3.178 1.6875 R.M[147.04]K[1583.8]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 3.08175 1.08823529 R.GTGAGGGGVGSGGGSK[1384.75]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 2.94425 1.05882353 R.GTGAGGGGVGSGGGSK[1384.75]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 2.03625 0.85294118 R.GTGAGGGGVGSGGGSK[1384.75]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 1.81425 1.1875 R.MK[1583.8]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 1.4955 1.1875 R.MK[1583.8]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 1.4385 1.25 R.MK[1583.8]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.07625 0.66666667 R.SLGGGGSK[1583.8]SDFATAK.K sp|Q9VYG2|BAP60_DROME:118 1 BAP60 0.8355 0.3 R.SLGGGGSK[1583.8]SDFATAK.K sp|Q9VYG2|BAP60_DROME:118 1 BAP60 0.50075 0.23333333 R.SLGGGGSK[1583.8]SDFATAK.K sp|Q9VYG2|BAP60_DROME:118 1 BAP60 0.93025 0.71428571 K.SDFATAK[1583.81]K.K sp|Q9VYG2|BAP60_DROME:125 1 BAP60 2.58925 0.61764706 R.GTGAGGGGVGSGGGSK[1132.61]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 7.7775 1.61764706 R.GTGAGGGGVGSGGGSK[1499.78]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 5.2175 1.23529412 R.GTGAGGGGVGSGGGSK[1499.78]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 6.1305 1.11764706 R.GTGAGGGGVGSGGGSK[1499.78]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 5.272 1.28125 R.GTGAGGGGVGSGGGSK[1722.97]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 3.3235 0.8125 R.GTGAGGGGVGSGGGSK[1722.97]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 2.33725 0.92857143 R.SLGGGGSK[2081.05]SDFATAK.K sp|Q9VYG2|BAP60_DROME:118 1 BAP60 4.07925 1.5 R.LLEDGK[1722.95]GDPNTK.I sp|Q9VYG2|BAP60_DROME:223 1 BAP60 3.60775 1.36363636 R.LLEDGK[1722.97]GDPNTK.I sp|Q9VYG2|BAP60_DROME:223 1 BAP60 2.6135 0.55555556 R.THTTQETDGFQVK[1155.63]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 1 BAP60 3.046 0.66666667 R.THTTQETDGFQVK[1155.63]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 1 BAP60 0.935 1.5 R.K[1551.82]LR.I sp|Q9VYG2|BAP60_DROME:183 1 BAP60 4.352 0.92857143 R.LLEDGKGDPNTK[837.55]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 3.43625 0.75 R.LLEDGKGDPNTK[837.55]IK.R sp|Q9VYG2|BAP60_DROME:229 1 BAP60 4.5225 1.23333333 R.DLK[2294.16]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 1 BAP60 3.85975 0.96666667 R.DLK[2294.16]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 1 BAP60 4.236 1.2 R.DLK[2294.15]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 1 BAP60 2.677 0.73333333 R.DLK[2294.17]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 1 BAP60 1.76075 0.58823529 R.THTTQETDGFQVK[3422.72]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 1 BAP60 11.66575 1.55357143 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 10.695 1.46428571 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 8.965 1.23214286 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 7.24975 0.83928571 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 6.976 0.96428571 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 5.76725 0.75 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 5.2365 0.67857143 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 5.17525 0.75 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 4.64375 0.78571429 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 3.125 0.59375 R.IFISNTFYPSK[1912.96]EPTNDGEEGAVASWELRVEGR.L sp|Q9VYG2|BAP60_DROME:196 1 BAP60 4.22675 0.48214286 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 4.4365 0.625 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 3.947 0.53571429 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 3.788 0.58928571 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 3.02475 0.30357143 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 2.684 0.375 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 1.3695 1.6 K.K[1400.74]LAEK.I sp|Q9VYG2|BAP60_DROME:129 1 BAP60 1.18 1.2 K.K[2081.07]LAEK.I sp|Q9VYG2|BAP60_DROME:129 1 BAP60 1.679 1.6 K.K[2081.01]LAEK.I sp|Q9VYG2|BAP60_DROME:129 1 BAP60 2.5 1.1 K.LAEK[284.17]ILPQK[2294.15]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 0.9415 0.83333333 K.ILPQK[2294.16]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 1.1785 0.91666667 K.ILPQK[2276.15]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 1.92175 0.9 K.LAEK[284.17]ILPQK[2294.17]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 0.98775 0.91666667 K.ILPQK[2294.15]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 1.3065 1.16666667 K.ILPQK[2081.07]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 1.187 1.08333333 K.ILPQK[2081.06]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 0.99175 0.55 K.LAEK[284.17]ILPQK[2081.05]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 4.29525 1.875 R.M[147.04]K[1499.78]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 3.9405 1.875 R.M[147.04]K[1499.79]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 3.49175 1.4375 R.M[147.04]K[1499.8]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.37025 1.25 R.M[147.04]K[1499.79]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 5.17275 0.91176471 R.EYINC[160.03]DK[1499.78]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 4.1855 0.79411765 R.EYINC[160.03]DK[1499.78]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 4.4585 0.82352941 R.EYINC[160.03]DK[1499.78]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 3.54025 0.67647059 R.EYINC[160.03]DK[1499.78]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 1.82475 1.21428571 K.SDFATAK[2081.07]K.K sp|Q9VYG2|BAP60_DROME:125 1 BAP60 5.54525 0.58571429 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 3.54325 0.45714286 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 5.1055 1.625 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.70925 1.66666667 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.92175 1.625 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.107 1.08333333 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.0115 1.33333333 K.K[1612.85]IR.D tr|Q24090|Q24090_DROME:349 1 Snr1 1.0485 1.33333333 K.K[1596.85]IR.D tr|Q24090|Q24090_DROME:349 1 Snr1 6.331 1.81818182 R.LDMELEGQK[1195.67]LR.D tr|Q24090|Q24090_DROME:183 1 Snr1 6.12825 1.54545455 R.LDMELEGQK[1195.67]LR.D tr|Q24090|Q24090_DROME:183 1 Snr1 5.9975 1.63636364 R.LDMELEGQK[1195.67]LR.D tr|Q24090|Q24090_DROME:183 1 Snr1 2.18 1.25 R.K[879.54]RTELASSSR.K sp|Q8IN94|OSA_DROME:2048 1 OSA 1.0545 0.83333333 K.K[1993.03]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 1 mor 10.3575 2.05882353 K.ANAALQSTASPAPGGK[1993.05]SR.G tr|Q9VF03|Q9VF03_DROME:378 1 mor 6.87575 1.5 K.ESSGSSPSGDK[943.5]SAIK.S tr|Q9VF03|Q9VF03_DROME:878 1 mor 4.787 1.36666667 K.ESSGSSPSGDK[943.5]SAIK.S tr|Q9VF03|Q9VF03_DROME:878 1 mor 4.48375 1 K.ESSGSSPSGDK[943.5]SAIK.S tr|Q9VF03|Q9VF03_DROME:878 1 mor 3.3225 1.65 K.K[1912.86]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 1 mor 2.68225 1.25 K.K[1912.88]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 1 mor 3.031 1.2 K.K[1912.88]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 1 mor 1.3325 1.25 K.K[1912.88]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 1 mor 1.579 1 K.K[1912.86]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 1 mor 1.3465 0.7 K.K[1912.87]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 1 mor 13.17025 2.04347826 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 7.907 1.19565217 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 6.34975 1.02173913 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 5.63275 0.76086957 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 4.05375 0.58695652 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 3.829 0.56521739 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 1.30025 0.6 R.AM[147.04]PEFFNSK[1623.83]NK.S tr|Q9VF03|Q9VF03_DROME:479 1 mor 2.117 1.2 R.AM[147.04]PEFFNSK[1639.83]NK.S tr|Q9VF03|Q9VF03_DROME:479 1 mor 1.461 0.85 R.AM[147.04]PEFFNSK[1639.83]NK.S tr|Q9VF03|Q9VF03_DROME:479 1 mor 1.0885 0.7 R.AMPEFFNSK[1639.83]NK.S tr|Q9VF03|Q9VF03_DROME:479 1 mor 5.39225 1.09375 K.DGGLELGDK[1605.97]SGLTGIK.T tr|Q9VF03|Q9VF03_DROME:603 1 mor 3.596 0.75 K.DGGLELGDK[1605.97]SGLTGIK.T tr|Q9VF03|Q9VF03_DROME:603 1 mor 2.479 0.6875 K.DGGLELGDK[1605.97]SGLTGIK.T tr|Q9VF03|Q9VF03_DROME:603 1 mor 2.1055 0.8125 K.DGGLELGDK[1605.97]SGLTGIK.T tr|Q9VF03|Q9VF03_DROME:603 1 mor 1.89825 0.53125 K.DGGLELGDK[1605.97]SGLTGIK.T tr|Q9VF03|Q9VF03_DROME:603 1 mor 1.1835 0.61538462 K.K[1071.61]SRNDDDDEDLTR.D tr|Q9VF03|Q9VF03_DROME:334 1 mor 0.4755 0.26923077 K.K[1071.61]SRNDDDDEDLTR.D tr|Q9VF03|Q9VF03_DROME:334 1 mor 1.1945 0.75 K.GFEGK[1218.71]LR.E tr|Q9VF03|Q9VF03_DROME:162 1 mor 1.0165 0.5625 R.SPAVVHK[1071.61]K.S tr|Q9VF03|Q9VF03_DROME:333 1 mor 1.2065 1.0625 K.KDDDAK[1072.54]SK.D tr|Q9VF03|Q9VF03_DROME:832 1 mor 0.91825 0.625 K.KDDDAK[1072.54]SK.D tr|Q9VF03|Q9VF03_DROME:832 1 mor 3.09 1.16666667 K.AK[3423.74]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 2.319 0.94444444 K.AK[3423.73]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 10.55775 1.46428571 K.TEALENGAAGGLSSGVSQFGLK[938.54]LDQYAK.K tr|Q9VF03|Q9VF03_DROME:632 1 mor 9.96975 1.375 K.TEALENGAAGGLSSGVSQFGLK[938.54]LDQYAK.K tr|Q9VF03|Q9VF03_DROME:632 1 mor 3.7995 0.44642857 K.TEALENGAAGGLSSGVSQFGLK[938.54]LDQYAK.K tr|Q9VF03|Q9VF03_DROME:632 1 mor 2.70475 0.39285714 K.TEALENGAAGGLSSGVSQFGLK[938.54]LDQYAK.K tr|Q9VF03|Q9VF03_DROME:632 1 mor 6.1105 1.53846154 K.K[934.53]SRNDDDDEDLTR.D tr|Q9VF03|Q9VF03_DROME:334 1 mor 4.55425 1.95 K.NVEK[934.53]ASAGGK.F tr|Q9VF03|Q9VF03_DROME:775 1 mor 3.54275 1.54545455 K.K[934.53]KPAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:293 1 mor 1.328 1.6 K.KTHK[1124.63]QR.M tr|Q9VF03|Q9VF03_DROME:277 1 mor 1.06775 1.1 K.KTHK[1124.62]QR.M tr|Q9VF03|Q9VF03_DROME:277 1 mor 3.69525 1.63636364 K.KK[934.53]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 1 mor 2.526 1.05 K.K[934.53]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 1 mor 2.702 1.25 K.K[934.53]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 1 mor 3.8955 1 K.KPAASSGGGK[934.53]QK.R tr|Q9VF03|Q9VF03_DROME:303 1 mor 3.3095 0.79166667 K.KPAASSGGGK[934.53]QK.R tr|Q9VF03|Q9VF03_DROME:303 1 mor 5.28725 2.375 R.SPAVVHK[934.53]K.S tr|Q9VF03|Q9VF03_DROME:333 1 mor 5.1375 1.54166667 K.LGK[934.53]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 1 mor 2.83425 1.33333333 K.AK[1672.89]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 5.28375 1.20588235 K.ANAALQSTASPAPGGK[1949.08]SR.G tr|Q9VF03|Q9VF03_DROME:378 1 mor 3.897 1.17647059 K.ANAALQSTASPAPGGK[1949.1]SR.G tr|Q9VF03|Q9VF03_DROME:378 1 mor 2.144 0.18604651 K.SRGDNDMMPIK[1949.03]GGTMTDLDDEMTGGSAAQAMSTGDGENSQTGK.T tr|Q9VF03|Q9VF03_DROME:389 1 mor 4.5895 1.02941177 R.IPYIYIRPEIEK[934.53]GFEGK.L tr|Q9VF03|Q9VF03_DROME:157 1 mor 4.584 0.97058824 R.IPYIYIRPEIEK[934.53]GFEGK.L tr|Q9VF03|Q9VF03_DROME:157 1 mor 4.01525 0.88235294 R.IPYIYIRPEIEK[778.47]GFEGK.L tr|Q9VF03|Q9VF03_DROME:157 1 mor 1.63375 0.83333333 K.K[1605.98]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 1 mor 0.91625 0.75 K.K[1605.97]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 1 mor 5.5135 1.76923077 K.PLGK[1210.72]DGGLELGDK.S tr|Q9VF03|Q9VF03_DROME:594 1 mor 4.7615 1.65384615 K.PLGK[1210.72]DGGLELGDK.S tr|Q9VF03|Q9VF03_DROME:594 1 mor 5.62025 1.69230769 K.PLGK[1210.72]DGGLELGDK.S tr|Q9VF03|Q9VF03_DROME:594 1 mor 4.728 1.61538462 K.PLGK[1210.72]DGGLELGDK.S tr|Q9VF03|Q9VF03_DROME:594 1 mor 3.45525 0.65 K.PLGK[1210.72]DGGLELGDKSGLTGIK.T tr|Q9VF03|Q9VF03_DROME:594 1 mor 6.69275 1.65625 K.DGGLELGDK[1605.97]SGLTGIK.T tr|Q9VF03|Q9VF03_DROME:603 1 mor 6.45325 1.65625 K.DGGLELGDK[1605.97]SGLTGIK.T tr|Q9VF03|Q9VF03_DROME:603 1 mor 2.971 0.39655172 K.SGLTGIK[1605.97]TEALENGAAGGLSSGVSQFGLK.L tr|Q9VF03|Q9VF03_DROME:610 1 mor 1.0245 0.64285714 K.TLLDLDK[1848.05]K.P tr|Q9VF03|Q9VF03_DROME:589 1 mor 1.2235 0.83333333 K.SKDNTK[956.48]SDK.T tr|Q9VF03|Q9VF03_DROME:838 1 mor 4.88225 1.77272727 K.K[778.47]KPAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:293 1 mor 2.53125 0.79166667 K.LGK[778.47]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 1 mor 2.53675 1.16666667 K.AK[1982.19]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 7.81 2.55 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 5.93225 1.8 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 5.63675 2.25 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.7215 1.45 K.AK[895.57]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 5.055 2.09090909 K.FDFSIGK[1071.61]NPTR.K tr|Q9VF03|Q9VF03_DROME:119 1 mor 1.65625 0.66666667 K.KFDFSIGK[1071.61]NPTR.K tr|Q9VF03|Q9VF03_DROME:119 1 mor 1.3385 0.875 K.KFDFSIGK[1071.61]NPTR.K tr|Q9VF03|Q9VF03_DROME:119 1 mor 13.1185 2.33333333 K.SNK[1013.58]SSPTETAAAASGGEVDIK.T tr|Q9VF03|Q9VF03_DROME:888 1 mor 9.60425 1.52380952 K.SNK[1013.58]SSPTETAAAASGGEVDIK.T tr|Q9VF03|Q9VF03_DROME:888 1 mor 9.3655 1.61904762 K.SNK[1013.58]SSPTETAAAASGGEVDIK.T tr|Q9VF03|Q9VF03_DROME:888 1 mor 8.43975 1.54761905 K.SNK[1013.58]SSPTETAAAASGGEVDIK.T tr|Q9VF03|Q9VF03_DROME:888 1 mor 4.10525 1.66666667 K.AK[2841.4]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.67175 1.88888889 K.AK[2841.39]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.37075 1.61111111 K.AK[2841.4]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 4.0345 1.83333333 K.AK[2841.39]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.9495 1.61111111 K.AK[2841.41]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.62675 1.66666667 K.AK[2841.39]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.07125 1.44444444 K.AK[2841.39]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.48575 1.61111111 K.AK[2841.4]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.562 1.61111111 K.AK[2841.37]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.63425 1.61111111 K.AK[2841.41]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 4.0315 1.61111111 K.AK[2841.41]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 2.81475 1.16666667 K.AK[2841.4]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.369 1.61111111 K.AK[2841.4]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.46 1.61111111 K.AK[2841.37]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.708 1.61111111 K.AK[2841.36]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 2.543 1.16666667 K.AK[2841.39]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 2.2995 1.16666667 K.AK[2841.39]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 1.72 0.77777778 K.AK[2825.4]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 1.9345 0.94444444 K.AK[2825.37]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 2.5315 1.1 K.DLSK[957.51]KDDDAK.S tr|Q9VF03|Q9VF03_DROME:826 1 mor 4.7665 0.5 K.FNPNFGLANSGIAGTGNDKDDEEGK[1399.72]EGGASASAGGSDEEMK.D tr|Q9VF03|Q9VF03_DROME:806 1 mor 1.41375 0.75 K.K[1402.79]PAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:639 1 mor 1.51925 1.41666667 R.AK[1326.73]DDIKR.V tr|O76857|O76857_DROME:14 1 BCL7 1.643 1.33333333 R.AK[1326.74]DDIKR.V tr|O76857|O76857_DROME:14 1 BCL7 3.59925 1.45454546 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 2.44225 1.27272727 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 1.5085 0.68181818 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 2.38425 0.81818182 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 2.7415 1.22727273 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 4.5205 1.61111111 R.SEEEIEIFK[1602.83]R.M sp|P25439|BRM_DROME:1303 1 brm 0.23575 0.13636364 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 0.647 0.40909091 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 0.69025 0.36363636 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 0.17925 0.13636364 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 3.863 1.54545455 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 2.82575 0.86363636 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 2.51575 1.13636364 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 2.097 0.68181818 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 2.06575 0.68181818 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 3.265 1.27272727 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 5.65275 1.875 R.TLSEPFMK[922.6]LPSR.Q sp|P25439|BRM_DROME:1453 1 brm 1.8475 1.2 K.K[1919.91]EQER.I sp|P25439|BRM_DROME:558 1 brm 2.9025 1.42857143 R.NNK[1919.91]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.863 1.35714286 R.NNK[1919.91]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.2515 1.21428571 R.NNK[1903.91]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.0315 1.14285714 R.NNK[1919.87]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.38525 1.21428571 R.NNK[1919.89]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.1435 1.21428571 R.NNK[1919.87]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.55475 1.8 K.K[1321.72]EQER.I sp|P25439|BRM_DROME:558 1 brm 1.977 1.1875 R.EQK[939.54]KEQER.I sp|P25439|BRM_DROME:557 1 brm 2.241 1.0625 R.EQK[939.54]KEQER.I sp|P25439|BRM_DROME:557 1 brm 1.0835 1.125 R.IEK[1339.69]ER.M sp|P25439|BRM_DROME:565 1 brm 1.06125 1.125 R.IEK[1339.69]ER.M sp|P25439|BRM_DROME:565 1 brm 0.7525 0.4375 R.EQK[939.54]KEQER.I sp|P25439|BRM_DROME:557 1 brm 1.72025 0.77777778 R.PVDIK[1842.01]KILQR.I sp|P25439|BRM_DROME:1474 1 brm 1.5065 0.66666667 R.PVDIK[1842]KILQR.I sp|P25439|BRM_DROME:1474 1 brm 3.93175 1.06666667 R.LDGTTK[872.51]AEDRGELLR.K sp|P25439|BRM_DROME:1149 1 brm 5.009 1.36666667 R.LDGTTK[872.51]AEDRGELLR.K sp|P25439|BRM_DROME:1149 1 brm 0.57925 0.3 R.KLK[974.55]TAVITER.L tr|Q9VC36|Q9VC36_DROME:637 1 Polybromo 3.907 1.9375 R.EQPLELK[929.56]R.V tr|Q9VC36|Q9VC36_DROME:1062 1 Polybromo 3.28275 1.75 R.EQPLELK[929.56]R.V tr|Q9VC36|Q9VC36_DROME:1062 1 Polybromo realpep1 position1 immonium2 ion2 dot2 connective2 YSKR 101 //12 9//54 2.1885 1.11111111 HCKPAVDEETFQK 300 //16 14//102 5.44325 1.34615385 HCKPAVDEETFQK 300 //16 17//79 6.93625 1.88461539 HCKPAVDEETFQK 300 //16 14//102 5.36375 1.34615385 HCKPAVDEETFQK 300 //16 14//102 4.27825 1.23076923 HCKPAVDEETFQK 300 //16 10//79 4.8735 1.11538462 MVESSEAFQEELKR 296 //15 10//90 2.49025 1.03846154 HCKPAVDEETFQK 300 //16 14//79 4.528 1.30769231 HCKPAVDEETFQK 300 //16 11//102 2.748 0.76923077 MVESSEAFQEELKR 296 //15 9//90 2.09275 0.76923077 HCKPAVDEETFQK 300 //16 6//102 2.252 0.53846154 SSSSKNQNESR 75 //13 12//95 3.14725 1.41666667 SSSSKNQNESR 75 //13 17//95 3.128 1.75 SSSSKNQNESR 75 //13 13//95 2.48175 1.45833333 GGGSKSQHER 189 //13 15//97 5.53525 1.91666667 GGGSKSQHER 189 //13 10//77 2.47275 0.625 GGGSKSQHER 189 //13 11//97 2.77825 0.95833333 SSSSKNQNESR 75 //12 6//51 0.7415 0.55 SSSSKNQNESR 75 //12 6//63 0.85 0.55 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //12 6//60 1.07625 0.85 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //12 5//60 0.9175 0.8 GGGSKSQHER 189 //10 13//152 3.8485 0.56 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //12 4//60 0.518 0.45 NKDQTPIFTHSNYGNPAFTPQKVTK 67 //12 5//60 0.8765 0.5 NKDQTPIFTHSNYGNPAFTPQKVTK 67 //12 3//60 0.21825 0.15 NKDQTPIFTHSNYGNPAFTPQKVTK 67 //12 3//60 0.32825 0.15 VKTDVDMHETPSR 173 //16 21//129 7.9405 1.84375 VKTDVDMHETPSR 173 //16 20//129 6.93025 1.46875 VKTDVDMHETPSR 173 //16 20//129 6.479 1.4375 VKTDVDMHETPSR 173 //16 16//129 5.50575 1.3125 GGGSKSQHER 189 //16 25//133 8.71775 1.96875 NKDQTPIFTHSNYGNPAFTPQKVTK 67 //13 8//71 3.552 1 NKDQTPIFTHSNYGNPAFTPQKVTK 67 //13 6//71 2.8065 0.90909091 MKFAEIPQR 354 //15 12//137 1.4195 0.52941177 LLEDGKGDPNTK 223 //12 4//65 0.41825 0.2 KFSSFFK 233 //16 11//106 1.70125 0.76923077 LLEDGKGDPNTKIK 223 //8 9//46 2.75325 1.4375 KLDATIMR 158 //12 10//68 1.8425 1.16666667 KLDATIMR 158 //12 7//55 1.498 0.94444444 KLDATIMR 158 2//9 14//48 4.435 2.0625 KLDATIMR 158 //15 13//92 3.37075 0.96666667 KLDATIMR 158 2//11 12//60 2.27225 1.2 KLDATIMR 158 1//11 12//73 2.537 1.4 KLDATIMR 158 1//11 7//60 1.314 0.75 KLDATIMR 158 1//11 14//73 2.46475 1.6 KLDATIMR 158 1//16 18//115 4.03725 1.57142857 KLDATIMR 158 1//11 14//50 3.76625 2.3125 KFSSFFK 233 //9 14//44 3.63525 2.0625 KLDATIMR 158 //15 18//139 4.822 1.17647059 IHETVDTINQMKTNR 435 //15 21//122 5.98725 1.9 IHETVDTINQMKTNR 435 //15 19//122 5.51975 1.83333333 IHETVDTINQMKTNR 435 //15 19//122 5.93175 1.83333333 IHETVDTINQMKTNR 435 //15 22//92 7.045 2.06666667 IHETVDTINQMKTNR 435 //15 15//116 5.09575 1.5 IHETVDTINQMKTNR 435 //15 17//122 5.5525 1.66666667 IHETVDTINQMKTNR 435 //15 17//122 6.16675 1.66666667 IHETVDTINQMKTNR 435 1//15 18//116 5.6915 1.82142857 IHETVDTINQMKTNR 435 //15 16//92 5.345 1.43333333 IHETVDTINQMKTNR 435 //15 16//92 5.41675 1.53333333 IHETVDTINQMKTNR 435 //15 17//122 4.27525 1.23333333 IHETVDTINQMKTNR 435 //15 17//122 5.0145 1.56666667 IHETVDTINQMKTNR 435 //15 14//88 5.3095 1.35714286 IHETVDTINQMKTNR 435 //15 17//92 5.35375 1.56666667 IHETVDTINQMKTNR 435 //15 16//92 4.9645 1.33333333 IHETVDTINQMKTNR 435 //15 17//122 4.88525 1.56666667 IHETVDTINQMKTNR 435 //15 19//92 5.01175 1.63333333 IHETVDTINQMKTNR 435 //15 16//122 4.73975 1.33333333 IHETVDTINQMKTNR 435 //15 15//88 4.9995 1.71428571 IHETVDTINQMKTNR 435 //15 12//92 4.4295 1.2 IHETVDTINQMKTNR 435 //15 14//92 4.262 1.13333333 IHETVDTINQMKTNR 435 //15 12//92 4.6135 1.2 IHETVDTINQMKTNR 435 //15 17//92 4.5015 1.23333333 IHETVDTINQMKTNR 435 //15 13//92 5.1155 1.33333333 IHETVDTINQMKTNR 435 //15 16//92 3.6415 1 IHETVDTINQMKTNR 435 //15 14//122 4.34575 1.26666667 IHETVDTINQMKTNR 435 //15 15//122 4.20325 1.36666667 IHETVDTINQMKTNR 435 //15 14//116 4.426 1.57142857 IHETVDTINQMKTNR 435 //15 12//92 3.8205 1.2 IHETVDTINQMKTNR 435 //15 14//92 3.44925 1.16666667 IHETVDTINQMKTNR 435 //15 11//116 3.31575 0.89285714 IHETVDTINQMKTNR 435 //15 13//116 3.39625 1.07142857 IHETVDTINQMKTNR 435 //15 11//92 3.07225 0.83333333 IHETVDTINQMKTNR 435 //15 14//92 3.56 1.16666667 IHETVDTINQMKTNR 435 //15 12//92 3.79075 1.1 IHETVDTINQMKTNR 435 //15 11//122 2.759 0.96666667 IHETVDTINQMKTNR 435 //15 14//88 3.8215 1.42857143 IHETVDTINQMKTNR 435 //15 15//88 4.8255 1.60714286 IHETVDTINQMKTNR 435 //15 9//122 2.764 0.8 IHETVDTINQMKTNR 435 //15 11//92 3.786 1.06666667 IHETVDTINQMKTNR 435 //15 11//92 3.1525 0.93333333 IHETVDTINQMKTNR 435 //15 13//122 3.362 1.16666667 IHETVDTINQMKTNR 435 //15 12//92 3.42475 0.96666667 IHETVDTINQMKTNR 435 //15 12//116 3.09675 1.03571429 IHETVDTINQMKTNR 435 //15 9//122 2.0265 0.6 IHETVDTINQMKTNR 435 //15 11//88 2.53225 0.71428571 IHETVDTINQMKTNR 435 //15 8//122 2.50825 0.7 IHETVDTINQMKTNR 435 //15 11//88 2.88475 0.92857143 IHETVDTINQMKTNR 435 //15 11//122 3.10325 0.86666667 IHETVDTINQMKTNR 435 //15 12//116 3.52825 0.92857143 IHETVDTINQMKTNR 435 //15 13//116 3.481 1.42857143 IHETVDTINQMKTNR 435 //15 11//122 3.10825 1.1 IHETVDTINQMKTNR 435 //15 10//116 1.85275 0.71428571 IHETVDTINQMKTNR 435 //15 11//92 2.8195 0.83333333 IHETVDTINQMKTNR 435 //15 10//122 2.8495 0.83333333 IHETVDTINQMKTNR 435 //15 8//116 1.84675 0.53571429 IHETVDTINQMKTNR 435 //15 11//122 2.43825 0.73333333 IHETVDTINQMKTNR 435 //15 12//92 3.16425 1.1 IHETVDTINQMKTNR 435 //15 10//122 2.5125 0.83333333 IHETVDTINQMKTNR 435 //15 13//92 3.4175 0.93333333 IHETVDTINQMKTNR 435 //15 10//92 2.1555 0.66666667 IHETVDTINQMKTNR 435 //15 10//122 2.31775 0.73333333 IHETVDTINQMKTNR 435 //15 8//116 2.33725 0.60714286 IHETVDTINQMKTNR 435 //15 10//122 2.2535 0.76666667 IHETVDTINQMKTNR 435 //15 10//88 2.32675 0.78571429 IHETVDTINQMKTNR 435 //15 12//92 2.54975 0.8 IHETVDTINQMKTNR 435 //15 9//122 2.69225 0.7 IHETVDTINQMKTNR 435 //15 12//122 2.793 0.83333333 IHETVDTINQMKTNR 435 //15 10//92 2.60775 0.76666667 IHETVDTINQMKTNR 435 //15 11//88 2.493 0.82142857 IHETVDTINQMKTNR 435 //15 11//92 3.061 0.93333333 IHETVDTINQMKTNR 435 //15 11//88 2.4655 0.71428571 IHETVDTINQMKTNR 435 //15 10//92 2.579 0.66666667 IHETVDTINQMKTNR 435 //15 10//88 1.96075 0.57142857 YFFTKVNQK 498 //16 17//88 3.94925 1.53571429 YFFTKVNQK 498 //16 15//114 4.47725 1.46428571 YFFTKVNQK 498 //16 14//88 3.45775 1.35714286 YFFTKVNQK 498 //16 14//88 3.01225 1.17857143 IHETVDTINQMKTNR 435 //16 15//132 5.3655 1 LLEDGKGDPNTKIK 229 1//8 8//43 4.367 1.78571429 LLEDGKGDPNTKIK 229 //8 8//35 2.55225 1.35714286 KFSSFFK 229 //16 19//106 4.89925 1.73076923 LLEDGKGDPNTKIK 229 //8 7//37 1.6455 1.3125 LLEDGKGDPNTKIK 229 //8 7//46 3.283 1.3125 LLEDGKGDPNTKIK 229 1//8 7//35 1.639 1 KFSSFFK 233 //16 10//86 2.2805 0.88461539 LLEDGKGDPNTKIK 229 //8 7//46 2.38075 1.3125 LLEDGKGDPNTKIK 229 //8 4//35 0.4795 0.42857143 LLEDGKGDPNTKIK 229 //8 4//35 0.41075 0.42857143 GDPNTKIKR 229 //8 9//39 1.76625 1.64285714 MKFAEIPQR 354 //12 18//96 6.54575 1.4375 MKFAEIPQR 354 //12 12//96 6.168 1.25 MKFAEIPQR 354 //12 12//96 5.803 1.03125 MKFAEIPQR 354 //12 10//96 4.60475 0.9375 MKFAEIPQR 354 //12 12//96 4.53325 0.875 MKFAEIPQR 354 //12 12//96 3.627 0.875 MKFAEIPQR 354 //12 8//96 3.27175 0.59375 MKFAEIPQR 354 //12 9//96 3.19325 0.6875 MKFAEIPQR 354 //12 9//96 3.082 0.71875 MKFAEIPQR 354 //12 9//96 3.053 0.625 YFFTKVNQK 498 //16 14//104 4.58725 1.03125 YFFTKVNQK 498 //16 11//104 4.181 0.875 YFFTKVNQK 498 1//17 20//97 5.79025 1.53333333 YFFTKVNQK 498 //16 15//135 5.448 1.25 DLKLMTDVAGNPEEER 464 //11 6//45 1.481 0.77777778 YFFTKVNQK 498 //16 7//104 2.26725 0.5625 GTGAGGGGVGSGGGSKR 104 //8 5//37 1.1095 0.85714286 THTTQETDGFQVKRPGDR 274 //19 22//109 5.96725 1.76470588 THTTQETDGFQVKRPGDR 274 //19 20//109 3.732 1.32352941 THTTQETDGFQVKRPGDR 274 //19 12//87 3.1965 0.88235294 GTGAGGGGVGSGGGSKR 104 //14 11//62 1.278 0.83333333 KLDATIMR 158 2//19 31//96 8.30425 2.65625 KLDATIMR 158 //19 13//96 3.24775 0.78125 GTGAGGGGVGSGGGSKR 104 //9 5//43 1.42575 0.8125 GTGAGGGGVGSGGGSKR 104 //15 14//92 2.8795 1 GTGAGGGGVGSGGGSKR 104 //16 11//87 3.23875 0.96428571 IHETVDTINQMKTNR 435 //19 14//87 3.566 1.05882353 GTGAGGGGVGSGGGSKR 104 //16 13//113 4.83825 1.35714286 GTGAGGGGVGSGGGSKR 104 //16 14//113 4.466 1.42857143 GTGAGGGGVGSGGGSKR 104 //16 8//87 3.09025 0.67857143 IHETVDTINQMKTNR 435 //19 13//87 3.74825 0.85294118 GTGAGGGGVGSGGGSKR 104 //11 7//45 1.46375 0.94444444 GTGAGGGGVGSGGGSKR 104 //17 18//96 5.33025 1.3 MKFAEIPQR 354 1//19 22//94 5.663 1.8125 GTGAGGGGVGSGGGSKR 104 //9 10//45 2.02775 1.16666667 GTGAGGGGVGSGGGSKR 104 //9 8//45 1.96225 1.05555556 GTGAGGGGVGSGGGSKR 104 //9 8//45 2.12475 1.05555556 MKFAEIPQR 354 //19 8//94 1.991 0.5625 MKFAEIPQR 354 1//19 14//94 1.837 0.75 MKFAEIPQR 354 1//19 10//94 1.58075 0.53125 SLGGGGSKSDFATAK 118 //19 14//90 2.39975 0.76470588 SLGGGGSKSDFATAK 118 //19 9//90 1.019 0.32352941 SLGGGGSKSDFATAK 118 //19 8//90 1.01775 0.38235294 SDFATAKK 125 //19 11//98 3.47475 0.90625 GTGAGGGGVGSGGGSKR 104 1//10 4//38 0.57825 0.25 GTGAGGGGVGSGGGSKR 104 //12 8//52 0.95025 0.6 GTGAGGGGVGSGGGSKR 104 //12 13//65 3.08475 1.5 GTGAGGGGVGSGGGSKR 104 //12 6//52 0.8275 0.4 GTGAGGGGVGSGGGSKR 104 //14 9//85 1.1155 0.86363636 GTGAGGGGVGSGGGSKR 104 //14 8//85 1.2475 0.68181818 SLGGGGSKSDFATAK 118 //16 14//86 3.6805 1.25 LLEDGKGDPNTK 223 //14 10//65 1.35825 0.63636364 LLEDGKGDPNTK 223 //14 11//65 1.3275 0.81818182 THTTQETDGFQVKRPGDR 274 //8 6//41 2.398 1.42857143 THTTQETDGFQVKRPGDR 274 //8 4//41 1.43025 0.64285714 KLR 183 //14 19//72 4.2325 2.45454546 LLEDGKGDPNTKIK 229 //4 2//20 0.3755 0.5 LLEDGKGDPNTKIK 229 //4 1//16 0.08725 0.125 DLKLMTDVAGNPEEER 464 //15 12//122 2.63375 0.66666667 DLKLMTDVAGNPEEER 464 //15 12//122 2.527 0.76666667 DLKLMTDVAGNPEEER 464 //15 8//122 1.956 0.53333333 DLKLMTDVAGNPEEER 464 //15 12//122 2.183 0.66666667 THTTQETDGFQVKRPGDR 274 //6 31//162 12.30825 1.74074074 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 9//137 1.91375 0.47222222 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 9//137 1.66325 0.55555556 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 9//137 1.28475 0.36111111 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 6//137 0.82625 0.22222222 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 4//137 0.64 0.16666667 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 7//137 0.8565 0.25 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 5//137 0.6695 0.19444444 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 4//137 0.35925 0.11111111 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 6//137 0.7555 0.30555556 IFISNTFYPSKEPTNDGEEGAVASWELRVEGR 196 //16 8//100 1.8575 0.67857143 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 5//137 0.68675 0.19444444 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 6//137 0.46275 0.16666667 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 5//137 0.634 0.19444444 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 5//137 0.60575 0.19444444 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 5//137 0.52575 0.13888889 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 2//137 0.2065 0.05555556 KLAEK 129 1//9 10//47 4.26675 1.8125 KLAEK 129 //16 18//93 7.04125 1.75 KLAEK 129 //16 12//119 5.1345 1.21428571 LAEKILPQKVR 138 //15 13//122 4.36125 1.23333333 ILPQKVR 138 //15 16//93 5.7875 1.6 ILPQKVR 138 //15 13//89 4.18575 1.17857143 LAEKILPQKVR 138 //15 10//122 3.1245 0.83333333 ILPQKVR 138 //15 8//93 2.5865 0.7 ILPQKVR 138 //16 16//90 4.44675 1.53571429 ILPQKVR 138 //16 15//90 4.533 1.42857143 LAEKILPQKVR 138 //16 9//112 1.80875 0.64285714 MKFAEIPQR 354 //12 9//67 2.185 1.44444444 MKFAEIPQR 354 //12 9//67 1.709 1.44444444 MKFAEIPQR 354 //12 9//67 1.413 1.11111111 MKFAEIPQR 354 //12 5//54 0.94025 0.55555556 EYINCDKYLEQIFSCQR 342 //12 5//63 0.3755 0.5 EYINCDKYLEQIFSCQR 342 //12 8//63 1.06775 0.9 EYINCDKYLEQIFSCQR 342 //12 7//63 0.6035 0.55 EYINCDKYLEQIFSCQR 342 //12 4//63 0.49275 0.3 SDFATAKK 125 //16 20//90 8.46575 1.96428571 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 //14 11//77 3.40925 1.26923077 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 //14 11//77 3.82025 1.26923077 RTNANVEGTPKR 232 //7 5//38 1.257 1.08333333 RTNANVEGTPKR 232 //7 3//31 0.59775 0.41666667 RTNANVEGTPKR 232 //7 4//38 1.06 0.75 RTNANVEGTPKR 232 //11 11//54 4.523 1.45 KIR 349 2//13 18//63 7.17475 2.6 KIR 349 1//13 14//62 5.835 1.95 LDMELEGQKLR 183 //8 2//38 0.235 0.14285714 LDMELEGQKLR 183 //8 2//38 0.24925 0.14285714 LDMELEGQKLR 183 //8 2//38 0.2485 0.14285714 KRTELASSSR 2048 //6 6//27 1.0525 1.3 KPAAMR 639 1//15 13//79 2.529 1.20833333 ANAALQSTASPAPGGKSR 378 //15 7//74 1.251 0.58333333 ESSGSSPSGDKSAIK 878 //8 4//27 0.77625 0.75 ESSGSSPSGDKSAIK 878 //8 4//27 0.607 0.75 ESSGSSPSGDKSAIK 878 //8 3//27 0.2215 0.25 KPAASSGGGK 294 6//16 31//85 10.2265 3.23076923 KPAASSGGGK 294 5//16 29//85 9.41975 2.92307692 KPAASSGGGK 294 6//16 27//85 8.97 2.84615385 KPAASSGGGK 294 //16 25//85 8.976 2.96153846 KPAASSGGGK 294 //16 11//85 3.302 0.88461539 KPAASSGGGK 294 //16 11//85 3.459 1 KDGSPNIDFFQSPETLQGFESIR 8 //14 8//59 2.6555 1 KDGSPNIDFFQSPETLQGFESIR 8 //14 6//59 1.94175 0.70833333 KDGSPNIDFFQSPETLQGFESIR 8 //14 6//59 1.5955 0.54166667 KDGSPNIDFFQSPETLQGFESIR 8 //14 6//59 1.701 0.70833333 KDGSPNIDFFQSPETLQGFESIR 8 //14 6//59 1.7 0.66666667 KDGSPNIDFFQSPETLQGFESIR 8 //14 5//59 0.96075 0.375 AMPEFFNSKNK 479 //11 13//59 5.69375 1.9 AMPEFFNSKNK 479 //11 14//59 4.853 1.7 AMPEFFNSKNK 479 //11 17//59 5.483 2.2 AMPEFFNSKNK 479 //11 10//60 2.8465 1.4 DGGLELGDKSGLTGIK 603 //14 11//64 1.58125 0.79166667 DGGLELGDKSGLTGIK 603 //14 9//64 1.57375 0.70833333 DGGLELGDKSGLTGIK 603 //14 10//83 1.83375 0.75 DGGLELGDKSGLTGIK 603 //14 9//83 1.44575 0.70833333 DGGLELGDKSGLTGIK 603 //14 6//83 1.32325 0.58333333 KSRNDDDDEDLTR 334 //9 4//31 0.99975 0.42857143 KSRNDDDDEDLTR 334 //9 6//31 1.20125 0.71428571 GFEGKLR 162 1//7 7//33 1.292 1.5 SPAVVHKK 333 1//9 7//36 1.6615 0.92857143 KDDDAKSK 832 //9 8//35 2.5735 1.42857143 KDDDAKSK 832 //9 7//35 2.085 1.14285714 AKHLAALEER 962 //13 14//181 2.95325 0.51724138 AKHLAALEER 962 //13 19//181 2.9385 0.51724138 TEALENGAAGGLSSGVSQFGLKLDQYAK 632 //7 5//27 1.0475 1.33333333 TEALENGAAGGLSSGVSQFGLKLDQYAK 632 //7 3//27 0.4285 0.41666667 TEALENGAAGGLSSGVSQFGLKLDQYAK 632 //7 1//27 0.108 0.08333333 TEALENGAAGGLSSGVSQFGLKLDQYAK 632 //7 1//27 0.10575 0.08333333 KSRNDDDDEDLTR 334 //7 3//25 0.43725 0.5 NVEKASAGGK 775 1//7 4//23 0.387 0.5 KKPAASSGGGK 277 4//7 8//23 1.06175 1.8 KTHKQR 277 //11 9//53 3.2485 1.6 KTHKQR 294 //11 10//53 3.36375 1.65 KKPAASSGGGK 294 1//7 5//23 0.652 0.8 KPAASSGGGK 294 1//7 4//23 0.7115 0.7 KPAASSGGGK 294 1//7 4//23 0.38825 0.4 KPAASSGGGKQK 303 //7 4//23 0.48225 0.6 KPAASSGGGKQK 303 //7 3//23 0.31125 0.3 SPAVVHKK 333 1//7 4//23 0.5995 0.7 LGKNSADPPATR 70 1//7 4//23 0.682 0.7 AKHLAALEER 962 //14 8//84 1.7195 0.77272727 ANAALQSTASPAPGGKSR 378 //20 18//132 5.28375 1.20588235 ANAALQSTASPAPGGKSR 378 //20 16//132 3.897 1.17647059 SRGDNDMMPIKGGTMTDLDDEMTGGSAAQAMSTGDGENSQTGK 389 //20 3//132 0.999 0.22222222 IPYIYIRPEIEKGFEGK 157 //7 3//25 0.47275 0.5 IPYIYIRPEIEKGFEGK 157 //7 3//25 0.3865 0.5 IPYIYIRPEIEKGFEGK 157 //5 3//23 0.539 1 KPAAMR 639 3//14 17//92 4.2885 1.72727273 KPAAMR 639 3//14 20//73 4.44725 2 PLGKDGGLELGDK 594 1//10 16//38 5.40825 2.75 PLGKDGGLELGDK 594 1//10 16//38 4.8365 2.75 PLGKDGGLELGDK 594 1//10 12//38 3.37 1.625 PLGKDGGLELGDK 594 1//10 10//38 2.974 1.4375 PLGKDGGLELGDKSGLTGIK 594 //10 7//43 1.08475 0.5625 DGGLELGDKSGLTGIK 603 2//14 16//83 3.72525 1.79166667 DGGLELGDKSGLTGIK 603 //14 14//83 3.2955 1.54166667 SGLTGIKTEALENGAAGGLSSGVSQFGLK 610 //14 6//83 0.873 0.58333333 TLLDLDKK 589 //15 9//114 3.12425 0.89285714 SKDNTKSDK 838 //7 8//32 2.346 1.75 KKPAASSGGGK 293 //5 4//21 1.3175 1.5 LGKNSADPPATR 70 //5 2//21 0.19225 0.25 AKHLAALEER 962 //17 13//113 5.5315 1.46428571 AKHLAALEER 962 1//10 18//64 7.81 2.55 AKHLAALEER 962 //10 14//64 5.93225 1.8 AKHLAALEER 962 //10 16//53 5.63675 2.25 AKHLAALEER 962 //6 7//27 1.60725 1.7 FDFSIGKNPTR 119 1//9 5//34 0.5505 0.64285714 KFDFSIGKNPTR 119 //9 5//32 1.3385 0.64285714 KFDFSIGKNPTR 119 //9 5//32 1.35375 0.64285714 SNKSSPTETAAAASGGEVDIK 888 //9 3//31 0.33075 0.21428571 SNKSSPTETAAAASGGEVDIK 888 //9 4//31 0.933 0.64285714 SNKSSPTETAAAASGGEVDIK 888 //9 3//31 0.32425 0.21428571 SNKSSPTETAAAASGGEVDIK 888 //9 3//31 0.2435 0.21428571 AKHLAALEER 962 //11 26//178 7.70075 1.56818182 AKHLAALEER 962 //11 22//131 7.2465 1.54545455 AKHLAALEER 962 //11 22//131 7.2715 1.63636364 AKHLAALEER 962 //11 20//131 6.45125 1.38636364 AKHLAALEER 962 //11 22//178 5.6605 1.15909091 AKHLAALEER 962 //11 20//131 5.875 1.29545455 AKHLAALEER 962 //11 20//131 6.09475 1.31818182 AKHLAALEER 962 //11 21//178 5.60525 1.15909091 AKHLAALEER 962 //11 19//178 5.42625 1.06818182 AKHLAALEER 962 //11 16//178 4.31025 0.88636364 AKHLAALEER 962 //11 19//178 3.07275 0.84090909 AKHLAALEER 962 //11 14//178 4.082 0.72727273 AKHLAALEER 962 //11 15//178 3.28025 0.90909091 AKHLAALEER 962 //11 16//178 2.95675 0.88636364 AKHLAALEER 962 //11 13//178 2.434 0.54545455 AKHLAALEER 962 //11 13//178 3.2205 0.68181818 AKHLAALEER 962 //11 12//131 2.93725 0.54545455 AKHLAALEER 962 //11 20//178 3.02875 1.02272727 AKHLAALEER 962 //11 15//178 2.31425 0.65909091 DLSKKDDDAK 826 1//6 6//28 1.368 1.16666667 FNPNFGLANSGIAGTGNDKDDEEGKEGGASASAGGSDEEMK 806 //12 5//63 1.2675 0.8 KPAAMR 639 2//10 17//53 4.773 2.55555556 AKDDIKR 14 2//11 18//49 5.57325 2.9375 AKDDIKR 14 1//11 9//59 2.062 1.125 KKEDEEIHPGR 1311 1//12 15//65 6.82775 2.1 KKEDEEIHPGR 1311 //12 14//52 7.0205 2.05 KKEDEEIHPGR 1311 //12 10//52 5.26775 1.45 KKEDEEIHPGR 1311 //12 9//65 3.75675 1.05 KKEDEEIHPGR 1311 1//12 11//65 3.2005 1.35 SEEEIEIFKR 1303 1//11 10//75 1.341 0.85 KKEDEEIHPGR 1311 //12 10//52 5.5675 1.6 KKEDEEIHPGR 1311 //12 10//52 4.793 1.3 KKEDEEIHPGR 1311 //12 9//52 4.181 1.25 KKEDEEIHPGR 1311 //12 10//52 4.556 1.45 KKEDEEIHPGR 1310 2//12 16//65 7.6235 2.25 KKEDEEIHPGR 1310 2//12 15//65 6.60575 2.05 KKEDEEIHPGR 1310 2//12 15//65 6.906 2.05 KKEDEEIHPGR 1310 //12 14//52 7.06775 1.95 KKEDEEIHPGR 1310 //12 14//52 6.6835 1.9 KKEDEEIHPGR 1310 2//12 14//65 4.77975 1.85 TLSEPFMKLPSR 1453 //6 4//26 0.74925 0.9 KEQER 558 //16 8//86 1.479 0.57692308 NNKAQLAR 535 //16 13//83 3.013 1.23076923 NNKAQLAR 535 //16 12//105 2.88075 1.07692308 NNKAQLAR 535 //16 12//84 2.49525 1.03846154 NNKAQLAR 535 //16 7//83 1.65625 0.53846154 NNKAQLAR 535 //16 10//105 1.26925 0.65384615 NNKAQLAR 535 //16 7//83 1.50425 0.53846154 KEQER 557 1//9 13//39 3.6345 2.33333333 EQKKEQER 557 2//7 7//23 1.6895 1.5 EQKKEQER 557 1//7 8//23 1.425 1.2 IEKER 565 //10 5//42 1.49475 0.92857143 IEKER 565 //10 5//42 1.29075 0.92857143 EQKKEQER 557 //7 5//23 1.35625 0.9 PVDIKKILQR 1474 //13 7//81 1.83125 0.7 PVDIKKILQR 1474 //13 5//81 1.7895 0.65 LDGTTKAEDRGELLR 1149 1//6 6//30 2.39125 1.7 LDGTTKAEDRGELLR 1149 //6 6//24 1.2965 1.7 KLKTAVITER 637 //8 6//28 1.658 1.08333333 EQPLELKR 1062 //6 4//27 1.2115 1.2 EQPLELKR 1062 //6 5//27 0.953 1.6 peptide2 protein2 R.GGGSK[818.47]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.M[147.04]VESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 R.M[147.04]VESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 R.M[147.04]VESSEAFQEELK[1853.89]R.H tr|Q9W384|Q9W384_DROME:296 R.M[147.04]VESSEAFQEELK[1853.91]R.H tr|Q9W384|Q9W384_DROME:296 R.M[147.04]VESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 R.HC[160.03]K[1947.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.MVESSEAFQEELK[1853.88]R.H tr|Q9W384|Q9W384_DROME:296 R.MVESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 R.HC[160.03]K[1947.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.M[147.04]VESSEAFQEELK[1853.92]R.H tr|Q9W384|Q9W384_DROME:296 K.VK[1488.7]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 K.VK[1488.71]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 K.VK[1488.71]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 K.VK[1307.65]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 K.VK[1307.65]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 K.VK[1307.66]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 R.GGGSK[1488.72]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[1488.72]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[3314.57]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[3314.57]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.RIDIQPAEDEDDQDEGYTTK[1307.64]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 R.GGGSK[3314.57]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[3098.58]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[3098.58]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[3098.58]SQHER.R tr|Q9W384|Q9W384_DROME:189 K.AYHQTPAYQAYM[147.04]SAK[1795.9]SK.V tr|Q9W384|Q9W384_DROME:169 K.AYHQTPAYQAYM[147.04]SAK[1795.88]SK.V tr|Q9W384|Q9W384_DROME:169 K.AYHQTPAYQAYMSAK[1795.85]SK.V tr|Q9W384|Q9W384_DROME:169 K.AYHQTPAYQAYM[147.04]SAK[1795.88]SK.V tr|Q9W384|Q9W384_DROME:169 K.AYHQTPAYQAYM[147.04]SAK[1307.65]SK.V tr|Q9W384|Q9W384_DROME:169 K.SSSSK[3098.58]NQNESR.L tr|Q9W384|Q9W384_DROME:75 K.SSSSK[3098.58]NQNESR.L tr|Q9W384|Q9W384_DROME:75 R.THTTQETDGFQVK[1400.77]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 K.THK[1551.81]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 R.LLEDGK[1155.64]GDPNTK[284.17]IK.R sp|Q9VYG2|BAP60_DROME:223 K.RK[1792.99]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 K.THK[1228.69]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1228.69]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 R.MK[1228.68]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 R.EFFLSFAK[1228.68]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.K[1228.69]RLDIQEALK.R sp|Q9VYG2|BAP60_DROME:166 R.K[1228.68]RLDIQEALK.R sp|Q9VYG2|BAP60_DROME:166 R.K[1228.69]RLDIQEALK.R sp|Q9VYG2|BAP60_DROME:166 R.K[1228.68]RLDIQEALK.R sp|Q9VYG2|BAP60_DROME:166 K.IHETVDTINQM[147.04]K[1228.68]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.YFFTK[1228.69]VNQK.R sp|Q9VYG2|BAP60_DROME:498 R.K[1155.64]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.THTTQETDGFQVK[1228.68]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.EFFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2065.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.08]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.08]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.08]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2065.02]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.03]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.01]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2065.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.08]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.03]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.01]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2065.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[2081.03]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 K.IHETVDTINQM[147.04]K[1439.79]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.IHETVDTINQM[147.04]K[1439.77]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.IHETVDTINQM[147.04]K[1439.79]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.IHETVDTINQM[147.04]K[1439.77]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.DLK[2081.03]LM[147.04]TDVAGNPEEERR.A sp|Q9VYG2|BAP60_DROME:464 R.K[1792.99]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.K[1792.99]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.LLEDGK[1155.65]GDPNTK[284.17]IK.R sp|Q9VYG2|BAP60_DROME:223 K.RK[1792.99]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 K.RK[1792.99]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.K[1792.99]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.LLEDGK[284.17]GDPNTK[1155.66]IK.R sp|Q9VYG2|BAP60_DROME:229 K.RK[1792.99]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.K[1792.99]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.K[1792.99]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.K[1293.74]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.EYINC[160.03]DK[1400.73]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.EYINC[160.03]DK[1400.76]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.EYINC[160.03]DK[1400.77]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.EYINC[160.03]DK[1400.72]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.EYINC[160.03]DK[1400.74]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.EYINC[160.03]DK[1400.76]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.EYINC[160.03]DK[1400.75]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.EYINC[160.03]DK[1400.74]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.EYINC[160.03]DK[1400.72]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.EYINC[160.03]DK[1400.75]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 R.DLK[1439.79]LM[147.04]TDVAGNPEEERR.A sp|Q9VYG2|BAP60_DROME:464 R.DLK[1439.77]LM[147.04]TDVAGNPEEERR.A sp|Q9VYG2|BAP60_DROME:464 R.DLK[1439.76]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 R.DLK[1439.78]LM[147.04]TDVAGNPEEERR.A sp|Q9VYG2|BAP60_DROME:464 R.YFFTK[2082.03]VNQK.R sp|Q9VYG2|BAP60_DROME:498 R.DLK[1439.74]LM[147.04]TDVAGNPEEERR.A sp|Q9VYG2|BAP60_DROME:464 R.K[1583.8]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.GTGAGGGGVGSGGGSK[2338.17]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[2338.17]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[2338.17]R.S sp|Q9VYG2|BAP60_DROME:104 R.LLEDGK[1583.8]GDPNTK.I sp|Q9VYG2|BAP60_DROME:223 R.GTGAGGGGVGSGGGSK[1228.68]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1228.68]R.S sp|Q9VYG2|BAP60_DROME:104 R.K[1583.8]LDATIMR.K sp|Q9VYG2|BAP60_DROME:158 R.EFFLSFAK[1583.82]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 K.IHETVDTINQM[147.04]K[1583.79]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.GTGAGGGGVGSGGGSK[2065.06]R.S sp|Q9VYG2|BAP60_DROME:104 K.IHETVDTINQMK[1583.8]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.IHETVDTINQM[147.04]K[1583.82]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.IHETVDTINQMK[1583.8]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.GTGAGGGGVGSGGGSK[2065.06]R.S sp|Q9VYG2|BAP60_DROME:104 R.YFFTK[1583.8]VNQK.R sp|Q9VYG2|BAP60_DROME:498 R.DLK[1583.8]LM[147.04]TDVAGNPEEER.R sp|Q9VYG2|BAP60_DROME:464 R.GTGAGGGGVGSGGGSK[1400.75]R.S sp|Q9VYG2|BAP60_DROME:104 R.MK[1583.8]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 R.MK[1583.8]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 R.MK[1583.8]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 R.GTGAGGGGVGSGGGSK[1384.76]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1384.75]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1384.76]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1647.85]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1647.85]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1647.85]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[1132.62]R.S sp|Q9VYG2|BAP60_DROME:104 K.SDFATAK[1583.8]K.K sp|Q9VYG2|BAP60_DROME:125 K.THK[1583.8]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1583.8]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1583.8]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 R.LDIQEALK[1583.8]RPM[147.04]K.Q sp|Q9VYG2|BAP60_DROME:175 R.LDIQEALK[1583.8]RPM[147.04]K.Q sp|Q9VYG2|BAP60_DROME:175 K.IHETVDTINQM[147.04]K[1647.84]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.LDIQEALK[1551.79]RPM[147.04]K.Q sp|Q9VYG2|BAP60_DROME:175 R.LDIQEALK[1551.81]RPM[147.04]K.Q sp|Q9VYG2|BAP60_DROME:175 R.K[2338.17]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.K[2338.17]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 R.LLEDGK[681.46]GDPNTK.I sp|Q9VYG2|BAP60_DROME:223 K.RK[1792.99]LR.I sp|Q9VYG2|BAP60_DROME:183 K.RK[1792.99]LR.I sp|Q9VYG2|BAP60_DROME:183 R.EFFLSFAK[2098.03]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2098.03]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2098.02]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2098.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.IFISNTFYPSK[2338.22]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3863.9]R.P sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.M[147.04]K[853.52]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 K.IHETVDTINQM[147.04]K[853.54]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.IHETVDTINQM[147.04]K[853.48]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.EFFLSFAK[1716.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[1118.72]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.E[111.03]FFLSFAK[1118.73]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[1716.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[1118.71]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 K.IHETVDTINQM[147.04]K[1118.73]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.IHETVDTINQM[147.04]K[1118.72]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.IHETVDTINQM[147.04]K[1716.05]TNR.E sp|Q9VYG2|BAP60_DROME:435 K.THK[1400.75]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1400.75]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1400.77]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1400.75]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2531.18]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2531.18]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2531.18]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2531.18]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.IHETVDTINQM[147.04]K[1132.62]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.LDM[147.04]ELEGQK[681.46]LR.D tr|Q24090|Q24090_DROME:183 R.LDMELEGQK[681.45]LR.D tr|Q24090|Q24090_DROME:183 K.K[1596.85]IRDQDR.N tr|Q24090|Q24090_DROME:349 K.K[1596.85]IRDQDR.N tr|Q24090|Q24090_DROME:349 K.K[1596.85]IRDQDR.N tr|Q24090|Q24090_DROME:349 R.K[1399.78]PEIK.T sp|Q8IN94|OSA_DROME:2058 R.Q[111.03]QFHLEQLK[954.52]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.Q[111.03]QFHLEQLK[1949.04]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 K.SDK[1701.84]SNK.S tr|Q9VF03|Q9VF03_DROME:885 K.SDK[1701.84]SNK.S tr|Q9VF03|Q9VF03_DROME:885 K.SDK[1701.84]SNK.S tr|Q9VF03|Q9VF03_DROME:885 R.M[147.04]SIDDIM[147.04]SFGDEK[1124.6]K.K tr|Q9VF03|Q9VF03_DROME:292 R.M[147.04]SIDDIM[147.04]SFGDEK[1124.62]K.K tr|Q9VF03|Q9VF03_DROME:292 R.M[147.04]SIDDIM[147.04]SFGDEK[1124.61]K.K tr|Q9VF03|Q9VF03_DROME:292 R.M[147.04]SIDDIM[147.04]SFGDEK[1124.62]K.K tr|Q9VF03|Q9VF03_DROME:292 R.M[147.04]SIDDIM[147.04]SFGDEK[1124.6]K.K tr|Q9VF03|Q9VF03_DROME:292 R.M[147.04]SIDDIM[147.04]SFGDEK[1124.61]K.K tr|Q9VF03|Q9VF03_DROME:292 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.SK[1593.78]TPEIYMAYR.N tr|Q9VF03|Q9VF03_DROME:483 K.SK[1593.79]TPEIYM[147.04]AYR.N tr|Q9VF03|Q9VF03_DROME:483 K.SK[1593.79]TPEIYM[147.04]AYR.N tr|Q9VF03|Q9VF03_DROME:483 K.SK[1577.79]TPEIYM[147.04]AYR.N tr|Q9VF03|Q9VF03_DROME:483 K.TLLDLDKK[1824.98]PLGK.D tr|Q9VF03|Q9VF03_DROME:590 K.TLLDLDKK[1824.98]PLGK.D tr|Q9VF03|Q9VF03_DROME:590 K.TLLDLDKK[1824.98]PLGK.D tr|Q9VF03|Q9VF03_DROME:590 K.TLLDLDKK[1824.98]PLGK.D tr|Q9VF03|Q9VF03_DROME:590 K.TLLDLDKK[1824.98]PLGK.D tr|Q9VF03|Q9VF03_DROME:590 K.GFEGK[1843.85]LR.E tr|Q9VF03|Q9VF03_DROME:162 K.GFEGK[1843.85]LR.E tr|Q9VF03|Q9VF03_DROME:162 K.K[1071.61]THK[284.17]QR.M tr|Q9VF03|Q9VF03_DROME:274 K.GFEGK[1130.68]LR.E tr|Q9VF03|Q9VF03_DROME:162 K.DNTK[1171.61]SDK.T tr|Q9VF03|Q9VF03_DROME:838 K.DNTK[1171.61]SDK.T tr|Q9VF03|Q9VF03_DROME:838 R.VAAAAAK[1402.79]AAM[147.04]EEFAAIKDEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:748 R.VAAAAAK[1402.78]AAM[147.04]EEFAAIKDEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:748 K.K[3076.57]PAAMR.N tr|Q9VF03|Q9VF03_DROME:639 K.K[3076.57]PAAMR.N tr|Q9VF03|Q9VF03_DROME:639 K.K[3076.57]PAAMR.N tr|Q9VF03|Q9VF03_DROME:639 K.K[3076.57]PAAMR.N tr|Q9VF03|Q9VF03_DROME:639 K.THK[1843.85]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[1225.67]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[1252.71]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.K[1062.64]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 K.K[1062.63]PAASSGGGK.Q tr|Q9VF03|Q9VF03_DROME:294 K.THK[1252.71]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[1124.62]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[1124.62]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[1380.77]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[1380.77]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[1130.68]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[1491.8]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.LDQYAK[1402.79]KPAAM[147.04]R.N tr|Q9VF03|Q9VF03_DROME:638 K.ANAALQSTASPAPGGK[1949.08]SR.G tr|Q9VF03|Q9VF03_DROME:378 K.ANAALQSTASPAPGGK[1949.1]SR.G tr|Q9VF03|Q9VF03_DROME:378 K.ANAALQSTASPAPGGK[4629.99]SR.G tr|Q9VF03|Q9VF03_DROME:378 K.THK[2317.27]QR.M tr|Q9VF03|Q9VF03_DROME:277 K.THK[2317.27]QR.M tr|Q9VF03|Q9VF03_DROME:277 I.K[2317.27]THK.L tr|Q9VF03|Q9VF03_DROME:274 K.TLLDLDK[954.54]KPLGK.D tr|Q9VF03|Q9VF03_DROME:589 K.TLLDLDK[954.53]KPLGK.D tr|Q9VF03|Q9VF03_DROME:589 K.TLLDLDK[1563.85]K.P tr|Q9VF03|Q9VF03_DROME:589 K.TLLDLDK[1563.85]K.P tr|Q9VF03|Q9VF03_DROME:589 K.TLLDLDK[1563.85]K.P tr|Q9VF03|Q9VF03_DROME:589 K.TLLDLDK[1563.85]K.P tr|Q9VF03|Q9VF03_DROME:589 K.TLLDLDK[2220.24]K.P tr|Q9VF03|Q9VF03_DROME:589 K.TLLDLDK[1824.98]KPLGK.D tr|Q9VF03|Q9VF03_DROME:589 K.TLLDLDK[1824.98]KPLGK.D tr|Q9VF03|Q9VF03_DROME:589 K.TLLDLDK[3014.59]KPLGK.D tr|Q9VF03|Q9VF03_DROME:589 K.K[1210.74]PLGK[284.17]DGGLELGDK.S tr|Q9VF03|Q9VF03_DROME:590 K.K[1287.67]DDDAK.S tr|Q9VF03|Q9VF03_DROME:827 I.K[1252.71]THK.L tr|Q9VF03|Q9VF03_DROME:274 I.K[1491.8]THK.L tr|Q9VF03|Q9VF03_DROME:274 R.KIK[1402.79]SLVALLVETQM[147.04]K.K tr|Q9VF03|Q9VF03_DROME:973 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.K[1402.79]LEIK.L tr|Q9VF03|Q9VF03_DROME:986 K.GFEGK[1546.81]LR.E tr|Q9VF03|Q9VF03_DROME:162 K.GFEGK[1674.91]LR.E tr|Q9VF03|Q9VF03_DROME:162 K.GFEGK[1674.91]LR.E tr|Q9VF03|Q9VF03_DROME:162 K.SAIK[2285.14]SDK.S tr|Q9VF03|Q9VF03_DROME:882 K.SAIK[2285.14]SDK.S tr|Q9VF03|Q9VF03_DROME:882 K.SAIK[2285.14]SDK.S tr|Q9VF03|Q9VF03_DROME:882 K.SAIK[2285.14]SDK.S tr|Q9VF03|Q9VF03_DROME:882 K.AAM[147.04]EEFAAIK[1402.8]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.79]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.8]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.79]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.81]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.79]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.79]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.8]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.77]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.81]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.81]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.8]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.8]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.77]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.76]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.79]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.79]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.8]DEVPATIMDNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.77]DEVPATIMDNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.SK[1399.72]DNTK.S tr|Q9VF03|Q9VF03_DROME:834 K.DLSKK[4295.9]DDDAK.S tr|Q9VF03|Q9VF03_DROME:827 K.AK[954.53]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 R.VM[147.04]QAVDK[1110.64]VR.H tr|O76857|O76857_DROME:26 R.VM[147.04]QAVDK[1110.64]VR.H tr|O76857|O76857_DROME:26 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 K.K[1670.91]ILQR.I sp|P25439|BRM_DROME:1475 R.M[147.04]NK[954.52]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[1179.68]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[1179.67]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.MNK[1179.67]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[1179.63]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[1179.66]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[1179.63]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.E[111.03]QKK[954.53]EQER.I sp|P25439|BRM_DROME:558 R.IEK[1339.71]ER.M sp|P25439|BRM_DROME:565 R.IEK[1339.71]ER.M sp|P25439|BRM_DROME:565 R.EQK[939.52]KEQER.I sp|P25439|BRM_DROME:557 R.EQK[939.52]KEQER.I sp|P25439|BRM_DROME:557 R.IEK[1339.71]ER.M sp|P25439|BRM_DROME:565 R.Q[111.03]RLPDYYEIIK[1474.93]R.P sp|P25439|BRM_DROME:1468 R.Q[111.03]RLPDYYEIIK[1474.92]R.P sp|P25439|BRM_DROME:1468 R.K[1939.04]FNAK.G sp|P25439|BRM_DROME:1159 R.K[1939.04]FNAK.G sp|P25439|BRM_DROME:1159 K.YSK[1423.88]VGR.K tr|Q9VC36|Q9VC36_DROME:631 R.K[1277.73]FLEK.E tr|Q9VC36|Q9VC36_DROME:976 R.K[1277.73]FLEK.E tr|Q9VC36|Q9VC36_DROME:976 Unique_(—) protein2 subunit2 realpep2 position2 1 Bap111 GGGSKSQHER 189 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 VKTDVDMHETPSR 173 1 Bap111 VKTDVDMHETPSR 173 1 Bap111 VKTDVDMHETPSR 173 1 Bap111 VKTDVDMHETPSR 173 1 Bap111 VKTDVDMHETPSR 173 1 Bap111 VKTDVDMHETPSR 173 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 AYHQTPAYQAYMSAKSK 169 1 Bap111 AYHQTPAYQAYMSAKSK 169 1 Bap111 AYHQTPAYQAYMSAKSK 169 1 Bap111 AYHQTPAYQAYMSAKSK 169 1 Bap111 AYHQTPAYQAYMSAKSK 169 1 Bap111 SSSSKNQNESR 75 1 Bap111 SSSSKNQNESR 75 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THKLQDAHER 328 1 BAP60 LLEDGKGDPNTKIK 223 1 BAP60 RKFSSFFK 233 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 MKFAEIPQR 354 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 KRLDIQEALK 166 1 BAP60 KRLDIQEALK 166 1 BAP60 KRLDIQEALK 166 1 BAP60 KRLDIQEALK 166 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 YFFTKVNQK 498 1 BAP60 KLDATIMR 158 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 DLKLMTDVAGNPEEERR 464 1 BAP60 KFSSFFK 233 1 BAP60 KFSSFFK 233 1 BAP60 LLEDGKGDPNTKIK 233 1 BAP60 RKFSSFFK 233 1 BAP60 RKFSSFFK 233 1 BAP60 KFSSFFK 233 1 BAP60 LLEDGKGDPNTKIK 229 1 BAP60 RKFSSFFK 233 1 BAP60 KFSSFFK 233 1 BAP60 KFSSFFK 233 1 BAP60 KFSSFFK 233 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 EYINCDKYLEQIFSCQR 342 1 BAP60 DLKLMTDVAGNPEEERR 464 1 BAP60 DLKLMTDVAGNPEEERR 464 1 BAP60 DLKLMTDVAGNPEEER 464 1 BAP60 DLKLMTDVAGNPEEERR 464 1 BAP60 YFFTKVNQK 498 1 BAP60 DLKLMTDVAGNPEEERR 464 1 BAP60 KFSSFFK 233 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 LLEDGKGDPNTK 223 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 KLDATIMR 158 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 YFFTKVNQK 498 1 BAP60 DLKLMTDVAGNPEEER 464 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 MKFAEIPQR 354 1 BAP60 MKFAEIPQR 354 1 BAP60 MKFAEIPQR 354 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 SDFATAKK 125 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 LDIQEALKRPMK 175 1 BAP60 LDIQEALKRPMK 175 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 LDIQEALKRPMK 175 1 BAP60 LDIQEALKRPMK 175 1 BAP60 KFSSFFK 233 1 BAP60 KFSSFFK 233 1 BAP60 LLEDGKGDPNTK 223 1 BAP60 RKLR 183 1 BAP60 RKLR 183 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 IFISNTFYPSKEPTNDGEEGAVASWELR 196 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 MKFAEIPQR 354 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 IHETVDTINQMKTNR 435 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KNAVEGESDR 243 1 Snr1 LDMELEGQKLR 183 1 Snr1 LDMELEGQKLR 183 1 Snr1 KIRDQDR 349 1 Snr1 KIRDQDR 349 1 Snr1 KIRDQDR 349 1 OSA KPEIK 2058 1 mor QQFHLEQLKAAEFR 1028 1 mor QQFHLEQLKAAEFR 1028 1 mor SDKSNK 885 1 mor SDKSNK 885 1 mor SDKSNK 885 1 mor MSIDDIMSFGDEKK 292 1 mor MSIDDIMSFGDEKK 292 1 mor MSIDDIMSFGDEKK 292 1 mor MSIDDIMSFGDEKK 292 1 mor MSIDDIMSFGDEKK 292 1 mor MSIDDIMSFGDEKK 292 1 mor LGKNSADPPATR 70 1 mor LGKNSADPPATR 70 1 mor LGKNSADPPATR 70 1 mor LGKNSADPPATR 70 1 mor LGKNSADPPATR 70 1 mor LGKNSADPPATR 70 1 mor SKTPEIYMAYR 483 1 mor SKTPEIYMAYR 483 1 mor SKTPEIYMAYR 483 1 mor SKTPEIYMAYR 483 1 mor TLLDLDKKPLGK 590 1 mor TLLDLDKKPLGK 590 1 mor TLLDLDKKPLGK 590 1 mor TLLDLDKKPLGK 590 1 mor TLLDLDKKPLGK 590 1 mor GFEGKLR 162 1 mor GFEGKLR 162 1 mor KTHKQR 274 1 mor GFEGKLR 162 1 mor DNTKSDK 838 1 mor DNTKSDK 838 1 mor VAAAAAKAAMEEFAAIKDEVPATIMDNHLK 748 1 mor VAAAAAKAAMEEFAAIKDEVPATIMDNHLK 748 1 mor KPAAMR 639 1 mor KPAAMR 639 1 mor KPAAMR 639 1 mor KPAAMR 639 1 mor THKQR 277 1 mor THKQR 277 1 mor THKQR 294 1 mor KPAASSGGGK 294 1 mor KPAASSGGGK 277 1 mor THKQR 277 1 mor THKQR 277 1 mor THKQR 277 1 mor THKQR 277 1 mor THKQR 277 1 mor THKQR 277 1 mor THKQR 277 1 mor LDQYAKKPAAMR 638 1 mor ANAALQSTASPAPGGKSR 378 1 mor ANAALQSTASPAPGGKSR 378 1 mor ANAALQSTASPAPGGKSR 378 1 mor THKQR 277 1 mor THKQR 277 1 mor KTHK 274 1 mor TLLDLDKKPLGK 589 1 mor TLLDLDKKPLGK 589 1 mor TLLDLDKK 589 1 mor TLLDLDKK 589 1 mor TLLDLDKK 589 1 mor TLLDLDKK 589 1 mor TLLDLDKK 589 1 mor TLLDLDKKPLGK 589 1 mor TLLDLDKKPLGK 589 1 mor TLLDLDKKPLGK 589 1 mor KPLGKDGGLELGDK 590 1 mor KDDDAK 827 1 mor KTHK 274 1 mor KTHK 274 1 mor KIKSLVALLVETQMK 973 1 mor AKHLAALEER 962 1 mor AKHLAALEER 962 1 mor AKHLAALEER 962 1 mor KLEIK 986 1 mor GFEGKLR 162 1 mor GFEGKLR 162 1 mor GFEGKLR 162 1 mor SAIKSDK 882 1 mor SAIKSDK 882 1 mor SAIKSDK 882 1 mor SAIKSDK 882 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor SKDNTK 834 1 mor DLSKKDDDAK 827 1 mor AKHLAALEER 962 1 BCL7 VMQAVDKVR 26 1 BCL7 VMQAVDKVR 26 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm KKEDEEIHPGR 1311 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm KILQR 1475 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm EQKKEQER 565 1 brm IEKER 565 1 brm IEKER 565 1 brm EQKKEQER 557 1 brm EQKKEQER 557 1 brm IEKER 565 1 brm QRLPDYYEIIKR 1468 1 brm QRLPDYYEIIKR 1468 1 brm KFNAK 1159 1 brm KFNAK 1159 1 Polybromo YSKVGR 631 1 Polybromo KFLEK 976 1 Polybromo KFLEK 976 D4 Inter Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 Q24090- Q7K3G5 1 Q24090:349- 4.6145 Q7K3G5:243 0 2.45980941 JL061317_062017_S2_HAD4_(—) P 4.6145 0.20597688 1.47E−01 //11 13//60 BAF_1ug.04228.04228.4 −2 4.03342515 JL061317_062017_S2_HAD4_(—) P 2.2085 0.11066847 2.04E−01 //11 6//60 BAF_1ug.04954.04954.4 3 Q9VF03- Q9W384 1 Q9VF03:962- 8.4925 Q9W384:189 −1 −2.397881 JL061317_062017_S2_HAD4_(—) NP 8.4925 0.43686823 3.70E−06 //10 15//64 BAF_100B.05403.05403.5 −1 2.78592237 JL061317_062017_S2_HAD4_(—) NP 5.98825 0.40539214 2.14E−03 //10 14//53 BAF_100B.05392.05392.4 4 Q9VF03:986- 13.657 Q9W384:265 −1 7.12634686 JL061317_062017_S2_HAD4_(—) N 13.657 0.34718391 //10 37//120 BAF_70B.13041.13041.4 5 Q9VF03:1028- 12.88725 Q9W384:300 −3 3.83055704 JL061317_062017_S2_HAD4_(—) N 12.88725 0.38025582 //15 17//96 BAF_85B.13831.13831.5 −2 2.18476034 JL061317_062017_S2_HAD4_(—) N 10.9815 0.35914837 //15 16//96 BAF_85B.13859.13859.5 −1 7.80717287 JL061317_062017_S2_HAD4_(—) N 7.985 0.33589231 //15 16//74 BAF_85B.13826.13826.4 −2 10.9281047 JL061317_062017_S2_HAD4_(—) N 7.953 0.32730416 //15 18//74 BAF_85B.13842.13842.4 −1 3.07623653 JL061317_062017_S2_HAD4_(—) NP 7.29925 0.23773736 6.21E−04 //16 12//103 BAF_85B.12629.12629.5 0 0.54814917 JL061317_062017_S2_HAD4_(—) N 6.3775 0.27404177 //15 13//74 BAF_85B.13866.13866.4 −1 10.2187698 JL061317_062017_S2_HAD4_(—) N 6.21925 0.25431405 //15 16//74 BAF_85B.13814.13814.4 −1 13.2585026 JL061317_062017_S2_HAD4_(—) N 5.8805 0.20989042 //15 13//74 BAF_70B.13783.13783.4 −1 5.47444043 JL061317_062017_S2_HAD4_(—) N 5.80725 0.21753259 //15 12//74 BAF_70B.13813.13813.4 6 Q9VF03:990- 5.69375 Q9W384:280 −1 3.64508425 JL061317_062017_S2_HAD4_(—) NP 5.69375 0.15898778 1.75E−08 3//9 15//35 BAF_85B.08768.08768.4 −1 2.83521522 JL061317_062017_S2_HAD4_(—) NP 4.19225 0.17623752 5.30E−05 2//9 10//35 BAF_D.09043.09043.4 4 Q7K3G5- Q9W384 3 Q7K3G5:232- 4.31725 Q9W384:189 −1 1.69936212 JL061317_062017_S2_HAD4_(—) NP 4.31725 0.19276019 8.70E−04 //14 10//81 BAF_100B.02988.02988.5 4 Q7K3G5:232- 5.569 Q9W384:108 −1 12.5710787 JL061317_062017_S2_HAD4_(—) N 5.569 0.22681546 //14 15//80 BAF_100B.05260.05260.5 5 Q7K3G5- Q9VC36 3 Q7K3G5:243- 7.2525 Q9VC36:1039 −1 −2.3992429 JL061317_062017_S2_HAD4_(—) P 7.2525 0.28548092 1.28E−02 //14 2//105 BAF_85B.04134.04134.5 9 OSA- Q9W384 1 OSA:2156- 5.49425 Q9W384:110 0 2.26960009 JL061317_062017_S2_HAD4_(—) NP 5.49425 0.17149702 2.15E−06 3//10 15//42 BAF_70B.04510.04510.4 10 OSA- Q9VC36 2 OSA:1009- 2.63875 Q9VC36:1229 −2 13.2487643 JL061317_062017_S2_HAD4_(—) N 2.63875 0.12774739 2//10 6//41 BAF_85B.07178.07178.4 3 OSA:987- 3.21975 Q9VC36:860 −1 16.1227976 JL061317_062017_S2_HAD4_(—) N 3.21975 0.13266378 //8 6//39 BAF_85B.06958.06958.4 −3 7.59488375 JL061317_062017_S2_HAD4_(—) N 2.424 0.10189155 //8 3//39 BAF_85B.08351.08351.4 12 OSA- Q7K3G5 2 OSA:1969- 10.4445 Q7K3G5:32 0 −0.8550378 JL061317_062017_S2_HAD4_(—) NP 10.4445 0.30142857 7.31E−05 1//14 28//87 BAF_50B.10404.10404.4 3 OSA:1969- 12.2435 Q7K3G5:28 −2 4.97724058 JL061317_062017_S2_HAD4_(—) NP 12.2435 0.34621856 6.14E−10 4//12 25//58 BAF_70B.10344.10344.4 0 0.72899981 JL061317_062017_S2_HAD4_(—) NP 10.00625 0.27318954 1.06E−11 4//12 22//58 BAF_50B.09816.09816.4 −1 10.122997 JL061317_062017_S2_HAD4_(—) NP 5.65625 0.23503563 4.76E−09 1//12 19//58 BAF_1ug.10237.10237.4 14 ACT2- BRM 1 ACT2:327- 4.55475 BRM:1001 0 4.62562501 JL061317_062017_S2_HAD4_(—) N 4.55475 0.1471529 1//12 12//147 BAF_70B.15182.15182.5 15 ACT2- ACT4 1 ACT2:51- 7.5405 ACT4:51 0 11.571328 JL061317_062017_S2_HAD4_(—) N 7.5405 0.3317203 //10 10//134 BAF_85B.08715.08715.6 2 ACT2:329- 6.04725 ACT4:292 −3 8.80940103 JL061317_062017_S2_HAD4_(—) N 6.04725 0.14449303 1//17 19//143 BAF_50B.14300.14300.4 16 BAP60- Q9VF03 1 BAP60:342- 11.26125 Q9VF03:1028 0 4.45887472 JL061317_062017_S2_HAD4_(—) NP 11.26125 0.29460817 5.49E−06 1//12 29//129 BAF_D.17196.17196.5 −1 6.37985156 JL061317_062017_S2_HAD4_(—) N 11.118 0.34044768 //12 21//96 BAF_D.18362.18362.4 −1 5.94538568 JL061317_062017_S2_HAD4_(—) NP 9.5915 0.26044043 5.98E−05 //12 23//129 BAF_D.17190.17190.5 −2 13.2339643 JL061317_062017_S2_HAD4_(—) NP 9.58675 0.27866434 1.25E−07 //12 19//96 BAF_D.17218.17218.4 −2 3.43560135 JL061317_062017_S2_HAD4_(—) N 8.972 0.25453927 //12 17//96 BAF_D.18673.18673.4 −3 11.9387864 JL061317_062017_S2_HAD4_(—) NP 8.281 0.22647031 2.14E−06 //12 15//96 BAF_D.17194.17194.4 −2 −2.543657 JL061317_062017_S2_HAD4_(—) NP 7.51575 0.20739969 2.39E−05 //12 16//96 BAF_D.17254.17254.4 −2 4.70907953 JL061317_062017_S2_HAD4_(—) NP 7.25675 0.23771579 2.87E−05 //12 13//129 BAF_85B.16921.16921.5 −2 −2.134758 JL061317_062017_S2_HAD4_(—) NP 6.7335 0.2108997 1.03E−05 //12 18//129 BAF_1ug.17016.17016.5 −3 8.25610073 JL061317_062017_S2_HAD4_(—) NP 6.468 0.20593152 1.96E−06 //12 14//129 BAF_85B.16954.16954.5 0 3.64938855 JL061317_062017_S2_HAD4_(—) P 4.91275 0.14228926 8.62E−07 //12 17//129 BAF_1ug.17026.17026.5 2 BAP60:223- 7.225 Q9VF03:378 −1 −0.601038 JL061317_062017_S2_HAD4_(—) P 7.225 0.22185034 9.25E−05 //20 18//106 BAF_50B.07538.07538.4 3 BAP60:446- 11.856 Q9VF03:962 −2 0.59735749 JL061317_062017_S2_HAD4_(—) N 11.856 0.36696793 //15 25//92 BAF_85B.15816.15816.4 −1 6.41706008 JL061317_062017_S2_HAD4_(—) N 10.2865 0.37421784 //15 22//122 BAF_85B.15746.15746.5 −1 0.51094815 JL061317_062017_S2_HAD4_(—) N 8.894 0.30438056 //15 19//122 BAF_85B.15895.15895.5 −1 2.23777123 JL061317_062017_S2_HAD4_(—) N 8.3735 0.36091117 //15 14//92 BAF_85B.15774.15774.6 −3 12.2391518 JL061317_062017_S2_HAD4_(—) N 5.401 0.16498908 //15 15//92 BAF_D.16115.16115.4 5 BAP60:138- 6.4455 Q9VF03:962 −1 2.39039647 JL061317_062017_S2_HAD4_(—) N 6.4455 0.28293936 //10 11//64 BAF_70B.09571.09571.5 −1 1.98794585 JL061317_062017_S2_HAD4_(—) NP 4.6225 0.21043886 1.77E−03 1//10 11//54 BAF_70B.09581.09581.4 6 BAP60:328- 9.30525 Q9VF03:1028 −1 1.04863972 JL061317_062017_S2_HAD4_(—) N 9.30525 0.37174903 //15 23//96 BAF_85B.12284.12284.5 −1 8.60024577 JL061317_062017_S2_HAD4_(—) N 8.71675 0.31526457 //15 20//96 BAF_D.12682.12682.5 −2 3.44847305 JL061317_062017_S2_HAD4_(—) N 8.123 0.33739694 //15 15//74 BAF_85B.12295.12295.6 0 0.57623284 JL061317_062017_S2_HAD4_(—) N 7.93925 0.34635939 //15 13//74 BAF_85B.12286.12286.6 −2 5.60956479 JL061317_062017_S2_HAD4_(—) N 7.78575 0.30386379 //15 16//96 BAF_D.12632.12632.5 −1 5.83791566 JL061317_062017_S2_HAD4_(—) N 7.76925 0.27753269 //15 16//74 BAF_85B.12279.12279.4 −1 2.75750422 JL061317_062017_S2_HAD4_(—) N 6.16175 0.30245429 //15 12//74 BAF_D.12628.12628.6 −1 4.00234295 JL061317_062017_S2_HAD4_(—) N 5.837 0.24136291 //15 17//96 BAF_100B.12411.12411.5 −3 4.06989197 JL061317_062017_S2_HAD4_(—) N 5.79325 0.21132065 //15 14//96 BAF_100B.12402.12402.5 −2 0.92020642 JL061317_062017_S2_HAD4_(—) N 5.1515 0.17319751 //15 13//74 BAF_D.12633.12633.4 −1 4.85199053 JL061317_062017_S2_HAD4_(—) NP 5.02975 0.21118319 1.29E−06 //16 13//103 BAF_D.11292.11292.6 −1 8.8918368 JL061317_062017_S2_HAD4_(—) NP 4.95625 0.18858681 3.14E−07 //16 18//103 BAF_D.11254.11254.5 −1 −2.1766306 JL061317_062017_S2_HAD4_(—) NP 4.84375 0.18838846 5.85E−07 1//16 18//103 BAF_D.11279.11279.5 −2 0.89476857 JL061317_062017_S2_HAD4_(—) NP 4.83275 0.20325742 6.61E−06 //16 11//103 BAF_D.11290.11290.6 −1 0.62903263 JL061317_062017_S2_HAD4_(—) NP 3.48875 0.12265975 4.20E−04 //16 11//79 BAF_D.11289.11289.4 17 BAP60- OSA 1 BAP60:158- 8.3515 OSA:2365 −2 4.86963113 JL061317_062017_S2_HAD4_(—) N 8.3515 0.295576 1//12 17//55 BAF_50B.12135.12135.4 −1 1.12446168 JL061317_062017_S2_HAD4_(—) NP 7.9805 0.27790643 3.31E−10 //12 14//55 BAF_1ug.13787.13787.4 −1 1.28857875 JL061317_062017_S2_HAD4_(—) N 7.181 0.23694978 1//12 15//55 BAF_50B.12122.12122.4 −1 3.90525204 JL061317_062017_S2_HAD4_(—) N 6.253 0.21323467 2//12 16//55 BAF_70B.12518.12518.4 −2 3.38631203 JL061317_062017_S2_HAD4_(—) N 5.005 0.22096643 //12 13//55 BAF_D.12931.12931.4 18 BAP60- Q9W384 1 BAP60:104- 6.098 Q9W384:101 −1 −1.150457 JL061317_062017_S2_HAD4_(—) P 6.098 0.24336998 2.11E−03 //19 18//98 BAF_70B.03956.03956.4 2 BAP60:104- 9.53225 Q9W384:214 −1 4.23491945 JL061317_062017_S2_HAD4_(—) NP 9.53225 0.26250241 9.69E−03 //10 17//210 BAF_70B.09266.09266.5 −3 7.7852771 JL061317_062017_S2_HAD4_(—) NP 7.838 0.24295213 1.03E−02 //10 15//210 BAF_70B.09239.09239.5 3 BAP60:104- 9.87375 Q9W384:189 −1 2.66890608 JL061317_062017_S2_HAD4_(—) P 9.87375 0.3950132 9.41E−04 //19 23//95 BAF_70B.02646.02646.4 4 BAP60:158- 4.33525 Q9W384:189 −3 6.39141814 JL061317_062017_S2_HAD4_(—) N 4.33525 0.16917389 1//12 7//55 BAF_70B.04706.04706.4 19 BRM- Q7K012 1 BRM:525- 8.576 Q7K012:375 −2 10.9790952 JL061317_062017_S2_HAD4_(—) N 8.576 0.29817638 //17 21//122 BAF_D.15761.15761.5 −2 5.24754627 JL061317_062017_S2_HAD4_(—) N 8.12175 0.26269528 //13 22//137 BAF_70B.18221.18221.5 −2 11.4406832 JL061317_062017_S2_HAD4_(—) N 7.14775 0.25543187 //17 20//122 BAF_85B.15396.15396.5 −3 2.17543411 JL061317_062017_S2_HAD4_(—) N 6.8325 0.24963464 1//17 22//122 BAF_85B.15404.15404.5 −3 2.86194658 JL061317_062017_S2_HAD4_(—) N 6.11625 0.20734457 //13 14//137 BAF_70B.17619.17619.5 −3 6.69755685 JL061317_062017_S2_HAD4_(—) N 5.98 0.19530357 1//17 20//122 BAF_85B.15550.15550.5 −3 4.59307505 JL061317_062017_S2_HAD4_(—) N 5.8945 0.20342697 //13 21//137 BAF_70B.18237.18237.5 −2 0.05794336 JL061317_062017_S2_HAD4_(—) N 5.71875 0.22609117 //17 12//94 BAF_85B.15481.15481.6 −3 8.05531399 JL061317_062017_S2_HAD4_(—) N 4.724 0.15713929 //13 13//137 BAF_85B.17710.17710.5 −3 7.52495007 JL061317_062017_S2_HAD4_(—) N 4.706 0.15139378 //13 11//137 BAF_70B.17514.17514.5 −2 3.35240102 JL061317_062017_S2_HAD4_(—) N 4.438 0.14234396 //17 11//94 BAF_85B.15454.15454.4 −2 15.0954207 JL061317_062017_S2_HAD4_(—) N 4.00225 0.11655794 //13 12//143 BAF_D.17942.17942.5 −3 12.8030848 JL061317_062017_S2_HAD4_(—) N 3.94325 0.11610258 //17 9//94 BAF_85B.15440.15440.4 20 BRM- OSA 1 BRM:398- 5.27325 OSA:1772 −2 12.5845257 JL061317_062017_S2_HAD4_(—) NP 5.27325 0.1396573 3.91E−04 //16 12//159 BAF_50B.18192.18192.5 21 BRM- Q9VC36 1 BRM:1045- 3.15625 Q9VC36:980 0 4.97786312 JL061317_062017_S2_HAD4_(—) N 3.15625 0.12308427 //10 6//44 BAF_85B.07751.07751.4 2 BRM:1616- 2.445 Q9VC36:420 0 17.0957647 JL061317_062017_S2_HAD4_(—) N 2.445 0.10526316 //9 5//40 BAF_100B.04619.04619.4 3 BRM:618- 8.01525 Q9VC36:384 −1 5.39027637 JL061317_062017_S2_HAD4_(—) N 8.01525 0.28464257 //13 17//62 BAF_85B.14730.14730.4 23 BRM- Q7K3G5 8 BRM:1149- 7.78075 Q7K3G5:232 −1 16.2289317 JL061317_062017_S2_HAD4_(—) N 7.78075 0.29255889 2//13 22//57 BAF_D.05407.05407.4 25 BRM- Q9VF03 1 BRM:1109- 3.26775 Q9VF03:303 0 5.53867147 JL061317_062017_S2_HAD4_(—) N 3.26775 0.1155846 //14 9//66 BAF_70B.14601.14601.4 2 BRM:389- 7.2115 Q9VF03:758 −2 4.6261713 JL061317_062017_S2_HAD4_(—) N 7.2115 0.20286369 //11 16//131 BAF_50B.14326.14326.4 −3 9.09453299 JL061317_062017_S2_HAD4_(—) N 5.9885 0.15535983 //11 17//131 BAF_50B.14397.14397.4 −3 5.6111834 JL061317_062017_S2_HAD4_(—) N 5.4935 0.15704015 //11 20//131 BAF_50B.14278.14278.4 Total counted inter crosslinks are: 96 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 4.279 1.68181818 R.RK[1195.67]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 Q7K3G5 1.869 0.63636364 R.RK[1195.67]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 Q7K3G5 6.84575 2.25 K.AK[1307.66]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Q9VF03 4.43625 1.65 K.AK[1307.66]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Q9VF03 12.334 2.5 R.Q[111.03]VSSLTM[147.04]HQTK[895.55]LEAELQQM[147.04]EEK.F tr|Q9W384|Q9W384_DROME:265 1 Q9W384 5.42725 1.75 R.Q[111.03]QFHLEQLK[1853.88]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 5.26625 1.625 R.Q[111.03]QFHLEQLK[1853.89]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 3.69125 1.75 R.Q[111.03]QFHLEQLK[1853.93]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 4.7935 1.95833333 R.Q[111.03]QFHLEQLK[1853.94]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 3.12675 0.96428571 R.QQFHLEQLK[1853.9]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 4.32825 1.375 R.Q[111.03]QFHLEQLK[1853.9]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 4.26025 1.875 R.Q[111.03]QFHLEQLK[1853.86]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 3.00825 1.16666667 R.Q[111.03]QFHLEQLK[1853.85]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 3.20775 1.20833333 R.Q[111.03]QFHLEQLK[1853.92]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 3.8275 2.64285714 K.KLEIK[887.51]LR.H tr|Q9VF03|Q9VF03_DROME:990 1 Q9VF03 2.4845 1.71428571 K.KLEIK[887.51]LR.H tr|Q9VF03|Q9VF03_DROME:990 1 Q9VF03 3.59125 0.91666667 R.RTNANVEGTPK[1307.66]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 Q7K3G5 4.60475 1.95454546 R.RTNANVEGTPK[1353.74]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 Q7K3G5 0.103 0.07142857 K.LK[1369.68]SWPPVREGSSVK.F tr|Q9VC36|Q9VC36_DROME:1039 1 Q9VC36 3.40225 1.875 R.TTAK[1087.64]DEAR.V sp|Q8IN94|OSA_DROME:2156 1 OSA 1.35375 0.85714286 R.RGWLDK[752.47]LR.A sp|Q8IN94|OSA_DROME:1009 1 OSA 1.29775 0.92857143 R.K[1102.6]RDELC[160.03]K.D tr|Q9VC36|Q9VC36_DROME:860 1 Q9VC36 0.9885 0.57142857 R.K[1102.58]RDELC[160.03]K.D tr|Q9VC36|Q9VC36_DROME:860 1 Q9VC36 9.01625 2.85714286 K.YK[920.58]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 1 Q7K3G5 9.6915 3.6 K.IQNFLNDK[920.58]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 1 Q7K3G5 8.52075 3.1 K.IQNFLNDK[920.58]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 1 Q7K3G5 3.98875 2.5 K.IQNFLNDK[920.58]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 1 Q7K3G5 1.90125 0.57894737 K.EITALAPSTM[147.04]K[1487.78]IK[284.17]IVAPPER.K sp|P02572|ACT2_DROME:327 1 ACT2 2.955 0.56521739 R.PRHQGVM[147.04]VGM[147.04]GQK[2721.16]DSYVGDEAQSK.R sp|P02572|ACT2_DROME:51 4 ACT2 sp|P10981|ACT5_DROME:51 sp|P10987|ACT1_DROME:51 sp|P83967|ACT6_DROME:51 4.90725 1.06818182 R.K[1287.76]DLYANNVLSGGTTM[147.04]YPGIADR.M sp|P02574|ACT4_DROME:292 1 ACT4 8.941 2.14705882 R.EYINC[160.03]DK[2010.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 8.09725 1.75 R.EYINC[160.03]DK[1993.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 7.51425 1.55882353 R.EYINC[160.03]DK[2010.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 7.34175 1.44117647 R.EYINC[160.03]DK[2010.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 5.967 1.375 R.EYINC[160.03]DK[1993.06]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 5.99975 1.17647059 R.EYINC[160.03]DK[2010.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 5.40625 1.14705882 R.EYINC[160.03]DK[2010.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 5.24325 0.94117647 R.EYINC[160.03]DK[2010.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 5.2965 1.26470588 R.EYINC[160.03]DK[2010.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 4.42125 0.97058824 R.EYINC[160.03]DK[2010.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 4.37325 1.08823529 R.EYINC[160.03]DK[2010.07]YLEQIFSC[160.03]QR.M sp|Q9VYG2|BAP60_DROME:342 1 BAP60 6.5165 1.33333333 K.ANAALQSTASPAPGGK[1551.81]SR.G tr|Q9VF03|Q9VF03_DROME:378 1 Q9VF03 7.228 2.2 R.EFFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 BAP60 6.71825 2.06666667 R.EFFLSFAK[1402.81]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 BAP60 5.381 1.66666667 R.EFFLSFAK[1402.79]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 BAP60 4.385 1.2 R.EFFLSFAK[1402.8]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 BAP60 2.308 0.76666667 R.EFFLSFAK[1402.75]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 1 BAP60 4.51675 1.72222222 K.AK[1118.71]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Q9VF03 2.7655 1.5 K.AK[1118.72]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 Q9VF03 6.14175 2.54166667 R.Q[111.03]QFHLEQLK[1499.79]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 6.2095 2.33333333 R.Q[111.03]QFHLEQLK[1499.76]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 5.597 1.79166667 R.Q[111.03]QFHLEQLK[1499.77]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 5.2485 1.70833333 R.Q[111.03]QFHLEQLK[1499.79]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 5.267 1.54166667 R.Q[111.03]QFHLEQLK[1499.77]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 3.72 1.29166667 R.Q[111.03]QFHLEQLK[1499.8]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 3.9645 1.29166667 R.Q[111.03]QFHLEQLK[1499.79]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 4.53475 1.5 R.Q[111.03]QFHLEQLK[1499.8]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 4.173 1.29166667 R.Q[111.03]QFHLEQLK[1499.8]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 2.8005 1.375 R.Q[111.03]QFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 2.795 0.92857143 R.QQFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 3.70175 1.46428571 R.QQFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 3.395 1.28571429 R.QQFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 2.4025 0.78571429 R.QQFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 2.27425 0.85714286 R.QQFHLEQLK[1499.78]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 1 Q9VF03 4.6375 2.05555556 R.LEK[1228.67]LC[160.03]AVLTR.H sp|Q8IN94|OSA_DROME:2365 1 OSA 4.7505 1.65 R.LEK[1212.69]LC[160.03]AVLTR.H sp|Q8IN94|OSA_DROME:2365 1 OSA 4.2175 1.77777778 R.LEK[1228.68]LC[160.03]AVLTR.H sp|Q8IN94|OSA_DROME:2365 1 OSA 3.81525 1.83333333 R.LEK[1228.69]LC[160.03]AVLTR.H sp|Q8IN94|OSA_DROME:2365 1 OSA 2.6115 1.38888889 R.LEK[1228.68]LC[160.03]AVLTR.H sp|Q8IN94|OSA_DROME:2365 1 OSA 5.973 1.58823529 R.GTGAGGGGVGSGGGSK[818.47]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 5.05025 0.80769231 R.RIDIQPAEDEDDQDEGYTTK[1583.8]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Q9W384 3.86975 0.69230769 R.RIDIQPAEDEDDQDEGYTTK[1583.8]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Q9W384 9.166 2 R.GTGAGGGGVGSGGGSK[1307.66]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 1.12325 1 R.GGGSK[1228.67]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Q9W384 4.8265 1.8 K.HLEFLAAVLQHGK[1585.81]DLR.E sp|P25439|BRM_DROME:525 1 BRM 5.214 1.71875 R.Q[111.03]K[284.17]HLEFLAAVLQHGK[1585.83]DLR.E sp|P25439|BRM_DROME:525 1 BRM 4.10425 1.5 K.HLEFLAAVLQHGK[1585.81]DLR.E sp|P25439|BRM_DROME:525 1 BRM 3.2645 1.5 K.HLEFLAAVLQHGK[1585.84]DLR.E sp|P25439|BRM_DROME:525 1 BRM 2.133 0.71875 R.Q[111.03]K[284.17]HLEFLAAVLQHGK[1585.86]DLR.E sp|P25439|BRM_DROME:525 1 BRM 3.1345 1.26666667 K.HLEFLAAVLQHGK[1585.83]DLR.E sp|P25439|BRM_DROME:525 1 BRM 4.0855 1.59375 R.Q[111.03]K[284.17]HLEFLAAVLQHGK[1585.87]DLR.E sp|P25439|BRM_DROME:525 1 BRM 3.65475 1.13333333 K.HLEFLAAVLQHGK[1585.85]DLR.E sp|P25439|BRM_DROME:525 1 BRM 1.92525 0.625 R.Q[111.03]K[284.17]HLEFLAAVLQHGK[1585.88]DLR.E sp|P25439|BRM_DROME:525 1 BRM 1.69175 0.5625 R.Q[111.03]K[284.17]HLEFLAAVLQHGK[1585.82]DLR.E sp|P25439|BRM_DROME:525 1 BRM 2.47125 0.96666667 K.HLEFLAAVLQHGK[1585.86]DLR.E sp|P25439|BRM_DROME:525 1 BRM 1.69125 0.55882353 R.QK[284.17]HLEFLAAVLQHGK[1569.8]DLR.E sp|P25439|BRM_DROME:525 1 BRM 1.60425 0.53333333 K.HLEFLAAVLQHGK[1585.81]DLR.E sp|P25439|BRM_DROME:525 1 BRM 1.28275 0.60526316 K.K[2329.36]ELIFPHDSVESTTPVLYR.R sp|Q8IN94|OSA_DROME:1772 1 OSA 1.29 0.71428571 K.FLEK[1104.63]EVFK.S tr|Q9VC36|Q9VC36_DROME:980 1 Q9VC36 1.194 0.625 K.K[797.5]AFPTSHR.T tr|Q9VC36|Q9VC36_DROME:420 1 Q9VC36 7.11 2 R.FHPEYFELIK[1422.74]R.P tr|Q9VC36|Q9VC36_DROME:384 1 Q9VC36 6.74775 2.85 R.TNANVEGTPK[1370.66]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 Q7K3G5 1.53375 0.72727273 K.KPAASSGGGK[976.66]QK.R tr|Q9VF03|Q9VF03_DROME:303 1 Q9VF03 4.7835 0.77272727 K.AAM[147.04]EEFAAIK[1799.89]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 1 Q9VF03 4.3735 0.97727273 K.AAM[147.04]EEFAAIK[1799.87]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 1 Q9VF03 3.69425 1.02272727 K.AAM[147.04]EEFAAIK[1799.93]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 1 Q9VF03 realpep1 position1 immonium2 ion2 dot2 connective2 RKNAVEGESDR 243 //8 2//38 0.3355 0.28571429 RKNAVEGESDR 243 //8 5//38 0.3395 0.71428571 AKHLAALEER 962 //12 7//63 1.64675 0.9 AKHLAALEER 962 //12 7//51 1.552 0.7 QVSSLTMHQTKLEAELQQMEEK 265 //6 5//23 1.323 1.6 QQFHLEQLKAAEFR 1028 2//15 24//90 7.46 2.41666667 QQFHLEQLKAAEFR 1028 1//15 19//90 5.71525 1.83333333 QQFHLEQLKAAEFR 1028 //15 21//71 4.29375 2.33333333 QQFHLEQLKAAEFR 1028 //15 17//71 3.1595 1.375 QQFHLEQLKAAEFR 1028 1//15 15//90 4.1725 1.57692308 QQFHLEQLKAAEFR 1028 //15 13//71 2.04925 0.875 QQFHLEQLKAAEFR 1028 //15 14//71 1.959 1 QQFHLEQLKAAEFR 1028 //15 18//71 2.87225 1.95833333 QQFHLEQLKAAEFR 1028 //15 17//71 2.5995 1.41666667 KLEIKLR 990 //7 7//23 1.86625 1.4 KLEIKLR 990 //7 6//23 1.70775 1.1 RTNANVEGTPKR 232 //12 4//62 0.726 0.45 RTNANVEGTPKR 232 //11 7//53 0.96425 0.5625 LKSWPPVREGSSVK 1039 //11 17//64 7.1495 2.45 TTAKDEAR 2156 2//7 7//34 2.092 1.42857143 RGWLDKLR 1009 //5 3//21 1.285 1 KRDELCK 860 //8 7//38 1.922 1.42857143 KRDELCK 860 //8 4//38 1.4355 0.85714286 YKEILENSENFNTR 32 //7 6//27 1.42825 1.41666667 IQNFLNDKEK 28 //7 9//32 2.552 2.08333333 IQNFLNDKEK 28 //7 7//32 1.4855 1.33333333 IQNFLNDKEK 28 //7 8//32 1.6675 1.83333333 EITALAPSTMKIKIVAPPER 327 //11 12//66 2.6535 1.15 PRHQGVMVGMGQKDSYVGDEAQSK 51 //12 14//123 4.5855 0.90476191 KDLYANNVLSGGTTMYPGIADR 292 //9 5//40 1.14 0.5625 EYINCDKYLEQIFSCQR 342 //16 13//103 2.32025 1.14285714 EYINCDKYLEQIFSCQR 342 //15 10//74 3.02075 1.08333333 EYINCDKYLEQIFSCQR 342 //16 14//103 2.07725 1.03571429 EYINCDKYLEQIFSCQR 342 //16 11//79 2.245 0.96428571 EYINCDKYLEQIFSCQR 342 //15 13//74 3.005 1.45833333 EYINCDKYLEQIFSCQR 342 //16 11//79 2.28125 0.92857143 EYINCDKYLEQIFSCQR 342 //16 10//79 2.1095 0.82142857 EYINCDKYLEQIFSCQR 342 //16 9//103 2.0135 0.71428571 EYINCDKYLEQIFSCQR 342 //16 8//103 1.437 0.67857143 EYINCDKYLEQIFSCQR 342 //16 9//103 2.04675 0.78571429 EYINCDKYLEQIFSCQR 342 //16 5//103 0.5395 0.25 ANAALQSTASPAPGGKSR 378 1//14 8//62 0.7085 0.41666667 EFFLSFAKDPQMFIHR 446 //10 15//47 4.628 2.33333333 EFFLSFAKDPQMFIHR 446 //10 10//58 3.56825 1.66666667 EFFLSFAKDPQMFIHR 446 //10 10//58 3.513 1.66666667 EFFLSFAKDPQMFIHR 446 1//10 10//47 3.9885 1.66666667 EFFLSFAKDPQMFIHR 446 //10 9//47 3.093 1.22222222 AKHLAALEER 962 3//9 12//43 1.92875 2.33333333 AKHLAALEER 962 1//9 10//36 1.857 1.42857143 QQFHLEQLKAAEFR 1028 5//12 21//63 3.1635 2.5 QQFHLEQLKAAEFR 1028 2//12 15//63 2.50725 1.83333333 QQFHLEQLKAAEFR 1028 2//12 14//50 2.526 1.77777778 QQFHLEQLKAAEFR 1028 3//12 12//50 2.69075 1.72222222 QQFHLEQLKAAEFR 1028 3//12 17//63 2.51875 2 QQFHLEQLKAAEFR 1028 //12 13//50 4.04925 2.11111111 QQFHLEQLKAAEFR 1028 2//12 11//50 2.19725 1.61111111 QQFHLEQLKAAEFR 1028 //12 8//63 1.30225 1.38888889 QQFHLEQLKAAEFR 1028 1//12 12//63 1.62025 1.5 QQFHLEQLKAAEFR 1028 //12 11//50 2.351 1.16666667 QQFHLEQLKAAEFR 1028 //12 10//63 2.23475 1.35 QQFHLEQLKAAEFR 1028 1//12 10//63 1.2545 0.8 QQFHLEQLKAAEFR 1028 1//12 8//63 1.44875 0.8 QQFHLEQLKAAEFR 1028 2//12 12//63 2.43025 1.5 QQFHLEQLKAAEFR 1028 //12 7//50 1.2145 0.6 LEKLCAVLTR 2365 1//9 15//44 3.714 2.5 LEKLCAVLTR 2365 //9 7//44 3.23 1.5 LEKLCAVLTR 2365 1//9 13//44 2.9635 2 LEKLCAVLTR 2365 //9 7//44 2.43775 1.3125 LEKLCAVLTR 2365 //9 7//44 2.3935 1.5 GTGAGGGGVGSGGGSKR 104 //6 1//17 0.125 0.125 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //19 17//109 4.482 1.41176471 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //19 17//109 3.96825 1.38235294 GTGAGGGGVGSGGGSKR 104 //12 7//50 0.70775 0.7 GGGSKSQHER 189 //9 12//45 3.212 2.25 HLEFLAAVLQHGKDLR 525 1//12 12//76 3.7495 1.27272727 QKHLEFLAAVLQHGKDLR 525 1//12 11//76 2.90775 1.09090909 HLEFLAAVLQHGKDLR 525 //12 12//76 3.0435 1.27272727 HLEFLAAVLQHGKDLR 525 //12 11//76 3.568 1.04545455 QKHLEFLAAVLQHGKDLR 525 //12 12//76 3.98325 1.27272727 HLEFLAAVLQHGKDLR 525 //12 11//76 2.8455 1.09090909 QKHLEFLAAVLQHGKDLR 525 //12 7//76 1.809 0.63636364 HLEFLAAVLQHGKDLR 525 //12 7//61 2.064 0.81818182 QKHLEFLAAVLQHGKDLR 525 //12 11//76 2.79875 1.09090909 QKHLEFLAAVLQHGKDLR 525 //12 12//76 3.01425 1.13636364 HLEFLAAVLQHGKDLR 525 //12 8//61 1.96675 0.72727273 QKHLEFLAAVLQHGKDLR 525 //12 12//75 2.311 1.36363636 HLEFLAAVLQHGKDLR 525 //12 8//61 2.339 1.09090909 KELIFPHDSVESTTPVLYR 1772 1//17 15//148 3.9905 0.81578947 FLEKEVFK 980 2//9 8//45 1.86625 0.875 KAFPTSHR 420 //5 5//21 1.251 1.5 FHPEYFELIKR 384 //11 5//44 0.90525 0.625 TNANVEGTPKR 232 1//12 12//51 1.033 1.27777778 KPAASSGGGKQK 303 //8 7//29 1.734 1.1 AAMEEFAAIKDEVPATIMDNHLK 758 //15 13//73 2.428 1 AAMEEFAAIKDEVPATIMDNHLK 758 //15 10//73 1.615 0.875 AAMEEFAAIKDEVPATIMDNHLK 758 1//15 11//73 1.79925 0.91666667 peptide2 protein2 K.K[1525.78]IRDQDR.N tr|Q24090|Q24090_DROME:349 K.K[1525.78]IRDQDR.N tr|Q24090|Q24090_DROME:349 R.GGGSK[1402.79]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[1402.79]SQHER.R tr|Q9W384|Q9W384_DROME:189 K.K[2868.36]LEIK.L tr|Q9VF03|Q9VF03_DROME:986 R.HC[160.03]K[1993.03]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993.03]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993.07]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993.08]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[2010.07]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993.04]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993.01]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1993.06]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 K.FEAK[1164.76]K.Q tr|Q9W384|Q9W384_DROME:280 K.FEAK[1164.76]K.Q tr|Q9W384|Q9W384_DROME:280 R.GGGSK[1607.87]SQHER.R tr|Q9W384|Q9W384_DROME:189 K.RVWDSVK[1607.84]AK.H tr|Q9W384|Q9W384_DROME:108 R.K[1835.03]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 K.AK[1156.61]HPELK.L tr|Q9W384|Q9W384_DROME:110 K.K[1308.74]ALR.K tr|Q9VC36|Q9VC36_DROME:1229 K.K[1213.68]SDSLC[160.03]K.L sp|Q8IN94|OSA_DROME:987 K.K[1213.66]SDSLC[160.03]K.L sp|Q8IN94|OSA_DROME:987 R.K[2022.01]GVPVR.I sp|Q8IN94|OSA_DROME:1969 R.K[1513.81]GVPVR.I sp|Q8IN94|OSA_DROME:1969 R.K[1513.81]GVPVR.I sp|Q8IN94|OSA_DROME:1969 R.K[1513.81]GVPVR.I sp|Q8IN94|OSA_DROME:1969 K.K[2602.45]EVEHQLPDK.V sp|P25439|BRM_DROME:1001 R.HQGVM[147.04]VGM[147.04]GQK[2901.31]DC[160.03]YVGDEAQSK.R sp|P02574|ACT4_DROME:51 K.IK[2637.28]IVAPPER.K sp|P02572|ACT2_DROME:329 R.QQFHLEQLK[2531.18]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.Q[111.03]QFHLEQLK[2531.21]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.QQFHLEQLK[2531.18]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.QQFHLEQLK[2531.18]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.Q[111.03]QFHLEQLK[2531.2]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.QQFHLEQLK[2531.18]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.QQFHLEQLK[2531.18]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.QQFHLEQLK[2531.18]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.QQFHLEQLK[2531.18]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.QQFHLEQLK[2531.18]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.QQFHLEQLK[2531.18]AAEFR.A tr|Q9VF03|Q9VF03_DROME:1028 R.LLEDGK[1949.03]GDPNTK.I sp|Q9VYG2|BAP60_DROME:223 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.18]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.15]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.16]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[2294.12]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.ILPQK[1402.79]VR.D sp|Q9VYG2|BAP60_DROME:138 K.ILPQK[1402.79]VR.D sp|Q9VYG2|BAP60_DROME:138 K.THK[1993.05]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.02]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.03]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.04]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.03]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.06]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.05]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.05]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.06]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[1993.04]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2010.07]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2010.07]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2010.07]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2010.07]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 K.THK[2010.07]LQDAHER.E sp|Q9VYG2|BAP60_DROME:328 R.K[1467.84]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1467.85]LDATIMR.K sp|Q9VYG2|BAP60_DROME:158 R.K[1467.85]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1467.86]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.K[1467.84]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.YSK[1583.8]R.V tr|Q9W384|Q9W384_DROME:101 R.GTGAGGGGVGSGGGSK[3314.57]R.S sp|Q9VYG2|BAP60_DROME:104 R.GTGAGGGGVGSGGGSK[3314.57]R.S sp|Q9VYG2|BAP60_DROME:104 R.GGGSK[1583.8]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.K[1307.64]LDATIM[147.04]R.K sp|Q9VYG2|BAP60_DROME:158 R.LK[2112.15]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2507.37]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2112.15]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2112.18]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2507.4]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2112.16]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2507.41]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2112.18]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2507.42]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2507.36]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2112.2]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2524.36]MISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.LK[2112.14]M[147.04]ISANGSVER.R tr|Q7K012|Q7K012_DROME:375 R.ITTVAK[2496.33]PVGLDPITLLQER.E sp|P25439|BRM_DROME:398 K.GK[1304.73]HGKGGAK.A sp|P25439|BRM_DROME:1045 K.K[1208.69]QTR.R sp|P25439|BRM_DROME:1616 K.QHKDDQMK[1743.95]K.K sp|P25439|BRM_DROME:618 R.LDGTTK[1451.73]AEDR.G sp|P25439|BRM_DROME:1149 R.ILPK[1380.76]LK.A sp|P25439|BRM_DROME:1109 R.Q[111.03]VPPAGM[147.04]PM[147.04]PK[2841.37]PNR.I sp|P25439|BRM_DROME:389 R.Q[111.03]VPPAGM[147.04]PM[147.04]PK[2841.35]PNR.I sp|P25439|BRM_DROME:389 R.Q[111.03]VPPAGM[147.04]PM[147.04]PK[2841.42]PNR.I sp|P25439|BRM_DROME:389 Unique_(—) protein2 subunit2 realpep2 position2 1 Q24090 KIRDQDR 349 1 Q24090 KIRDQDR 349 1 Q9W384 GGGSKSQHER 189 1 Q9W384 GGGSKSQHER 189 1 Q9VF03 KLEIK 986 1 Q9W384 HCKPAVDEETFQK 300 1 Q9W384 HCKPAVDEETFQK 300 1 Q9W384 HCKPAVDEETFQK 300 1 Q9W384 HCKPAVDEETFQK 300 1 Q9W384 HCKPAVDEETFQK 300 1 Q9W384 HCKPAVDEETFQK 300 1 Q9W384 HCKPAVDEETFQK 300 1 Q9W384 HCKPAVDEETFQK 300 1 Q9W384 HCKPAVDEETFQK 300 1 Q9W384 FEAKK 280 1 Q9W384 FEAKK 280 1 Q9W384 GGGSKSQHER 189 1 Q9W384 RVWDSVKAK 108 1 Q7K3G5 KNAVEGESDR 243 1 Q9W384 AKHPELK 110 1 Q9VC36 KALR 1229 1 OSA KSDSLCK 987 1 OSA KSDSLCK 987 1 OSA KGVPVR 1969 1 OSA KGVPVR 1969 1 OSA KGVPVR 1969 1 OSA KGVPVR 1969 1 BRM KEVEHQLPDK 1001 1 ACT4 HQGVMVGMGQKDCYVGDEAQSK 51 1 ACT2 IKIVAPPER 329 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 Q9VF03 QQFHLEQLKAAEFR 1028 1 BAP60 LLEDGKGDPNTK 223 1 Q9VF03 AKHLAALEER 962 1 Q9VF03 AKHLAALEER 962 1 Q9VF03 AKHLAALEER 962 1 Q9VF03 AKHLAALEER 962 1 Q9VF03 AKHLAALEER 962 1 BAP60 ILPQKVR 138 1 BAP60 ILPQKVR 138 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 THKLQDAHER 328 1 BAP60 KLDATIMR 158 1 BAP60 KLDATIMR 158 1 BAP60 KLDATIMR 158 1 BAP60 KLDATIMR 158 1 BAP60 KLDATIMR 158 1 Q9W384 YSKR 101 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 Q9W384 GGGSKSQHER 189 1 BAP60 KLDATIMR 158 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 Q7K012 LKMISANGSVER 375 1 BRM ITTVAKPVGLDPITLLQER 398 1 BRM GKHGKGGAK 1045 1 BRM KQTR 1616 1 BRM QHKDDQMKK 618 1 BRM LDGTTKAEDR 1149 1 BRM ILPKLK 1109 1 BRM QVPPAGMPMPKPNR 389 1 BRM QVPPAGMPMPKPNR 389 1 BRM QVPPAGMPMPKPNR 389 D4 Intra Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 BAP60 1 BAP60:229- 4.846 BAP60:233 −1 5.93249335 JL061317_062017_S2_HAD4_(—) N 4.846 0.16068438 //8 6//43 BAF_70B.11721.11721.5 2 BAP60:196- 9.0845 BAP60:274 −3 12.8054693 JL061317_062017_S2_HAD4_(—) P 9.0845 0.31145433 1.42E−03 //6 28//223 BAF_1ug.14419.14419.6 −2 12.0472564 JL061317_062017_S2_HAD4_(—) N 7.57875 0.16538642 //16 8//100 BAF_70B.13527.13527.5 −2 2.61507904 JL061317_062017_S2_HAD4_(—) P 6.68025 0.2368841 4.17E−01 //6 24//223 BAF_1ug.14383.14383.6 −2 4.02673304 JL061317_062017_S2_HAD4_(—) P 4.50675 0.11300636 2.34E−01 //6 19//262 BAF_70B.13516.13516.6 −2 15.2576408 JL061317_062017_S2_HAD4_(—) N 4.1895 0.10724022 1//16 9//78 BAF_70B.13810.13810.6 3 BAP60:435- 12.3855 BAP60:446 −1 5.23343848 JL061317_062017_S2_HAD4_(—) N 12.3855 0.36336032 //16 16//86 BAF_85B.15048.15048.4 −2 0.5856253 JL061317_062017_S2_HAD4_(—) N 11.12475 0.32142238 //16 17//86 BAF_85B.15032.15032.4 −2 2.26798447 JL061317_062017_S2_HAD4_(—) N 10.7055 0.3016271 1//16 19//112 BAF_D.15360.15360.5 −2 1.40978636 JL061317_062017_S2_HAD4_(—) N 9.435 0.2869351 //16 16//112 BAF_85B.14998.14998.5 −2 0.42909567 JL061317_062017_S2_HAD4_(—) N 8.3565 0.26222229 //16 12//112 BAF_85B.15147.15147.5 −2 3.58245303 JL061317_062017_S2_HAD4_(—) N 7.83975 0.25987404 //16 12//86 BAF_85B.14992.14992.6 −1 7.58405887 JL061317_062017_S2_HAD4_(—) N 7.3975 0.23144672 //16 13//112 BAF_85B.15158.15158.5 −3 12.7717626 JL061317_062017_S2_HAD4_(—) NP 7.33 0.21512319 7.16E−09 //15 13//122 BAF_1ug.16725.16725.5 −2 0.81219694 JL061317_062017_S2_HAD4_(—) N 5.69325 0.21958345 //16 13//112 BAF_100B.15242.15242.5 −1 3.90531861 JL061317_062017_S2_HAD4_(—) N 5.14775 0.15265483 //16 12//112 BAF_85B.15308.15308.5 −1 4.45379203 JL061317_062017_S2_HAD4_(—) N 4.80825 0.15006788 //16 11//86 BAF_D.15357.15357.4 −1 −3.6424947 JL061317_062017_S2_HAD4_(—) NP 3.8755 0.11218863 2.43E−07 //15 10//122 BAF_1ug.16687.16687.5 −1 6.33703511 JL061317_062017_S2_HAD4_(—) N 3.82025 0.11854007 //16 11//86 BAF_D.15366.15366.4 4 BAP60:138- 5.189 BAP60:435 −1 1.5497632 JL061317_062017_S2_HAD4_(—) N 5.189 0.1690641 //9 6//31 BAF_70B.08588.08588.4 5 BAP60:138- 5.72225 BAP60:446 0 2.61730983 JL061317_062017_S2_HAD4_(—) N 5.72225 0.16986523 1//9 9//31 BAF_70B.16316.16316.4 −1 6.1312945 JL061317_062017_S2_HAD4_(—) N 4.86125 0.13835328 1//9 7//31 BAF_70B.16320.16320.4 6 BAP60:104- 5.38725 BAP60:354 −1 3.52556784 JL061317_062017_S2_HAD4_(—) N 5.38725 0.16639384 //9 6//45 BAF_50B.07427.07427.4 7 BAP60:104- 5.45325 BAP60:435 −3 2.04696231 JL061317_062017_S2_HAD4_(—) N 5.45325 0.15958007 //19 13//87 BAF_70B.06165.06165.4 8 BAP60:104- 8.256 BAP60:175 −1 7.55295792 JL061317_062017_S2_HAD4_(—) N 8.256 0.23780857 //19 21//89 BAF_70B.09212.09212.4 2 ACT2 1 ACT2:316- 7.93675 ACT2:329 −3 12.3953026 JL061317_062017_S2_HAD4_(—) N 7.93675 0.23207211 //9 9//41 BAF_50B.11151.11151.4 −2 7.25207238 JL061317_062017_S2_HAD4_(—) N 7.69925 0.22507162 1//9 8//41 BAF_50B.11138.11138.4 2 ACT2:292- 11.96025 ACT2:329 0 4.4030825 JL061317_062017_S2_HAD4_(—) N 11.96025 0.37188676 //9 7//40 BAF_50B.13727.13727.4 3 ACT2:292- 10.50175 ACT2:316 −2 14.861077 JL061317_062017_S2_HAD4_(—) N 10.50175 0.27139461 1//16 12//77 BAF_50B.13775.13775.4 4 ACT2:292- 15.45875 ACT2:327 −1 0.07014565 JL061317_062017_S2_HAD4_(—) N 15.45875 0.39202074 //15 12//69 BAF_50B.14092.14092.4 −3 8.13287562 JL061317_062017_S2_HAD4_(—) N 7.385 0.18903906 //15 9//69 BAF_50B.14443.14443.4 3 BCL7 1 BCL7:56- 7.054 BCL7:59 −2 −1.6476062 JL061317_062017_S2_HAD4_(—) NP 7.054 0.23034598 3.29E−03 1//13 16//70 BAF_50B.09820.09820.4 −1 11.9342775 JL061317_062017_S2_HAD4_(—) NP 6.66575 0.22370541 3.29E−03 //13 14//70 BAF_50B.09832.09832.4 2 BCL7:26- 0.8075 BCL7:56 −1 1.64468348 JL061317_062017_S2_HAD4_(—) P 0.8075 0.03211693 2.61E−01 //13 5//59 BAF_1ug.11098.11098.4 3 BCL7:26- 9.479 BCL7:59 −1 3.06419993 JL061317_062017_S2_HAD4_(—) N 9.479 0.32363134 2//11 15//44 BAF_50B.07376.07376.4 0 0.80822275 JL061317_062017_S2_HAD4_(—) N 9.057 0.31007035 6//11 14//44 BAF_50B.07388.07388.4 4 BCL7:14- 5.5395 BCL7:26 0 4.78884259 JL061317_062017_S2_HAD4_(—) N 5.5395 0.23373418 //7 6//34 BAF_70B.05779.05779.4 4 Polybromo 1 Polybromo:224- 3.2985 Polybromo:434 0 10.1185652 JL061317_062017_S2_HAD4_(—) N 3.2985 0.13008499 //11 8//44 BAF_85B.11021.11021.4 2 Polybromo:1069- 6.1205 Polybromo:976 −1 2.63204351 JL061317_062017_S2_HAD4_(—) N 6.1205 0.2077457 //6 5//27 BAF_70B.10257.10257.4 3 Polybromo:384- 3.715 Polybromo:420 −2 4.95953447 JL061317_062017_S2_HAD4_(—) N 3.715 0.12332974 //9 5//38 BAF_D.12820.12820.6 −1 12.2175784 JL061317_062017_S2_HAD4_(—) N 3.45525 0.10552476 //9 6//38 BAF_D.12829.12829.6 5 D4 1 D4:28- 17.0345 D4:32 0 6.10590074 JL061317_062017_S2_HAD4_(—) N 17.0345 0.41449498 //12 17//51 BAF_70B.14865.14865.4 −1 5.24172933 JL061317_062017_S2_HAD4_(—) NP 16.2725 0.42941588 1.36E−04 //14 30//83 BAF_70B.15677.15677.4 −2 1.51149877 JL061317_062017_S2_HAD4_(—) NP 16.0125 0.43389018 6.52E−05 //14 31//83 BAF_70B.15692.15692.4 −2 6.8737052 JL061317_062017_S2_HAD4_(—) NP 11.6945 0.28999182 2.38E−05 //14 23//83 BAF_50B.12968.12968.4 −1 5.70800815 JL061317_062017_S2_HAD4_(—) NP 8.22875 0.19695664 2.57E−04 //14 22//83 BAF_50B.12948.12948.4 −2 −1.6747398 JL061317_062017_S2_HAD4_(—) NP 8.189 0.19214886 2.90E−03 //14 20//83 BAF_50B.14726.14726.4 0 0.19037545 JL061317_062017_S2_HAD4_(—) NP 7.35 0.23254342 4.27E−05 //14 17//83 BAF_1ug.15869.15869.4 0 11.1571675 JL061317_062017_S2_HAD4_(—) N 7.3045 0.18802528 1//12 12//51 BAF_50B.15597.15597.4 −4 10.6039358 JL061317_062017_S2_HAD4_(—) P 3.77675 0.12696879 4.57E−02 //14 12//83 BAF_1ug.13192.13192.4 2 D4:236- 3.84925 D4:253 −1 7.88802127 JL061317_062017_S2_HAD4_(—) N 3.84925 0.16633537 //7 7//31 BAF_70B.03442.03442.4 3 D4:236- 6.86875 D4:243 0 0.68730207 JL061317_062017_S2_HAD4_(—) NP 6.86875 0.38927458 5.92E−06 2//11 15//55 BAF_D.03263.03263.4 −1 −0.6152164 JL061317_062017_S2_HAD4_(—) P 6.66325 0.316011 5.50E−04 2//11 19//59 BAF_1ug.02728.02728.4 0 −0.4922239 JL061317_062017_S2_HAD4_(—) P 6.37675 0.33947775 9.13E−05 1//11 15//56 BAF_1ug.02598.02598.4 0 4.42502816 JL061317_062017_S2_HAD4_(—) P 6.28525 0.33766251 4.28E−07 2//11 14//55 BAF_1ug.03115.03115.4 −1 2.55616511 JL061317_062017_S2_HAD4_(—) NP 6.14025 0.35870137 2.10E−05 2//11 15//55 BAF_70B.03021.03021.4 −1 5.43362699 JL061317_062017_S2_HAD4_(—) P 5.94575 0.36909492 3.47E−02 //12 17//65 BAF_1ug.02163.02163.4 −1 1.04518264 JL061317_062017_S2_HAD4_(—) P 5.85625 0.27283422 7.07E−06 1//11 18//59 BAF_D.02828.02828.4 0 5.8418909 JL061317_062017_S2_HAD4_(—) P 5.85625 0.31628051 8.83E−05 1//11 16//56 BAF_85B.02607.02607.4 −1 0.7991976 JL061317_062017_S2_HAD4_(—) P 5.7945 0.23770845 3.19E−07 //11 17//59 BAF_85B.02755.02755.4 −2 16.6447316 JL061317_062017_S2_HAD4_(—) N 5.6185 0.31870781 1//7 7//31 BAF_D.03355.03355.4 0 9.13080382 JL061317_062017_S2_HAD4_(—) P 5.06375 0.23435692 5.60E−03 //12 16//65 BAF_D.02106.02106.4 0 −0.2471295 JL061317_062017_S2_HAD4_(—) NP 5.03125 0.24425915 4.88E−05 2//11 12//55 BAF_50B.02882.02882.4 −2 15.711298 JL061317_062017_S2_HAD4_(—) N 4.99 0.21665509 1//7 6//31 BAF_70B.03117.03117.4 0 7.56378617 JL061317_062017_S2_HAD4_(—) P 4.8465 0.22648784 1.32E−04 //11 10//56 BAF_85B.03417.03417.4 0 5.69318522 JL061317_062017_S2_HAD4_(—) P 4.73175 0.28532879 1.50E−07 1//11 12//55 BAF_85B.03200.03200.4 −1 −0.1232463 JL061317_062017_S2_HAD4_(—) P 4.7215 0.23663108 1.93E−04 //11 14//59 BAF_100B.02734.02734.4 −1 3.13605547 JL061317_062017_S2_HAD4_(—) P 4.5205 0.23983977 1.46E−03 //11 10//56 BAF_D.02685.02685.4 −1 −3.9360144 JL061317_062017_S2_HAD4_(—) P 4.31925 0.2121387 4.27E−05 //11 12//59 BAF_85B.03203.03203.4 0 11.3933562 JL061317_062017_S2_HAD4_(—) N 4.156 0.19499378 1//7 5//31 BAF_D.02637.02637.4 −1 3.19755173 JL061317_062017_S2_HAD4_(—) P 3.5565 0.17338208 6.33E−05 //11 13//59 BAF_85B.02464.02464.4 0 1.47565646 JL061317_062017_S2_HAD4_(—) P 3.01325 0.16759365 1.99E−03 //11 8//56 BAF_85B.02174.02174.4 −2 7.69553849 JL061317_062017_S2_HAD4_(—) P 2.30825 0.11028428 3.66E−01 //11 10//55 BAF_1ug.03278.03278.4 4 D4:236- 5.636 D4:495 −1 0.74992154 JL061317_062017_S2_HAD4_(—) N 5.636 0.22287692 //7 6//31 BAF_85B.06710.06710.4 −2 6.7960981 JL061317_062017_S2_HAD4_(—) N 3.474 0.13562101 //7 5//31 BAF_85B.06735.06735.4 5 D4:236- 10.766 D4:400 −2 1.15584595 JL061317_062017_S2_HAD4_(—) P 10.766 0.42682419 3.79E−02 //16 29//103 BAF_1ug.08183.08183.4 0 7.71075121 JL061317_062017_S2_HAD4_(—) P 9.16075 0.40461783 4.35E−02 //16 24//103 BAF_1ug.08169.08169.4 −2 9.4067357 JL061317_062017_S2_HAD4_(—) N 8.94 0.30823866 //7 6//26 BAF_50B.05873.05873.4 6 D4:215- 5.59725 D4:243 −1 5.85655596 JL061317_062017_S2_HAD4_(—) P 5.59725 0.31172032 3.44E−09 //11 13//56 BAF_85B.02728.02728.4 0 0.19500122 JL061317_062017_S2_HAD4_(—) NP 5.31325 0.28209451 5.23E−07 //11 12//56 BAF_85B.02706.02706.4 −2 1.21280882 JL061317_062017_S2_HAD4_(—) P 5.052 0.26876629 6.31E−07 //11 10//56 BAF_85B.02703.02703.4 0 0.59151006 JL061317_062017_S2_HAD4_(—) N 4.774 0.16589061 //6 5//27 BAF_70B.04530.04530.4 7 D4:215- 8.59425 D4:232 −1 0.98405809 JL061317_062017_S2_HAD4_(—) N 8.59425 0.36042147 //6 4//32 BAF_85B.05304.05304.5 0 7.93943877 JL061317_062017_S2_HAD4_(—) N 7.14975 0.30997594 //6 3//32 BAF_85B.04480.04480.5 0 3.47202462 JL061317_062017_S2_HAD4_(—) N 6.59125 0.28448574 1//6 5//28 BAF_70B.05974.05974.4 −1 0.5563359 JL061317_062017_S2_HAD4_(—) N 5.96725 0.245122 //6 6//26 BAF_85B.05311.05311.4 8 D4:243- 11.805 D4:243 0 8.2106353 JL061317_062017_S2_HAD4_(—) NP 11.805 0.41220734 2.93E−08 //11 14//59 BAF_70B.03996.03996.4 −1 0.56617445 JL061317_062017_S2_HAD4_(—) NP 9.564 0.56845672 2.65E−04 //11 13//70 BAF_100B.03708.03708.5 0 5.96883191 JL061317_062017_S2_HAD4_(—) NP 9.3175 0.43582488 1.94E−04 //11 15//57 BAF_70B.04749.04749.4 −1 2.6026763 JL061317_062017_S2_HAD4_(—) N 8.8575 0.39556538 //11 13//57 BAF_D.05017.05017.4 0 5.25075767 JL061317_062017_S2_HAD4_(—) N 8.7615 0.33667647 1//11 15//57 BAF_50B.04227.04227.4 0 7.82019936 JL061317_062017_S2_HAD4_(—) NP 6.252 0.2181742 8.51E−05 //11 10//59 BAF_70B.04173.04173.4 0 5.25004834 JL061317_062017_S2_HAD4_(—) N 6.1865 0.22253997 //11 13//57 BAF_D.04803.04803.4 −2 11.610325 JL061317_062017_S2_HAD4_(—) N 5.605 0.23676763 //11 10//57 BAF_D.05138.05138.4 0 10.5525429 JL061317_062017_S2_HAD4_(—) N 5.164 0.21738581 //11 11//57 BAF_D.05127.05127.4 0 2.31429326 JL061317_062017_S2_HAD4_(—) N 4.177 0.15668842 //11 7//56 BAF_70B.04127.04127.4 −1 7.22427375 JL061317_062017_S2_HAD4_(—) N 3.888 0.17557407 //11 10//57 BAF_70B.04832.04832.4 −2 15.3435863 JL061317_062017_S2_HAD4_(—) N 3.74025 0.13280723 //11 9//56 BAF_70B.03978.03978.4 −1 6.45993101 JL061317_062017_S2_HAD4_(—) N 3.5525 0.1800375 //11 9//57 BAF_D.04861.04861.4 −1 5.90889645 JL061317_062017_S2_HAD4_(—) N 3.336 0.17063939 //11 8//57 BAF_1ug.04704.04704.4 0 2.31006918 JL061317_062017_S2_HAD4_(—) N 2.6245 0.1376065 //11 7//57 BAF_1ug.04701.04701.4 9 D4:243- 6.9535 D4:374 0 1.31990352 JL061317_062017_S2_HAD4_(—) P 6.9535 0.29603849 7.22E−04 1//11 18//59 BAF_85B.03034.03034.4 10 D4:243- 4.609 D4:97 −1 −2.8104662 JL061317_062017_S2_HAD4_(—) P 4.609 0.27162095 4.14E−02 //11 11//54 BAF_D.02874.02874.4 11 D4:243- 12.8815 D4:400 −1 2.5374779 JL061317_062017_S2_HAD4_(—) NP 12.8815 0.4881205 1.25E−14 //16 25//103 BAF_1ug.08978.08978.4 −2 2.95292736 JL061317_062017_S2_HAD4_(—) N 12.55725 0.45924917 2//11 12//50 BAF_50B.07036.07036.4 0 1.11882772 JL061317_062017_S2_HAD4_(—) N 11.96575 0.48599773 //11 10//50 BAF_50B.06902.06902.4 −1 4.02769822 JL061317_062017_S2_HAD4_(—) N 11.69575 0.42175724 3//11 15//50 BAF_50B.06887.06887.4 −1 6.46750627 JL061317_062017_S2_HAD4_(—) N 11.36625 0.40106032 2//11 13//50 BAF_50B.06880.06880.4 −2 5.27326176 JL061317_062017_S2_HAD4_(—) NP 11.06025 0.42405682 3.42E−13 //16 26//103 BAF_1ug.08985.08985.4 −1 4.33866388 JL061317_062017_S2_HAD4_(—) N 5.5465 0.34413973 //11 6//50 BAF_1ug.07298.07298.4 12 D4:216- 6.59825 D4:243 0 −1.3461423 JL061317_062017_S2_HAD4_(—) P 6.59825 0.33193732 6.26E−03 1//11 15//57 BAF_85B.03131.03131.4 −2 4.74539337 JL061317_062017_S2_HAD4_(—) P 6.3305 0.30228727 9.75E−03 //11 13//57 BAF_D.03217.03217.4 0 −1.777001 JL061317_062017_S2_HAD4_(—) P 5.29475 0.2728479 1.38E−04 //11 11//56 BAF_D.02824.02824.4 −1 4.42081825 JL061317_062017_S2_HAD4_(—) P 5.09825 0.23202339 2.89E−04 //12 16//77 BAF_100B.02601.02601.5 0 0.45878632 JL061317_062017_S2_HAD4_(—) P 4.21025 0.20600108 5.41E−05 //12 14//77 BAF_100B.02599.02599.5 13 D4:216- 7.66975 D4:232 0 0.71245895 JL061317_062017_S2_HAD4_(—) P 7.66975 0.29050983 1.15E−02 //13 17//61 BAF_D.03665.03665.4 −1 4.88117673 JL061317_062017_S2_HAD4_(—) P 6.83 0.34583154 5.66E−05 //13 17//60 BAF_D.03327.03327.4 −1 2.73423846 JL061317_062017_S2_HAD4_(—) P 5.3415 0.24463578 7.49E−13 //13 13//58 BAF_D.03835.03835.4 0 −0.0683084 JL061317_062017_S2_HAD4_(—) P 5.32925 0.21523192 7.98E−11 //13 13//58 BAF_D.03845.03845.4 −1 1.90413022 JL061317_062017_S2_HAD4_(—) P 5.21575 0.2173682 1.26E−08 //14 13//67 BAF_85B.03183.03183.4 0 4.52431489 JL061317_062017_S2_HAD4_(—) P 4.7825 0.22200302 1.11E−02 1//13 14//74 BAF_D.03656.03656.5 0 5.24200355 JL061317_062017_S2_HAD4_(—) P 4.5575 0.20132968 1.49E−03 1//13 16//74 BAF_85B.03630.03630.5 −4 16.4862709 JL061317_062017_S2_HAD4_(—) P 3.2775 0.1710595 2.35E−04 //13 10//58 BAF_D.03826.03826.4 −2 15.1827607 JL061317_062017_S2_HAD4_(—) P 2.754 0.12092737 6.50E−02 //13 7//58 BAF_D.04118.04118.4 14 D4:232- 10.913 D4:232 0 1.09129412 JL061317_062017_S2_HAD4_(—) NP 10.913 0.62716589 4.73E−07 //14 14//78 BAF_100B.04311.04311.5 0 −0.1680835 JL061317_062017_S2_HAD4_(—) NP 7.619 0.35130836 1.11E−02 //14 10//78 BAF_100B.04247.04247.6 −1 1.97892934 JL061317_062017_S2_HAD4_(—) N 7.1335 0.34615198 //14 10//63 BAF_100B.04293.04293.6 −3 11.5329979 JL061317_062017_S2_HAD4_(—) N 5.5945 0.3009009 //14 9//78 BAF_100B.04500.04500.5 15 D4:232- 7.30825 D4:374 0 2.90337756 JL061317_062017_S2_HAD4_(—) P 7.30825 0.33556408 5.89E−04 //14 16//67 BAF_85B.03460.03460.4 −1 4.47648212 JL061317_062017_S2_HAD4_(—) P 5.5355 0.23101642 8.43E−03 //14 14//79 BAF_85B.03471.03471.5 16 D4:232- 13.6205 D4:243 −1 2.58938015 JL061317_062017_S2_HAD4_(—) NP 13.6205 0.44928421 6.37E−11 5//13 29//57 BAF_1ug.04922.04922.4 −1 1.02943798 JL061317_062017_S2_HAD4_(—) NP 12.8515 0.45077957 4.00E−10 //12 14//64 BAF_70B.04294.04294.4 −1 3.1176137 JL061317_062017_S2_HAD4_(—) NP 11.01 0.48173266 3.60E−08 2//14 13//64 BAF_85B.03961.03961.4 −1 0.86165366 JL061317_062017_S2_HAD4_(—) NP 10.96275 0.40647942 3.09E−09 3//14 24//79 BAF_85B.03953.03953.5 −1 1.8852828 JL061317_062017_S2_HAD4_(—) NP 10.9085 0.40824461 7.50E−08 3//13 23//57 BAF_70B.04992.04992.4 −1 5.8081109 JL061317_062017_S2_HAD4_(—) NP 10.45025 0.36616153 1.07E−10 2//13 19//57 BAF_85B.05173.05173.4 −1 2.79669178 JL061317_062017_S2_HAD4_(—) NP 10.39475 0.3842152 5.27E−13 4//14 21//65 BAF_70B.04392.04392.4 −1 1.6626046 JL061317_062017_S2_HAD4_(—) NP 9.166 0.35018147 2.37E−08 4//14 19//65 BAF_1ug.04341.04341.4 −1 4.39817329 JL061317_062017_S2_HAD4_(—) NP 8.69575 0.34245348 7.00E−10 3//14 21//80 BAF_85B.04518.04518.5 −2 5.72641697 JL061317_062017_S2_HAD4_(—) NP 8.5195 0.33357479 4.61E−10 3//14 17//65 BAF_85B.04508.04508.4 −2 10.1229656 JL061317_062017_S2_HAD4_(—) N 8.395 0.26976221 //11 9//56 BAF_50B.04853.04853.4 0 10.749063 JL061317_062017_S2_HAD4_(—) N 8.27375 0.2666758 //11 14//54 BAF_70B.04157.04157.4 −1 −0.445324 JL061317_062017_S2_HAD4_(—) NP 8.003 0.30238797 2.33E−09 2//14 15//80 BAF_100B.04482.04482.5 −2 0.07267096 JL061317_062017_S2_HAD4_(—) N 7.97925 0.25127143 //11 11//56 BAF_50B.04881.04881.4 −1 2.24027204 JL061317_062017_S2_HAD4_(—) NP 7.739 0.31320572 1.03E−09 //14 14//79 BAF_100B.04084.04084.5 −1 1.79466257 JL061317_062017_S2_HAD4_(—) NP 7.644 0.31706002 2.33E−09 //14 16//79 BAF_D.04195.04195.5 −1 0.37081818 JL061317_062017_S2_HAD4_(—) N 7.58275 0.329943 //12 12//62 BAF_85B.03967.03967.6 −1 0.15048837 JL061317_062017_S2_HAD4_(—) NP 7.49725 0.29016933 7.44E−10 2//14 15//65 BAF_100B.04475.04475.4 −1 1.09041903 JL061317_062017_S2_HAD4_(—) NP 7.27725 0.31208054 2.25E−13 3//14 22//80 BAF_1ug.04314.04314.5 −1 7.88589312 JL061317_062017_S2_HAD4_(—) N 7.27075 0.32810244 3//13 19//69 BAF_70B.04322.04322.5 −2 9.63919655 JL061317_062017_S2_HAD4_(—) N 7.14175 0.27098788 //12 12//76 BAF_85B.04247.04247.5 −1 −0.9284042 JL061317_062017_S2_HAD4_(—) NP 6.961 0.28085536 9.24E−08 //14 12//79 BAF_100B.03980.03980.6 −1 −0.3271899 JL061317_062017_S2_HAD4_(—) NP 6.93425 0.25313025 4.63E−11 2//14 18//80 BAF_70B.04318.04318.5 −2 6.93988412 JL061317_062017_S2_HAD4_(—) N 6.84625 0.26718637 //12 11//76 BAF_85B.04099.04099.5 −2 −2.3067005 JL061317_062017_S2_HAD4_(—) NP 6.766 0.24710566 6.24E−05 1//14 12//65 BAF_D.04672.04672.4 −2 16.6557654 JL061317_062017_S2_HAD4_(—) N 6.75775 0.23797408 //11 11//56 BAF_1ug.05002.05002.4 −2 −2.842228 JL061317_062017_S2_HAD4_(—) NP 6.74975 0.23895881 8.79E−04 1//13 15//57 BAF_D.05562.05562.4 −1 −3.3462804 JL061317_062017_S2_HAD4_(—) NP 6.4905 0.24556857 8.41E−09 1//14 12//65 BAF_D.04602.04602.4 −1 −3.6469107 JL061317_062017_S2_HAD4_(—) NP 6.3665 0.22896961 1.24E−03 2//13 19//57 BAF_D.05565.05565.4 −2 7.90008405 JL061317_062017_S2_HAD4_(—) P 6.33625 0.23461944 3.26E−03 //11 6//57 BAF_D.04749.04749.4 −2 6.10444603 JL061317_062017_S2_HAD4_(—) NP 6.2525 0.26085233 2.33E−08 3//14 15//65 BAF_1ug.04303.04303.4 −2 −3.0227687 JL061317_062017_S2_HAD4_(—) NP 6.2 0.23342934 4.57E−05 //14 9//79 BAF_85B.04281.04281.6 −2 9.90331813 JL061317_062017_S2_HAD4_(—) N 6.06575 0.19223699 4//13 14//56 BAF_70B.04697.04697.4 −2 9.22801232 JL061317_062017_S2_HAD4_(—) NP 6.0385 0.23134243 1.59E−05 3//13 19//57 BAF_50B.04619.04619.4 0 0.78070845 JL061317_062017_S2_HAD4_(—) N 5.9115 0.20946425 //13 13//56 BAF_70B.04232.04232.4 −1 2.01746731 JL061317_062017_S2_HAD4_(—) NP 5.85375 0.27219781 1.08E−07 //14 10//79 BAF_100B.03937.03937.5 −2 −3.9759801 JL061317_062017_S2_HAD4_(—) NP 5.8385 0.24169979 3.30E−06 2//14 15//79 BAF_85B.04389.04389.5 −3 −0.7230309 JL061317_062017_S2_HAD4_(—) P 5.816 0.21682884 5.18E−03 //14 14//79 BAF_85B.04224.04224.5 −2 10.2627657 JL061317_062017_S2_HAD4_(—) P 5.75475 0.21196523 6.27E−05 1//14 9//65 BAF_D.04589.04589.4 −2 −2.4012078 JL061317_062017_S2_HAD4_(—) P 5.636 0.19832501 6.49E−04 4//14 17//65 BAF_70B.04543.04543.4 −2 −3.1961635 JL061317_062017_S2_HAD4_(—) NP 5.576 0.23840776 1.23E−06 //14 11//79 BAF_100B.04237.04237.5 −2 6.94145197 JL061317_062017_S2_HAD4_(—) P 5.56975 0.2539612 3.05E−03 //14 14//79 BAF_1ug.03938.03938.5 −1 1.81209407 JL061317_062017_S2_HAD4_(—) P 5.55725 0.20939938 8.49E−04 2//14 17//79 BAF_85B.04127.04127.6 −2 1.69823946 JL061317_062017_S2_HAD4_(—) NP 5.5185 0.18595835 8.47E−05 //12 10//64 BAF_70B.04559.04559.4 −2 9.69597639 JL061317_062017_S2_HAD4_(—) N 5.48125 0.18382661 4//13 14//69 BAF_70B.04625.04625.5 −1 7.8524098 JL061317_062017_S2_HAD4_(—) N 5.409 0.22237754 //11 10//66 BAF_1ug.04604.04604.5 −1 2.74429616 JL061317_062017_S2_HAD4_(—) NP 5.3935 0.16446857 2.20E−03 //11 9//70 BAF_70B.04473.04473.5 −2 −3.9759801 JL061317_062017_S2_HAD4_(—) NP 5.35925 0.21446436 1.77E−05 //14 11//79 BAF_100B.04381.04381.5 0 3.69581885 JL061317_062017_S2_HAD4_(—) NP 5.3365 0.19184657 3.89E−03 //13 9//57 BAF_D.05262.05262.4 −2 3.92873906 JL061317_062017_S2_HAD4_(—) NP 5.2555 0.21377725 4.70E−08 //14 12//79 BAF_100B.04130.04130.6 0 −1.6502916 JL061317_062017_S2_HAD4_(—) NP 5.249 0.20483103 5.51E−08 2//14 18//80 BAF_D.04663.04663.5 −1 7.08407988 JL061317_062017_S2_HAD4_(—) N 5.07775 0.21606068 //11 10//69 BAF_D.04346.04346.5 −2 0.81203922 JL061317_062017_S2_HAD4_(—) NP 4.91225 0.15157523 6.34E−03 //11 8//57 BAF_D.04973.04973.4 −2 12.3340575 JL061317_062017_S2_HAD4_(—) N 4.8015 0.1859713 //11 8//56 BAF_1ug.05123.05123.4 −2 −3.4906586 JL061317_062017_S2_HAD4_(—) NP 4.5875 0.17344045 4.17E−04 //14 9//79 BAF_100B.04277.04277.6 −2 −2.6847296 JL061317_062017_S2_HAD4_(—) NP 4.30825 0.18004681 2.27E−03 2//14 11//65 BAF_70B.04061.04061.4 −3 12.0072164 JL061317_062017_S2_HAD4_(—) N 4.2765 0.18402255 //11 7//69 BAF_D.04491.04491.5 −3 5.53867571 JL061317_062017_S2_HAD4_(—) N 4.266 0.16189446 //13 10//56 BAF_70B.04246.04246.4 −3 6.33557221 JL061317_062017_S2_HAD4_(—) NP 3.992 0.18709723 2.13E−08 1//14 10//80 BAF_D.04596.04596.5 −2 −3.5455268 JL061317_062017_S2_HAD4_(—) P 3.4895 0.14779128 1.67E−04 1//14 7//64 BAF_85B.04109.04109.4 −2 4.26779514 JL061317_062017_S2_HAD4_(—) P 3.35625 0.15072415 1.26E−04 //14 7//79 BAF_1ug.04069.04069.5 −2 −1.8593351 JL061317_062017_S2_HAD4_(—) P 3.2735 0.12844307 1.40E−04 //14 11//79 BAF_1ug.04207.04207.5 −2 1.37908281 JL061317_062017_S2_HAD4_(—) P 2.94725 0.1168153 2.32E−01 //14 6//65 BAF_1ug.04483.04483.4 17 D4:232- 5.91725 D4:399 −2 6.03299176 JL061317_062017_S2_HAD4_(—) P 5.91725 0.21033128 1.13E−05 //13 21//168 BAF_70B.09503.09503.5 −3 −1.6952418 JL061317_062017_S2_HAD4_(—) P 5.912 0.19968925 1.05E−01 //13 19//168 BAF_70B.09546.09546.5 18 D4:232- 10.34525 D4:236 −1 2.53609726 JL061317_062017_S2_HAD4_(—) NP 10.34525 0.37174351 4.42E−10 4//14 27//68 BAF_85B.03147.03147.4 −2 15.4098885 JL061317_062017_S2_HAD4_(—) NP 9.07925 0.40897523 8.87E−10 3//14 25//68 BAF_1ug.03101.03101.4 −1 0.17393373 JL061317_062017_S2_HAD4_(—) P 8.49575 0.34384612 1.64E−06 3//14 23//68 BAF_85B.03292.03292.4 0 0.78757559 JL061317_062017_S2_HAD4_(—) NP 7.461 0.37718966 1.52E−11 1//14 16//81 BAF_100B.03131.03131.5 −2 4.04008198 JL061317_062017_S2_HAD4_(—) P 7.404 0.31171456 1.96E−09 2//13 20//59 BAF_D.03757.03757.4 −1 10.6711398 JL061317_062017_S2_HAD4_(—) N 7.056 0.25811172 //7 5//31 BAF_D.04120.04120.4 −1 4.61498375 JL061317_062017_S2_HAD4_(—) P 6.9255 0.31704358 1.04E−10 3//13 22//59 BAF_85B.03746.03746.4 −2 15.6461049 JL061317_062017_S2_HAD4_(—) NP 6.7105 0.36862777 3.43E−07 2//14 19//68 BAF_100B.03107.03107.4 −1 3.76980705 JL061317_062017_S2_HAD4_(—) NP 6.683 0.26584721 1.74E−07 2//14 17//81 BAF_D.03231.03231.5 −1 0.97393921 JL061317_062017_S2_HAD4_(—) NP 6.67175 0.30774464 3.96E−10 1//13 17//59 BAF_D.03907.03907.4 −1 2.7363605 JL061317_062017_S2_HAD4_(—) NP 6.63425 0.3478164 1.03E−08 1//14 15//81 BAF_1ug.03081.03081.5 −1 1.08634565 JL061317_062017_S2_HAD4_(—) P 6.52225 0.33468032 2.05E−04 1//14 18//82 BAF_1ug.02649.02649.5 0 2.2639278 JL061317_062017_S2_HAD4_(—) NP 6.45775 0.28844049 4.03E−06 1//14 14//81 BAF_85B.03101.03101.5 0 1.22945111 JL061317_062017_S2_HAD4_(—) P 6.3715 0.24722567 1.09E−07 2//13 18//59 BAF_50B.03347.03347.4 −1 1.9959868 JL061317_062017_S2_HAD4_(—) P 6.29675 0.25379376 5.55E−07 3//13 20//59 BAF_1ug.03601.03601.4 −1 6.28757124 JL061317_062017_S2_HAD4_(—) N 6.17825 0.23348513 //10 7//45 BAF_100B.04199.04199.5 0 4.93437362 JL061317_062017_S2_HAD4_(—) P 6.08325 0.24636522 4.21E−05 2//13 17//59 BAF_D.03705.03705.4 −1 12.714206 JL061317_062017_S2_HAD4_(—) N 5.80975 0.26100678 //7 5//31 BAF_1ug.03854.03854.4 −1 1.29224922 JL061317_062017_S2_HAD4_(—) P 5.67525 0.24553832 3.81E−05 1//14 19//82 BAF_D.02734.02734.5 0 3.46518021 JL061317_062017_S2_HAD4_(—) P 5.38575 0.29444809 2.25E−04 //13 17//59 BAF_100B.03674.03674.4 0 1.52575169 JL061317_062017_S2_HAD4_(—) NP 5.3825 0.2392754 1.38E−03 1//14 13//81 BAF_85B.03246.03246.5 −1 6.9060998 JL061317_062017_S2_HAD4_(—) P 5.29075 0.21521111 1.44E−02 2//14 17//68 BAF_D.03176.03176.4 −1 1.47312367 JL061317_062017_S2_HAD4_(—) P 5.16625 0.24234784 1.33E−05 2//14 15//68 BAF_85B.03823.03823.4 −1 2.12183836 JL061317_062017_S2_HAD4_(—) P 4.905 0.26206123 1.94E−02 //14 18//68 BAF_D.02733.02733.4 −2 0.97393921 JL061317_062017_S2_HAD4_(—) P 4.528 0.21373613 5.39E−05 2//13 13//59 BAF_85B.04025.04025.4 0 −5.9676915 JL061317_062017_S2_HAD4_(—) NP 4.52225 0.19693209 1.12E−04 //14 12//68 BAF_85B.04152.04152.4 −1 −5.9741175 JL061317_062017_S2_HAD4_(—) P 4.44175 0.14156521 6.33E−05 2//13 15//72 BAF_70B.03244.03244.5 −2 12.2739952 JL061317_062017_S2_HAD4_(—) N 3.79825 0.14917035 //7 5//31 BAF_85B.03493.03493.4 0 1.8274482 JL061317_062017_S2_HAD4_(—) P 3.73875 0.15106366 3.74E−04 1//14 14//68 BAF_D.03323.03323.4 −1 10.3616068 JL061317_062017_S2_HAD4_(—) N 3.71675 0.13840067 //7 4//38 BAF_D.03543.03543.5 0 2.45128407 JL061317_062017_S2_HAD4_(—) P 3.2285 0.2466575 3.79E−01 //14 14//68 BAF_1ug.02769.02769.4 −2 12.2951647 JL061317_062017_S2_HAD4_(—) N 3.129 0.12264817 //7 5//38 BAF_85B.03541.03541.5 0 6.31555892 JL061317_062017_S2_HAD4_(—) P 3.0655 0.14132915 4.51E−02 1//14 11//68 BAF_1ug.03233.03233.4 −1 12.8702415 JL061317_062017_S2_HAD4_(—) N 2.717 0.11574755 //7 5//38 BAF_100B.03387.03387.5 −2 16.7027417 JL061317_062017_S2_HAD4_(—) N 2.61625 0.11272324 //7 5//31 BAF_D.04276.04276.4 −2 −1.5976889 JL061317_062017_S2_HAD4_(—) P 2.0275 0.09255033 1.84E−01 //14 9//68 BAF_1ug.03285.03285.4 19 D4:232- 10.66625 D4:400 −1 3.95911076 JL061317_062017_S2_HAD4_(—) N 10.66625 0.33133747 1//13 10//52 BAF_50B.07236.07236.4 −2 1.5352554 JL061317_062017_S2_HAD4_(—) N 9.45475 0.32208312 //14 8//75 BAF_70B.07088.07088.5 0 1.14148198 JL061317_062017_S2_HAD4_(—) N 8.35775 0.23195032 1//13 9//52 BAF_50B.07202.07202.4 20 D4:400- 7.31775 D4:433 0 17.3181949 JL061317_062017_S2_HAD4_(—) N 7.31775 0.23287878 //16 14//128 BAF_85B.12917.12917.5 0 4.2299853 JL061317_062017_S2_HAD4_(—) N 7.21775 0.21716663 1//16 16//128 BAF_D.13307.13307.5 0 2.96867603 JL061317_062017_S2_HAD4_(—) N 7.17 0.1902942 1//16 18//128 BAF_70B.12895.12895.5 −1 1.63350813 JL061317_062017_S2_HAD4_(—) N 6.863 0.21326911 //16 13//128 BAF_85B.12906.12906.5 6 brm 1 brm:535- 7.392 brm:543 −1 0.36077604 JL061317_062017_S2_HAD4_(—) N 7.392 0.28291488 //10 6//35 BAF_100B.04158.04158.6 −2 1.28496128 JL061317_062017_S2_HAD4_(—) N 5.1835 0.26904212 //10 7//43 BAF_100B.04087.04087.5 −1 0.70901841 JL061317_062017_S2_HAD4_(—) N 4.93825 0.27021888 //10 10//35 BAF_100B.04117.04117.4 0 2.12568918 JL061317_062017_S2_HAD4_(—) N 4.76525 0.22400461 //10 7//35 BAF_100B.04807.04807.6 −2 7.25926251 JL061317_062017_S2_HAD4_(—) N 4.47175 0.16630407 //10 7//43 BAF_85B.04751.04751.5 −1 1.17205025 JL061317_062017_S2_HAD4_(—) N 4.397 0.22098809 //10 6//43 BAF_100B.04873.04873.5 −2 11.2545911 JL061317_062017_S2_HAD4_(—) N 3.7255 0.15712448 //10 6//35 BAF_85B.04513.04513.6 −2 16.0237485 JL061317_062017_S2_HAD4_(—) N 3.17675 0.12766748 //10 7//43 BAF_85B.05514.05514.5 2 brm:1016- 2.76175 brm:1475 −3 4.98856324 JL061317_062017_S2_HAD4_(—) N 2.76175 0.10163021 //6 3//24 BAF_D.13484.13484.4 −2 1.14160476 JL061317_062017_S2_HAD4_(—) N 2.5655 0.1007303 //6 3//30 BAF_100B.13268.13268.5 3 brm:613- 5.555 brm:620 0 0.26562261 JL061317_062017_S2_HAD4_(—) N 5.555 0.2410815 //7 8//32 BAF_D.02322.02322.4 −1 1.24592376 JL061317_062017_S2_HAD4_(—) N 4.747 0.18177989 //8 8//46 BAF_85B.01798.01798.5 −1 10.3692371 JL061317_062017_S2_HAD4_(—) N 2.0375 0.11196593 //8 5//38 BAF_100B.02433.02433.4 4 brm:1255- 4.4615 brm:895 −2 10.5675155 JL061317_062017_S2_HAD4_(—) N 4.4615 0.10352589 //14 10//113 BAF_70B.14867.14867.5 5 brm:565- 3.70175 brm:586 −1 3.36603654 JL061317_062017_S2_HAD4_(—) NP 3.70175 0.16738639 1.82E−03 1//9 11//34 BAF_85B.05549.05549.4 6 brm:543- 5.98675 brm:565 −1 1.40679272 JL061317_062017_S2_HAD4_(—) N 5.98675 0.31123444 2//7 7//25 BAF_100B.03576.03576.5 −1 3.20108094 JL061317_062017_S2_HAD4_(—) N 5.47225 0.26963538 2//7 7//25 BAF_100B.03436.03436.5 −1 0.05876805 JL061317_062017_S2_HAD4_(—) N 5.338 0.23595978 //7 6//20 BAF_100B.03459.03459.4 −1 2.20700723 JL061317_062017_S2_HAD4_(—) N 3.20925 0.1918146 //7 5//25 BAF_100B.04134.04134.5 7 brm:543- 7.12475 brm:558 −1 0.38365992 JL061317_062017_S2_HAD4_(—) N 7.12475 0.34792216 //6 4//24 BAF_100B.02404.02404.6 0 2.247783 JL061317_062017_S2_HAD4_(—) N 6.7595 0.34664991 //6 4//30 BAF_100B.02488.02488.5 −2 7.06166512 JL061317_062017_S2_HAD4_(—) N 5.207 0.25517005 //6 4//24 BAF_100B.02505.02505.6 8 brm:1453- 7.31575 brm:1475 −1 1.01790458 JL061317_062017_S2_HAD4_(—) N 7.31575 0.3265814 //6 5//26 BAF_50B.11165.11165.4 −1 2.67030287 JL061317_062017_S2_HAD4_(—) N 6.868 0.32358068 //6 5//26 BAF_70B.11653.11653.4 0 0.28047081 JL061317_062017_S2_HAD4_(—) NP 5.8505 0.31626889 7.97E−09 //14 15//74 BAF_1ug.12753.12753.4 −1 5.05394861 JL061317_062017_S2_HAD4_(—) NP 5.68 0.25904137 6.52E−08 //14 14//74 BAF_1ug.12746.12746.4 −2 10.7155153 JL061317_062017_S2_HAD4_(—) NP 4.93025 0.2500634 1.22E−08 //14 13//74 BAF_1ug.12767.12767.4 9 brm:663- 5.91925 brm:674 −1 0.79106689 JL061317_062017_S2_HAD4_(—) N 5.91925 0.20372219 //13 11//70 BAF_100B.07556.07556.5 −1 7.85351167 JL061317_062017_S2_HAD4_(—) N 5.7765 0.21038734 1//13 11//56 BAF_100B.07580.07580.4 −1 0.39158769 JL061317_062017_S2_HAD4_(—) N 3.569 0.15865043 1//13 7//56 BAF_100B.07593.07593.7 10 brm:558- 2.0645 brm:565 −2 7.67086703 JL061317_062017_S2_HAD4_(—) N 2.0645 0.10008484 //7 6//23 BAF_1ug.03199.03199.4 11 brm:730- 6.5135 brm:737 −1 −3.3442812 JL061317_062017_S2_HAD4_(—) NP 6.5135 0.18717223 7.82E−08 //18 17//92 BAF_D.10181.10181.4 12 brm:151- 4.78975 brm:170 −2 5.34280879 JL061317_062017_S2_HAD4_(—) N 4.78975 0.19499064 //17 16//112 BAF_70B.09197.09197.5 13 brm:557- 4.84875 brm:565 0 13.6207756 JL061317_062017_S2_HAD4_(—) N 4.84875 0.18267184 2//7 9//23 BAF_D.05694.05694.4 0 10.4496636 JL061317_062017_S2_HAD4_(—) N 3.081 0.1507818 1//7 8//23 BAF_70B.02979.02979.4 0 9.73729895 JL061317_062017_S2_HAD4_(—) N 2.0715 0.1023342 //7 6//23 BAF_1ug.03193.03193.4 14 brm:1303- 15.52525 brm:1310 −1 10.4047291 JL061317_062017_S2_HAD4_(—) NP 15.52525 0.51333322 7.04E−03 2//12 16//83 BAF_85B.09702.09702.5 −2 10.7198956 JL061317_062017_S2_HAD4_(—) NP 12.64875 0.41841022 4.52E−10 2//12 16//66 BAF_85B.09714.09714.4 −1 6.84566015 JL061317_062017_S2_HAD4_(—) N 12.091 0.39626383 //12 17//51 BAF_70B.12002.12002.4 −1 −1.3391149 JL061317_062017_S2_HAD4_(—) NP 10.78475 0.38996764 9.84E−11 1//12 13//66 BAF_85B.09854.09854.4 −1 0.40245299 JL061317_062017_S2_HAD4_(—) NP 10.385 0.41288963 1.32E−02 2//12 16//83 BAF_85B.09710.09710.6 −2 0.34077544 JL061317_062017_S2_HAD4_(—) NP 9.936 0.36119088 4.56E−04 1//12 12//83 BAF_100B.09744.09744.5 −2 3.63887861 JL061317_062017_S2_HAD4_(—) NP 8.2555 0.30268754 3.84E−03 1//12 11//83 BAF_85B.09885.09885.6 −1 12.4046103 JL061317_062017_S2_HAD4_(—) NP 7.79725 0.2812252 3.91E−09 1//12 10//66 BAF_85B.09934.09934.4 −1 8.42111051 JL061317_062017_S2_HAD4_(—) N 5.586 0.1503472 1//12 12//51 BAF_70B.11302.11302.4 0 1.40963012 JL061317_062017_S2_HAD4_(—) P 5.294 0.22271303 4.57E−06 //12 5//66 BAF_100B.09949.09949.4 0 1.66182188 JL061317_062017_S2_HAD4_(—) N 4.2045 0.11960402 //12 11//51 BAF_70B.11287.11287.4 15 brm:1303- 12.395 brm:1311 −1 0.31860814 JL061317_062017_S2_HAD4_(—) NP 12.395 0.4062669 2.48E−03 2//11 14//75 BAF_85B.09852.09852.5 −1 3.86537594 JL061317_062017_S2_HAD4_(—) NP 11.763 0.43818216 6.21E−05 1//11 13//75 BAF_D.10192.10192.5 −1 9.22102869 JL061317_062017_S2_HAD4_(—) N 8.6915 0.29976892 //12 14//65 BAF_85B.09970.09970.5 −1 1.42697308 JL061317_062017_S2_HAD4_(—) NP 8.59275 0.3377056 3.90E−05 1//11 8//75 BAF_100B.09919.09919.5 −1 −6.6592666 JL061317_062017_S2_HAD4_(—) NP 5.365 0.23520901 4.59E−06 //11 7//60 BAF_100B.09784.09784.4 −1 0.95477924 JL061317_062017_S2_HAD4_(—) N 4.83375 0.18588129 3//12 10//52 BAF_85B.09867.09867.6 7 Bap111 1 Bap111:173- 4.75775 Bap111:214 −2 4.10882392 JL061317_062017_S2_HAD4_(—) N 4.75775 0.18152423 //13 10//71 BAF_85B.09421.09421.6 2 Bap111:173- 7.83275 Bap111:189 −1 2.46700206 JL061317_062017_S2_HAD4_(—) N 7.83275 0.32707324 //12 8//48 BAF_85B.03614.03614.6 −2 1.76607271 JL061317_062017_S2_HAD4_(—) N 6.56025 0.27018039 //12 6//60 BAF_85B.03599.03599.5 3 Bap111:296- 14.48175 Bap111:300 −1 0.7148439 JL061317_062017_S2_HAD4_(—) N 14.48175 0.34128911 1//15 15//71 BAF_70B.10708.10708.4 −2 6.04203909 JL061317_062017_S2_HAD4_(—) N 12.386 0.32228771 1//15 14//71 BAF_70B.10685.10685.4 −2 −2.1018446 JL061317_062017_S2_HAD4_(—) NP 12.0035 0.34006658 1.97E−07 //16 22//79 BAF_70B.11164.11164.4 −2 7.42782594 JL061317_062017_S2_HAD4_(—) N 8.82475 0.28735286 //15 15//71 BAF_70B.10670.10670.4 −2 0.6469931 JL061317_062017_S2_HAD4_(—) N 7.76225 0.20260888 //16 8//102 BAF_D.14093.14093.5 0 −2.266946 JL061317_062017_S2_HAD4_(—) NP 7.7615 0.24027552 1.37E−05 //16 17//102 BAF_1ug.11045.11045.5 −1 4.4677675 JL061317_062017_S2_HAD4_(—) NP 7.5445 0.20241736 1.66E−03 //16 12//102 BAF_70B.11189.11189.5 −1 3.06741121 JL061317_062017_S2_HAD4_(—) N 7.37725 0.21817792 //15 8//71 BAF_50B.10167.10167.4 −3 8.53367166 JL061317_062017_S2_HAD4_(—) NP 7.2045 0.19540277 2.85E−07 //16 13//102 BAF_70B.11155.11155.5 −1 5.15267891 JL061317_062017_S2_HAD4_(—) N 6.37575 0.23869827 //15 10//90 BAF_D.11036.11036.5 −3 12.0329795 JL061317_062017_S2_HAD4_(—) N 6.34375 0.1967878 //15 10//90 BAF_D.11083.11083.5 −3 7.92857974 JL061317_062017_S2_HAD4_(—) P 5.18725 0.21031239 9.53E−05 //16 14//79 BAF_1ug.11050.11050.4 0 3.77102231 JL061317_062017_S2_HAD4_(—) N 4.7435 0.12378007 //16 9//102 BAF_85B.13220.13220.5 −3 14.4079987 JL061317_062017_S2_HAD4_(—) N 4.05975 0.10564562 1//15 12//90 BAF_70B.11173.11173.5 4 Bap111:146- 3.29575 Bap111:154 −1 −6.5082942 JL061317_062017_S2_HAD4_(—) P 3.29575 0.07894296 9.02E−02 //9 16//186 BAF_70B.15975.15975.5 5 Bap111:67- 11.6965 Bap111:75 −2 3.80122886 JL061317_062017_S2_HAD4_(—) NP 11.6965 0.43923093 9.94E−13 //13 30//206 BAF_70B.09113.09113.5 6 Bap111:169- 12.02525 Bap111:173 −2 0.16943823 JL061317_062017_S2_HAD4_(—) N 12.02525 0.33495585 //13 14//91 BAF_70B.07460.07460.5 7 Bap111:189- 8.25875 Bap111:67 −2 7.02291104 JL061317_062017_S2_HAD4_(—) P 8.25875 0.34572798 3.07E−06 //13 24//208 BAF_100B.08705.08705.6 8 Bap111:189- 3.50625 Bap111:253 −1 0.83568429 JL061317_062017_S2_HAD4_(—) N 3.50625 0.13347482 1//8 8//29 BAF_85B.03731.03731.4 9 Bap111:189- 15.021 Bap111:214 −1 3.11079345 JL061317_062017_S2_HAD4_(—) NP 15.021 0.46481619 1.88E−07 //10 42//210 BAF_85B.08591.08591.5 −3 5.44943277 JL061317_062017_S2_HAD4_(—) NP 14.54075 0.50257496 4.05E−08 //10 40//210 BAF_85B.08519.08519.5 −3 8.30462795 JL061317_062017_S2_HAD4_(—) P 12.466 0.36780999 3.05E−08 //10 35//210 BAF_85B.08548.08548.6 8 OSA 1 OSA:2094- 10.18475 OSA:2097 −2 2.12889585 JL061317_062017_S2_HAD4_(—) P 10.18475 0.29260637 2.43E−03 //16 29//121 BAF_70B.07768.07768.5 2 OSA:2048- 5.95275 OSA:2058 −1 2.54427675 JL061317_062017_S2_HAD4_(—) NP 5.95275 0.27498556 9.27E−09 //11 16//57 BAF_85B.05645.05645.4 3 OSA:2156- 13.0465 OSA:2532 −1 5.24910301 JL061317_062017_S2_HAD4_(—) N 13.0465 0.55667442 //10 6//36 BAF_70B.07101.07101.4 4 OSA:1989- 2.8395 OSA:1989 0 19.7803779 JL061317_062017_S2_HAD4_(—) N 2.8395 0.15046499 //10 7//64 BAF_100B.05784.05784.5 −1 15.289408 JL061317_062017_S2_HAD4_(—) N 2.445 0.13369423 //10 6//64 BAF_100B.05487.05487.5 9 mor 1 mor:70- 18.81025 mor:8 −3 0.68056543 JL061317_062017_S2_HAD4_(—) NP 18.81025 0.48541328 1.64E−08 4//17 45//146 BAF_50B.15899.15899.4 −1 −0.7935042 JL061317_062017_S2_HAD4_(—) NP 17.0735 0.4698525 8.77E−10 1//17 37//146 BAF_50B.15878.15878.4 −1 −3.3731259 JL061317_062017_S2_HAD4_(—) NP 13.42375 0.44015903 3.23E−09 1//17 30//146 BAF_1ug.16117.16117.4 −3 −4.0487411 JL061317_062017_S2_HAD4_(—) P 9.62775 0.24048032 4.87E−03 1//17 26//146 BAF_50B.16287.16287.4 −2 1.66327848 JL061317_062017_S2_HAD4_(—) NP 9.08675 0.28343393 4.27E−02 1//17 26//146 BAF_1ug.16090.16090.4 2 mor:589- 7.28375 mor:594 −2 4.4741555 JL061317_062017_S2_HAD4_(—) NP 7.28375 0.22247251 8.83E−05 1//15 14//73 BAF_50B.14166.14166.4 3 mor:962- 16.1025 mor:962 −3 2.93766994 JL061317_062017_S2_HAD4_(—) NP 16.1025 0.81585347 1.53E−08 1//10 18//64 BAF_100B.09583.09583.5 −1 −1.7901351 JL061317_062017_S2_HAD4_(—) NP 9.3925 0.40411755 2.18E−07 //10 14//53 BAF_100B.09620.09620.4 4 mor:758- 11.432 mor:962 −2 0.31042946 JL061317_062017_S2_HAD4_(—) N 11.432 0.36680999 1//10 9//47 BAF_70B.13985.13985.6 −1 3.73453134 JL061317_062017_S2_HAD4_(—) N 9.34875 0.32083841 2//10 10//47 BAF_70B.13997.13997.6 −2 4.79122166 JL061317_062017_S2_HAD4_(—) N 7.59825 0.21815246 //10 9//58 BAF_85B.14005.14005.5 −2 4.55354005 JL061317_062017_S2_HAD4_(—) N 7.0425 0.27636071 //10 7//58 BAF_100B.14233.14233.5 −2 5.9796314 JL061317_062017_S2_HAD4_(—) N 6.09125 0.18191253 //10 9//58 BAF_70B.13915.13915.5 −2 8.2810991 JL061317_062017_S2_HAD4_(—) N 5.6705 0.2005411 //10 9//58 BAF_100B.14141.14141.5 5 mor:758- 5.03775 mor:775 −1 15.3089615 JL061317_062017_S2_HAD4_(—) N 5.03775 0.13226954 //12 7//46 BAF_50B.13843.13843.4 6 mor:292- 9.26925 mor:8 −3 1.5980405 JL061317_062017_S2_HAD4_(—) N 9.26925 0.21278537 //16 7//78 BAF_50B.17277.17277.4 7 mor:479- 4.8325 mor:483 −2 12.4625782 JL061317_062017_S2_HAD4_(—) N 4.8325 0.13684181 //13 11//60 BAF_50B.11111.11111.4 8 mor:748- 11.8955 mor:962 −2 1.89539545 JL061317_062017_S2_HAD4_(—) N 11.8955 0.27038914 //10 8//47 BAF_85B.14789.14789.6 −2 4.87668681 JL061317_062017_S2_HAD4_(—) N 11.0165 0.27871528 1//10 10//47 BAF_85B.14639.14639.6 −3 3.14764052 JL061317_062017_S2_HAD4_(—) N 9.4765 0.28290593 //10 9//47 BAF_85B.14670.14670.7 −2 8.97552544 JL061317_062017_S2_HAD4_(—) N 9.42925 0.26711756 //10 9//58 BAF_85B.14765.14765.5 −3 6.3948492 JL061317_062017_S2_HAD4_(—) N 8.1595 0.22109171 //10 8//58 BAF_85B.14646.14646.5 −2 7.33526056 JL061317_062017_S2_HAD4_(—) N 7.499 0.19907352 //10 7//58 BAF_85B.14817.14817.5 9 mor:590- 3.0285 mor:603 −3 7.88987017 JL061317_062017_S2_HAD4_(—) P 3.0285 0.09719503 2.44E−03 1//18 13//115 BAF_50B.15311.15311.5 10 ACT1 1 ACT1:292- 7.75875 ACT1:327 −3 5.98362257 JL061317_062017_S2_HAD4_(—) N 7.75875 0.23913178 //11 12//108 BAF_50B.17186.17186.4 2 ACT1:292- 11.255 ACT1:329 −2 5.49117573 JL061317_062017_S2_HAD4_(—) N 11.255 0.35740938 //11 16//110 BAF_50B.16646.16646.4 −1 8.26065425 JL061317_062017_S2_HAD4_(—) N 10.868 0.30488267 //9 8//40 BAF_50B.14268.14268.4 −1 1.97212462 JL061317_062017_S2_HAD4_(—) N 9.70225 0.30120454 //9 5//40 BAF_1ug.14318.14318.4 −2 5.16299595 JL061317_062017_S2_HAD4_(—) N 9.25725 0.28970551 //9 7//40 BAF_1ug.14327.14327.4 −1 0.31359813 JL061317_062017_S2_HAD4_(—) N 6.0145 0.16821188 //9 4//40 BAF_70B.14341.14341.4 −3 9.46703099 JL061317_062017_S2_HAD4_(—) N 5.65025 0.16069194 //9 5//40 BAF_50B.14135.14135.4 11 Bap55 1 Bap55:58- 17.82975 Bap55:72 −2 6.14634577 JL061317_062017_S2_HAD4_(—) NP 17.82975 0.38482167 3.48E−14 //3 38//202 BAF_50B.15572.15572.4 −2 1.48446184 JL061317_062017_S2_HAD4_(—) NP 16.2305 0.48239018 1.58E−19 //3 33//281 BAF_1ug.15626.15626.5 −4 3.86790831 JL061317_062017_S2_HAD4_(—) P 13.06 0.31631467 4.58E−10 //3 24//202 BAF_50B.15540.15540.4 −3 3.41222082 JL061317_062017_S2_HAD4_(—) P 11.5915 0.27920561 3.30E−09 //3 20//202 BAF_50B.15729.15729.4 −4 10.8488398 JL061317_062017_S2_HAD4_(—) P 11.51875 0.41846039 8.12E−12 //3 25//281 BAF_1ug.15621.15621.5 −3 8.50204923 JL061317_062017_S2_HAD4_(—) NP 11.516 0.28853839 8.25E−07 //3 34//281 BAF_50B.15588.15588.5 −3 13.5284832 JL061317_062017_S2_HAD4_(—) NP 10.24425 0.26683641 4.27E−13 //3 20//202 BAF_50B.15608.15608.4 −4 −3.2774724 JL061317_062017_S2_HAD4_(—) P 6.5765 0.22723032 3.24E−10 //3 17//281 BAF_1ug.15732.15732.5 −3 2.59198333 JL061317_062017_S2_HAD4_(—) P 5.116 0.17235745 1.60E−05 //3 15//202 BAF_50B.15510.15510.4 −4 2.13629584 JL061317_062017_S2_HAD4_(—) P 3.3375 0.14431184 1.16E−01 //3 12//202 BAF_1ug.15605.15605.4 2 Bap55:199- 17.28325 Bap55:94 −1 7.39048807 JL061317_062017_S2_HAD4_(—) N 17.28325 0.4241965 //9 19//125 BAF_D.18064.18064.6 −3 1.44476423 JL061317_062017_S2_HAD4_(—) N 15.6215 0.3697484 1//10 19//126 BAF_D.18701.18701.6 −3 1.59386603 JL061317_062017_S2_HAD4_(—) N 15.381 0.40092797 //10 17//125 BAF_D.18718.18718.6 −3 10.5477036 JL061317_062017_S2_HAD4_(—) N 15.312 0.34276888 //10 17//126 BAF_D.18693.18693.6 −1 7.75500745 JL061317_062017_S2_HAD4_(—) N 13.1475 0.33521583 //9 15//125 BAF_D.18185.18185.6 −2 4.20026656 JL061317_062017_S2_HAD4_(—) N 11.416 0.28559635 //10 12//171 BAF_D.19216.19216.5 −2 4.54796388 JL061317_062017_S2_HAD4_(—) N 10.0005 0.24857079 //10 15//126 BAF_D.19258.19258.6 Total unique intra crosslinks are: 80 Total counted intra crosslinks are: 369 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 2.8 1.42857143 R.K[1792.98]FSSFFK.S sp|Q9VYG2|BAP60_DROME:233 1 BAP60 8.1 1.39285714 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 2.4815 0.96153846 R.THTTQETDGFQVK[3863.84]R.P sp|Q9VYG2|BAP60_DROME:274 1 BAP60 5.70775 0.96428571 R.IFISNTFYPSK[2338.17]EPTNDGEEGAVASWELR.V sp|Q9VYG2|BAP60_DROME:196 1 BAP60 3.095 0.5625 R.IFISNTFYPSK[1912.96]EPTNDGEEGAVASWELRVEGR.L sp|Q9VYG2|BAP60_DROME:196 1 BAP60 1.52225 0.76923077 R.THTTQETDGFQVK[3863.82]R.P sp|Q9VYG2|BAP60_DROME:274 1 BAP60 5.27525 1.5 K.IHETVDTINQM[147.04]K[2294.18]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 5.2685 1.53571429 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 5.32975 1.53571429 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 5.39425 1.53571429 K.IHETVDTINQM[147.04]K[2294.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.384 1.03571429 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 4.464 1.28571429 K.IHETVDTINQM[147.04]K[2294.17]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.5765 1.14285714 K.IHETVDTINQM[147.04]K[2294.13]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.4375 0.875 R.EFFLSFAK[2065.06]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 1 BAP60 3.346 1.03571429 K.IHETVDTINQM[147.04]K[2294.15]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 3.1945 1.17857143 K.IHETVDTINQM[147.04]K[2294.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.716 0.85714286 K.IHETVDTINQM[147.04]K[2294.14]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 2.064 0.5 R.EFFLSFAK[2065.06]DPQMFIHR.W sp|Q9VYG2|BAP60_DROME:446 1 BAP60 2.27975 0.82142857 K.IHETVDTINQM[147.04]K[2294.18]TNR.E sp|Q9VYG2|BAP60_DROME:435 1 BAP60 1.285 0.91666667 K.ILPQK[2081.05]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 1.5945 1.33333333 K.ILPQK[2294.15]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 0.957 0.91666667 K.ILPQK[2294.17]VR.D sp|Q9VYG2|BAP60_DROME:138 1 BAP60 1.22125 0.625 R.M[147.04]K[1583.79]FAEIPQR.L sp|Q9VYG2|BAP60_DROME:354 1 BAP60 2.627 1.0625 R.GTGAGGGGVGSGGGSK[2081.05]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 7.1755 1.9375 R.GTGAGGGGVGSGGGSK[1722.95]R.S sp|Q9VYG2|BAP60_DROME:104 1 BAP60 3.62625 1.625 K.IK[1845.92]IVAPPER.K sp|P02572|ACT2_DROME:329 1 ACT2 3.3635 1.375 K.IK[1845.94]IVAPPER.K sp|P02572|ACT2_DROME:329 1 ACT2 2.13375 1.125 K.IK[2624.33]IVAPPER.K sp|P02572|ACT2_DROME:329 1 ACT2 3.23125 1.19230769 R.M[147.04]QK[2624.25]EITALAPSTM[147.04]K.I sp|P10987|ACT1_DROME:316 2 ACT2 sp|P02572|ACT2_DROME:316 2.869 1.16666667 K.EITALAPSTM[147.04]K[2624.32]IK.I sp|P10987|ACT1_DROME:327 2 ACT2 sp|P02572|ACT2_DROME:327 1.8255 0.91666667 K.EITALAPSTM[147.04]K[2624.28]IK.I sp|P10987|ACT1_DROME:327 2 ACT2 sp|P02572|ACT2_DROME:327 4.88075 1.73076923 K.AK[1480.83]LESSPGSAAVR.R tr|O76857|O76857_DROME:59 1 BCL7 4.58675 1.65384615 K.AK[1480.83]LESSPGSAAVR.R tr|O76857|O76857_DROME:59 1 BCL7 0.422 0.22727273 K.WVPIASASEK[1310.74]K.A tr|O76857|O76857_DROME:56 1 BCL7 2.589 2.3125 R.VM[147.04]QAVDK[1537.85]VR.H tr|O76857|O76857_DROME:26 1 BCL7 2.32 2.125 R.VM[147.04]QAVDK[1537.84]VR.H tr|O76857|O76857_DROME:26 1 BCL7 1.018 1.41666667 R.AK[1326.72]DDIKR.V tr|O76857|O76857_DROME:14 1 BCL7 1.9025 0.9375 R.MFQLLPSK[1605.94]K.I tr|Q9VC36|Q9VC36_DROME:224 1 Polybromo 1.3975 1.3 R.K[1276.68]FLEK.E tr|Q9VC36|Q9VC36_DROME:976 1 Polybromo 1.6005 0.8125 K.K[2882.53]AFPTSHR.T tr|Q9VC36|Q9VC36_DROME:420 1 Polybromo 1.75625 0.875 K.K[2882.47]AFPTSHR.T tr|Q9VC36|Q9VC36_DROME:420 1 Polybromo 4.931 2.38888889 K.IQNFLNDK[2022.02]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 1 D4 12.24025 3.35714286 K.YK[1513.81]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 1 D4 12.17925 3.5 K.YK[1513.81]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 1 D4 9.54425 2.17857143 K.YK[1513.81]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 1 D4 7.214 2.03571429 K.YK[1513.81]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 1 D4 5.33775 1.96428571 K.YK[1513.81]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 1 D4 5.0275 1.57142857 K.YK[1513.81]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 1 D4 2.18875 1.38888889 K.IQNFLNDK[2022.04]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 1 D4 3.173 0.89285714 K.YK[1513.81]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 1 D4 0.931 1.75 R.K[1525.77]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 5.5995 2.2 R.K[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 6.11975 2.59090909 R.RK[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 6.225 2.3 R.K[1009.58]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 5.3905 2.2 R.K[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 5.2345 2.2 R.K[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 5.82075 2.40909091 R.K[1009.58]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 5.03925 2.13636364 R.RK[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 5.8195 2.35 R.K[1009.58]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.96375 2.27272727 R.RK[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.701 1.75 R.K[1369.65]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 4.9725 1.77272727 R.K[1009.58]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.05275 1.65 R.K[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.375 1.41666667 R.K[1369.65]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 4.5385 1.4 R.K[1009.58]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.92025 1.5 R.K[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.2405 1.81818182 R.RK[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.3955 1.4 R.K[1009.58]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.81375 1.54545455 R.RK[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 0.93025 0.83333333 R.K[1497.8]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 3.055 1.59090909 R.RK[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 2.8735 0.9 R.K[1009.58]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 2.01575 0.9 R.K[853.48]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.6865 1.16666667 R.K[1615.81]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 1.1925 1.33333333 R.K[1615.82]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 10.14825 2.8125 K.K[853.48]TNMPEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 1 D4 8.72525 2.34375 K.K[853.48]TNMPEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 1 D4 1.08775 1.08333333 R.K[2163.94]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 4.74 2 R.K[943.53]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.59375 1.65 R.K[943.53]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.3835 1.4 R.K[943.53]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.05325 1.3 R.K[1525.79]KC[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:215 1 D4 1.416 1.2 R.K[1607.87]K[284.17]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:215 1 D4 0.9065 0.8 R.K[1607.89]K[284.17]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:215 1 D4 1.02825 1.3 R.K[1451.78]K[284.17]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:215 1 D4 1.64275 1.4 R.K[1607.87]K[284.17]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:215 1 D4 5.9215 1.86363636 R.RK[1369.68]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.782 1.72727273 R.RK[1525.78]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.65875 2.04545455 R.RK[1525.78]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.42875 1.7 R.RK[1525.79]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.38075 1.8 R.K[1369.7]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.126 1.13636364 R.RK[1369.68]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.09325 1.7 R.RK[1525.8]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 2.8025 1.5 R.RK[1525.75]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 2.582 1.35 R.RK[1525.76]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 2.0885 1.05 R.K[1525.78]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.944 0.95 R.RK[1525.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.84325 1 R.K[1525.75]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.77625 0.8 R.RK[1525.8]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.668 0.85 R.RK[1525.8]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.31225 0.6 R.RK[1525.79]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 6.319 2.45454546 R.RK[795.5]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.3725 1.8 R.K[793.52]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 10.73425 2.40625 K.K[1369.68]TNMPEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 1 D4 2.596 1.3 R.K[2163.95]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.5295 1.8 R.K[2163.96]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.87575 2.15 R.K[2163.97]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.0465 1.8 R.K[2163.94]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 9.30075 2.21875 K.K[1369.68]TNMPEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 1 D4 1.5735 0.85 R.K[2163.97]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 6.15225 2.3 R.K[1068.59]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 5.9305 2.05 R.K[1068.59]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 5.039 1.8 R.K[943.53]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.69 2.04545455 R.K[1068.59]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.7825 1.68181818 R.K[1068.59]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 7.335 2.27272727 R.TNANVEGTPK[1068.59]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 6.58 2.27272727 R.TNANVEGTPK[943.53]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.8855 1.72727273 R.TNANVEGTPK[815.43]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.79575 1.72727273 R.TNANVEGTPK[815.43]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.4355 1.58333333 R.RTNANVEGTPK[815.43]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.271 1.63636364 R.TNANVEGTPK[1068.59]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.13375 1.72727273 R.TNANVEGTPK[1068.59]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.881 1.18181818 R.TNANVEGTPK[815.43]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.60775 0.68181818 R.TNANVEGTPK[815.43]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.4565 1.875 R.RTNANVEGTPK[1607.87]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.8095 1.08333333 R.RTNANVEGTPK[1607.87]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.56675 1.18181818 R.RTNANVEGTPK[1607.88]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.79725 1 R.RTNANVEGTPK[1607.84]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 6.699 2.08333333 R.RTNANVEGTPK[795.5]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.047 1.75 R.RTNANVEGTPK[795.5]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 7.67125 3.45454546 R.TNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.6995 1.72727273 R.K[1451.77]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.3535 0.95833333 R.RTNANVEGTPK[1497.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 7.08475 2.58333333 R.RTNANVEGTPK[1497.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.632 2.72727273 R.TNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.3045 2.31818182 R.TNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.092 2.08333333 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.236 1.875 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.8705 2.20833333 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.92325 1.58333333 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.2175 1.6 R.K[1451.75]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 5.0585 1.9 R.K[1607.9]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 4.2305 1.5 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.0385 1.7 R.K[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 5.8545 1.875 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.45875 1.79166667 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.4405 1.63636364 R.K[1607.87]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 2.60775 1.375 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.9365 2.16666667 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.446 2.25 R.TNANVEGTPK[1497.8]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.471 1.63636364 R.K[1607.85]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.939 1.41666667 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.36925 1.875 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.4615 1.45454546 R.K[1607.86]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.9325 1.16666667 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.796 1.65 R.K[1451.73]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 2.92825 1.40909091 R.TNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.46975 1.16666667 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.33525 1.77272727 R.TNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 0.81625 0.63636364 R.RK[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.93625 1.08333333 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.216 1.20833333 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.6675 1.35 R.TNANVEGTPK[1525.76]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.252 2.04545455 R.TNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.87725 1.6 R.TNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.702 0.95833333 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.36125 1.625 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.97375 1.75 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 0.765 0.66666667 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.601 1.58333333 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.595 1.375 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.9515 1.625 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.1305 1.95833333 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.953 1.04545455 R.K[1451.77]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 2.05725 1.45 R.TNANVEGTPK[1525.76]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.38375 1.65 R.K[1607.85]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.091 0.68181818 R.RK[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.6135 1.25 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.1025 0.86363636 R.TNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.83825 1.16666667 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.99275 1.54166667 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.8495 1.5 R.RK[1607.85]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.5985 0.72727273 R.RK[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 3.1815 1.2 R.K[1451.74]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 1.7585 0.83333333 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.17125 0.875 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.17575 0.75 R.RK[1607.84]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 1 D4 2.664 1.15 R.TNANVEGTPK[1525.77]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.537 0.83333333 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 0.41725 0.5 R.RTNANVEGTPK[1497.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.4225 0.875 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.78775 1.25 R.RTNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 0.5925 0.33333333 R.RTNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.656 1.11904762 R.DIAQPSPYC[160.03]DFC[160.03]LGDQRENK[1607.87]K.T tr|Q7K3G5|Q7K3G5_DROME:399 1 D4 5.63375 1.21428571 R.DIAQPSPYC[160.03]DFC[160.03]LGDQRENK[1607.87]K.T tr|Q7K3G5|Q7K3G5_DROME:399 1 D4 8.96075 3.45833333 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 7.64325 3.08333333 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 7.74875 2.79166667 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.766 1.91666667 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 6.60325 2.5 R.TNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.415 1.33333333 R.K[1451.75]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 6.22975 2.72727273 R.TNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.7185 2.29166667 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.7665 2.08333333 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.62025 2.13636364 R.TNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.10875 1.75 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 6.33175 2.16666667 R.RTNANVEGTPK[1009.58]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.17575 1.625 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.6945 2.40909091 R.TNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 5.77625 2.45454546 R.TNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.1965 1.21428571 R.GRK[1664.88]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 5.37 1.95454546 R.TNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 0.9885 1.33333333 R.K[1451.75]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 5.62875 2.04166667 R.RTNANVEGTPK[1009.58]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.93425 2.27272727 R.TNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.3685 1.58333333 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.691 2 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.28275 1.5 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.14 1.45833333 R.RTNANVEGTPK[1009.58]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 4.0715 1.31818182 R.TNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.53125 1.41666667 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.89625 1.5 R.TNANVEGTPK[1009.58]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.4085 1.33333333 R.K[1607.85]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 2.96175 1.08333333 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.0955 1 R.K[1607.85]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 2.8755 1.08333333 R.RTNANVEGTPK[1009.58]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.1155 1.33333333 R.K[1607.85]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 2.681 1 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 1.187 1.33333333 R.K[1607.85]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 1.1865 1.33333333 R.K[1451.74]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 1 D4 1.6285 0.66666667 R.RTNANVEGTPK[853.48]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.4945 1.05 R.TNANVEGTPK[2163.97]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 0.905 0.72727273 R.RTNANVEGTPK[2163.97]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 2.6045 1.1 R.TNANVEGTPK[2163.96]R.G tr|Q7K3G5|Q7K3G5_DROME:232 1 D4 3.9135 1.03125 K.K[2427.31]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 1 D4 4.85975 1.3125 K.K[2427.26]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 1 D4 5.114 1.34375 K.K[2427.23]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 1 D4 3.91575 0.9375 K.K[2427.23]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 1 D4 2.76625 1.21428571 R.NNK[1919.91]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.492 1.28571429 R.NNK[1919.91]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 3.61225 1.64285714 R.NNK[1919.91]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.7095 1.42857143 R.NNK[1903.92]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.5015 1.28571429 R.NNK[1919.89]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.694 1.21428571 R.NNK[1903.92]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 2.01525 1.21428571 R.NNK[1919.88]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 1.89275 1.28571429 R.NNK[1903.87]AQLAR.M sp|P25439|BRM_DROME:535 1 brm 1.2805 0.8 K.K[1991.01]ILQR.I sp|P25439|BRM_DROME:1475 1 brm 0.971 0.8 K.K[1991.02]ILQR.I sp|P25439|BRM_DROME:1475 1 brm 3.15775 1.75 K.K[1421.7]EEEGK.R sp|P25439|BRM_DROME:620 1 brm 2.53675 1.57142857 K.K[1421.69]EEEGKR.L sp|P25439|BRM_DROME:620 1 brm 1.11875 0.71428571 K.K[1293.58]EEEGKR.L sp|P25439|BRM_DROME:620 1 brm 1.831 0.71428571 K.IQWK[2921.36]YMIIDEGHRM[147.04]K.N sp|P25439|BRM_DROME:895 1 brm 1.86275 1.5 R.KLIDQK[939.54]K.D sp|P25439|BRM_DROME:586 1 brm 1.46625 1.875 R.IEK[1919.91]ER.M sp|P25439|BRM_DROME:565 1 brm 1.6125 1.875 R.IEK[1919.9]ER.M sp|P25439|BRM_DROME:565 1 brm 1.01725 1.25 R.IEK[1919.91]ER.M sp|P25439|BRM_DROME:565 1 brm 0.92425 1.125 R.IEK[1903.92]ER.M sp|P25439|BRM_DROME:565 1 brm 1.741 1.2 K.K[1919.91]EQER.I sp|P25439|BRM_DROME:558 1 brm 1.8485 1.2 K.K[1919.92]EQER.I sp|P25439|BRM_DROME:558 1 brm 1.499 1.2 K.K[1919.93]EQER.I sp|P25439|BRM_DROME:558 1 brm 1.2525 1.6 K.K[1686.9]ILQR.I sp|P25439|BRM_DROME:1475 1 brm 1.289 1.6 K.K[1686.9]ILQR.I sp|P25439|BRM_DROME:1475 1 brm 4.6985 1.45833333 R.TLSEPFMK[922.6]LPSR.Q sp|P25439|BRM_DROME:1453 1 brm 4.554 1.66666667 R.TLSEPFMK[922.6]LPSR.Q sp|P25439|BRM_DROME:1453 1 brm 3.77875 1.16666667 R.TLSEPFMK[922.6]LPSR.Q sp|P25439|BRM_DROME:1453 1 brm 2.00075 1.2 R.VHVVEQC[160.03]TGK[1884.99]K.L sp|P25439|BRM_DROME:663 1 brm 3.592 1.3 R.VHVVEQC[160.03]TGK[1884.96]K.L sp|P25439|BRM_DROME:663 1 brm 2.045 0.75 R.VHVVEQC[160.03]TGK[1884.99]K.L sp|P25439|BRM_DROME:663 1 brm 1.11325 1.25 R.IEK[1339.69]ER.M sp|P25439|BRM_DROME:565 1 brm 4.23325 1.25 K.AQATGNDEDAK[1389.68]DLITK.A sp|P25439|BRM_DROME:730 1 brm 2.711 1.07142857 R.AIDSM[147.04]EEK[2195.17]GLQEDPR.Y sp|P25439|BRM_DROME:151 1 brm 2.13925 2.375 R.IEK[1495.82]ER.M sp|P25439|BRM_DROME:565 1 brm 1.385 1.75 R.IEK[1339.69]ER.M sp|P25439|BRM_DROME:565 1 brm 1.02 1.25 R.IEK[1339.69]ER.M sp|P25439|BRM_DROME:565 1 brm 5.95975 2.22727273 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 4.4025 2.09090909 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 8.3475 2.94444444 R.SEEEIEIFK[1758.89]R.M sp|P25439|BRM_DROME:1303 1 brm 3.07625 1.36363636 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 5.122 2.13636364 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 3.34 1.68181818 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 3.393 1.54545455 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 0.9705 0.54545455 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 3.56225 1.88888889 R.SEEEIEIFK[1758.94]R.M sp|P25439|BRM_DROME:1303 1 brm 0.5335 0.31818182 R.K[1544.81]KEDEEIHPGR.E sp|P25439|BRM_DROME:1310 1 brm 3.1615 1.77777778 R.SEEEIEIFK[1758.91]R.M sp|P25439|BRM_DROME:1303 1 brm 4.3205 1.86363636 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 3.901 1.45454546 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 6.339 2.44444444 R.SEEEIEIFK[1602.86]R.M sp|P25439|BRM_DROME:1303 1 brm 1.71975 0.68181818 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 1.17 0.54545455 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 1 brm 2.2395 1.38888889 R.SEEEIEIFK[1602.83]R.M sp|P25439|BRM_DROME:1303 1 brm 1.89375 0.95833333 K.VK[3314.55]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 1 Bap111 1.8855 1.05555556 R.GGGSK[1795.87]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 1.19375 0.94444444 R.GGGSK[1795.88]SQHER.R tr|Q9W384|Q9W384_DROME:189 1 Bap111 2.5315 1.04166667 R.HC[160.03]K[1963.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 2.169 0.875 R.HC[160.03]K[1963.94]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 9.63975 2.5 R.MVESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 1 Bap111 3.10475 1.33333333 R.HC[160.03]K[1963.98]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 1.588 0.57692308 R.M[147.04]VESSEAFQEELK[2525.26]R.H tr|Q9W384|Q9W384_DROME:296 1 Bap111 4.72425 1.5 R.MVESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 1 Bap111 3.93675 1 R.MVESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 1 Bap111 1.6555 0.625 R.HC[160.03]K[1963.97]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 4.7575 1.25 R.MVESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 1 Bap111 2.5535 1 R.HC[160.03]K[1963.94]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 3.07875 1.08333333 R.HC[160.03]K[1963.91]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 4.5915 1.5 R.MVESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 1 Bap111 1.94 0.80769231 R.M[147.04]VESSEAFQEELK[2525.28]R.H tr|Q9W384|Q9W384_DROME:296 1 Bap111 2.40575 1.04166667 R.HC[160.03]K[1947.91]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 1 Bap111 2.928 0.7173913 K.LLPEDEKTEFIDEYEAEK[2323.17]LEYEK.S tr|Q9W384|Q9W384_DROME:146 1 Bap111 8.9025 1.6 R.NKDQTPIFTHSNYGNPAFTPQK[1488.72]VTK.S tr|Q9W384|Q9W384_DROME:67 1 Bap111 3.6895 1.58333333 K.VK[2226.08]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 1 Bap111 7.631 1.22 R.NKDQTPIFTHSNYGNPAFTPQK[1307.66]VTK.S tr|Q9W384|Q9W384_DROME:67 1 Bap111 2.47425 1.5 R.M[147.04]QVLK[1307.66]R.Q tr|Q9W384|Q9W384_DROME:253 1 Bap111 13.8445 2.09615385 R.RIDIQPAEDEDDQDEGYTTK[1307.66]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 13.35825 2.01923077 R.RIDIQPAEDEDDQDEGYTTK[1307.66]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 11.7745 1.84615385 R.RIDIQPAEDEDDQDEGYTTK[1307.66]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 1 Bap111 9.08175 2.375 K.SK[1980.04]LTSEEFAQPNAEVK.K sp|Q8IN94|OSA_DROME:2097 1 OSA 4.10225 1.85 R.K[879.54]RTELASSSR.K sp|Q8IN94|OSA_DROME:2048 1 OSA 1.083 0.78571429 R.TTAK[2584.35]DEAR.V sp|Q8IN94|OSA_DROME:2156 1 OSA 1.41975 0.72222222 R.QK[1511.83]AWDIDTNR.L sp|Q8IN94|OSA_DROME:1989 1 OSA 1.2225 0.55555556 R.QK[1511.81]AWDIDTNR.L sp|Q8IN94|OSA_DROME:1989 1 OSA 15.8015 2.7173913 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 14.31075 2.34782609 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 10.96475 1.65217391 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 7.5925 1.34782609 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 7.44775 1.32608696 K.K[1491.8]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 1 mor 3.40925 1.34615385 K.PLGK[1210.72]DGGLELGDK.S tr|Q9VF03|Q9VF03_DROME:594 1 mor 8.05125 2.55 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 4.69625 1.95 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 2.90425 1.22222222 K.AK[2841.39]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 2.9105 1.38888889 K.AK[2841.41]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.25075 1.61111111 K.AK[2841.37]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 1.60675 0.77777778 K.AK[2841.38]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.31975 1.61111111 K.AK[2841.37]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 2.62825 1.22222222 K.AK[2841.42]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 0.956 0.88888889 K.NVEK[2825.34]ASAGGK.F tr|Q9VF03|Q9VF03_DROME:775 1 mor 1.8945 0.69230769 R.M[147.04]SIDDIM[147.04]SFGDEK[2877.43]K.K tr|Q9VF03|Q9VF03_DROME:292 1 mor 1.35125 0.85 R.AM[147.04]PEFFNSK[1639.79]NK.S tr|Q9VF03|Q9VF03_DROME:479 1 mor 2.4415 1.16666667 K.AK[3423.75]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 2.794 1.66666667 K.AK[3423.72]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.21925 1.61111111 K.AK[3423.73]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 3.02125 1.61111111 K.AK[3423.7]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 1.99875 1 K.AK[3423.77]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 1.8325 0.94444444 K.AK[3423.77]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 1 mor 1.8295 0.8125 K.DGGLELGDK[1605.97]SGLTGIK.T tr|Q9VF03|Q9VF03_DROME:603 1 mor 3.6345 0.73684211 K.EITALAPSTM[147.04]K[2624.29]IK[284.17]IIAPPER.K sp|P10987|ACT1_DROME:327 1 ACT1 4.6035 1.10526316 K.EITALAPSTM[147.04]K[284.17]IK[2624.29]IIAPPER.K sp|P10987|ACT1_DROME:329 1 ACT1 2.9245 1.5625 K.IK[2624.34]IIAPPER.K sp|P10987|ACT1_DROME:329 4 ACT1 sp|P83967|ACT6_DROME:329 sp|P02574|ACT4_DROME:329 sp|P10981|ACT5_DROME:329 1.97825 0.8125 K.IK[2624.32]IIAPPER.K sp|P10987|ACT1_DROME:329 4 ACT1 sp|P83967|ACT6_DROME:329 sp|P02574|ACT4_DROME:329 sp|P10981|ACT5_DROME:329 2.49525 1.125 K.IK[2624.33]IIAPPER.K sp|P10987|ACT1_DROME:329 4 ACT1 sp|P83967|ACT6_DROME:329 sp|P02574|ACT4_DROME:329 sp|P10981|ACT5_DROME:329 1.37025 0.5625 K.IK[2624.32]IIAPPER.K sp|P10987|ACT1_DROME:329 4 ACT1 sp|P83967|ACT6_DROME:329 sp|P02574|ACT4_DROME:329 sp|P10981|ACT5_DROME:329 2.161 1 K.IK[2624.28]IIAPPER.K sp|P10987|ACT1_DROME:329 4 ACT1 sp|P83967|ACT6_DROME:329 sp|P02574|ACT4_DROME:329 sp|P10981|ACT5_DROME:329 13.304 1.54285714 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 8.97475 1.24285714 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 8.2365 0.88571429 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 7.8665 0.88571429 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 5.49575 0.67142857 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 5.8315 1.02857143 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 7.09275 0.78571429 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 2.5845 0.42857143 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 3.99875 0.41428571 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 2.25275 0.28571429 K.AEIPSVVGIGAAPETNLDPETK[1866.99]TDNNATPNNADQR.K tr|Q7K012|Q7K012_DROME:58 1 Bap55 7.559 1.61904762 R.SNM[147.04]EVQTYM[147.04]K[4301.32]DGM[147.04]IDNWDLFEK.V tr|Q7K012|Q7K012_DROME:94 1 Bap55 6.6725 1.45238095 R.SNM[147.04]EVQTYM[147.04]K[4301.28]DGMIDNWDLFEK.V tr|Q7K012|Q7K012_DROME:94 1 Bap55 7.056 1.33333333 R.SNMEVQTYMK[4301.28]DGM[147.04]IDNWDLFEK.V tr|Q7K012|Q7K012_DROME:94 1 Bap55 6.8185 1.33333333 R.SNM[147.04]EVQTYM[147.04]K[4301.2]DGMIDNWDLFEK.V tr|Q7K012|Q7K012_DROME:94 1 Bap55 5.14725 1.0952381 R.SNM[147.04]EVQTYM[147.04]K[4301.22]DGM[147.04]IDNWDLFEK.V tr|Q7K012|Q7K012_DROME:94 1 Bap55 3.17375 0.73809524 R.SNM[147.04]EVQTYMK[4301.24]DGMIDNWDLFEK.V tr|Q7K012|Q7K012_DROME:94 1 Bap55 3.68425 1 R.SNM[147.04]EVQTYMK[4301.24]DGMIDNWDLFEK.V tr|Q7K012|Q7K012_DROME:94 1 Bap55 realpep1 position1 immonium2 ion2 dot2 connective2 KFSSFFK 233 2//16 16//104 2.046 0.96153846 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 9//137 0.9845 0.36111111 THTTQETDGFQVKR 274 //6 21//262 5.09725 0.67741936 IFISNTFYPSKEPTNDGEEGAVASWELR 196 //15 8//137 0.9725 0.27777778 IFISNTFYPSKEPTNDGEEGAVASWELRVEGR 196 //16 7//100 1.41175 0.64285714 THTTQETDGFQVKR 274 //6 17//188 2.66725 0.5483871 IHETVDTINQMKTNR 435 //15 22//92 7.11025 2.2 IHETVDTINQMKTNR 435 //15 20//92 5.85625 1.8 IHETVDTINQMKTNR 435 //15 22//122 5.37575 1.73333333 IHETVDTINQMKTNR 435 //15 17//122 4.04075 1.3 IHETVDTINQMKTNR 435 //15 16//122 4.9725 1.43333333 IHETVDTINQMKTNR 435 //15 12//92 3.37575 0.9 IHETVDTINQMKTNR 435 //15 17//122 3.821 1.23333333 EFFLSFAKDPQMFIHR 446 1//16 15//112 3.8925 1.13333333 IHETVDTINQMKTNR 435 //15 9//122 2.34725 0.56666667 IHETVDTINQMKTNR 435 //15 12//122 1.95325 0.53333333 IHETVDTINQMKTNR 435 1//15 12//92 2.09225 0.63333333 EFFLSFAKDPQMFIHR 446 //16 9//112 1.8115 0.5 IHETVDTINQMKTNR 435 //15 10//92 1.5405 0.56666667 ILPQKVR 138 //16 14//90 3.904 1.28571429 ILPQKVR 138 //15 20//93 4.12775 1.46666667 ILPQKVR 138 //15 15//93 3.90425 1.26666667 MKFAEIPQR 354 1//19 24//94 4.166 1.75 GTGAGGGGVGSGGGSKR 104 //16 6//87 2.82625 0.60714286 GTGAGGGGVGSGGGSKR 104 //14 9//65 1.0805 1 IKIVAPPER 329 1//16 15//82 4.3105 1.30769231 IKIVAPPER 329 2//16 20//82 4.33575 1.61538462 IKIVAPPER 329 //17 33//143 9.8265 2.20454546 MQKEITALAPSTMK 316 //17 25//138 7.2705 1.43181818 EITALAPSTMKIK 327 1//17 32//139 12.58975 2.25 EITALAPSTMKIK 327 //17 18//139 5.5595 1.09090909 AKLESSPGSAAVR 59 1//13 13//57 2.17325 1.13636364 AKLESSPGSAAVR 59 2//13 16//57 2.079 1.18181818 WVPIASASEKK 56 //11 4//45 0.3855 0.22222222 VMQAVDKVR 26 //13 22//72 6.89 2.79166667 VMQAVDKVR 26 //13 19//72 6.737 2.29166667 AKDDIKR 14 1//11 16//49 4.5215 2.8125 MFQLLPSKK 224 //12 9//56 1.396 1.11111111 KFLEK 976 2//10 15//43 4.723 2.5 KAFPTSHR 420 //10 18//118 2.1145 0.825 KAFPTSHR 420 //10 16//118 1.699 0.725 IQNFLNDKEK 28 //14 29//83 12.1035 3.69230769 YKEILENSENFNTR 32 //12 15//51 4.03225 1.75 YKEILENSENFNTR 32 1//12 16//51 3.83325 1.75 YKEILENSENFNTR 32 3//12 17//51 2.15025 1.6 YKEILENSENFNTR 32 2//12 9//51 1.01475 0.7 YKEILENSENFNTR 32 //12 13//51 2.85125 1.35 YKEILENSENFNTR 32 //12 10//51 2.3225 1.15 IQNFLNDKEK 28 //14 18//83 5.11575 1.73076923 YKEILENSENFNTR 32 //12 5//51 0.60375 0.35 KGGGNR 236 //13 9//62 2.91825 1.1 KNAVEGESDR 243 1//7 6//31 1.26925 1.41666667 RKNAVEGESDR 243 //7 3//31 0.5435 0.41666667 KNAVEGESDR 243 1//8 3//37 0.15175 0.21428571 KNAVEGESDR 243 1//7 6//31 0.89475 1.08333333 KNAVEGESDR 243 1//7 6//31 0.90575 1.41666667 KNAVEGESDRK 243 //8 1//37 0.125 0.07142857 RKNAVEGESDR 243 //7 5//31 0.817 0.75 KNAVEGESDR 243 1//8 2//37 0.03675 0.14285714 RKNAVEGESDR 243 1//7 7//31 0.83075 1.41666667 KGGGNR 236 1//11 9//55 3.9175 1.45 KNAVEGESDRK 243 //8 1//37 0.09125 0.07142857 KNAVEGESDR 243 1//7 6//31 0.9785 1.41666667 KGGGNR 236 1//11 9//55 3.615 1.3 KNAVEGESDR 243 //8 2//37 0.308 0.28571429 KNAVEGESDR 243 1//7 6//31 0.8115 1.16666667 RKNAVEGESDR 243 //7 3//31 0.481 0.41666667 KNAVEGESDR 243 //8 1//37 0.125 0.07142857 RKNAVEGESDR 243 //7 4//31 0.5055 0.75 KGGGNR 236 1//12 13//64 3.22575 1.22727273 RKNAVEGESDR 243 //7 4//31 0.5015 0.66666667 KNAVEGESDR 243 //8 2//37 0.13975 0.14285714 KNAVEGESDR 243 //7 3//31 0.2925 0.41666667 KGGGNR 236 //12 16//59 3.9495 1.94444444 KGGGNR 236 //12 12//59 2.2815 1.5 KTNMPEELVSCSDCGR 400 //7 4//26 0.61775 0.75 KTNMPEELVSCSDCGR 400 //7 3//26 0.4355 0.41666667 KGGGNR 236 //16 24//105 7.85225 1.96875 KNAVEGESDR 243 //6 4//27 0.85725 0.9 KNAVEGESDR 243 //6 3//27 0.7195 0.8 KNAVEGESDR 243 //6 3//27 0.6685 0.8 KKCSR 215 //11 12//61 3.72075 1.2 KKCSR 215 3//14 20//83 7.17825 2.63636364 KKCSR 215 3//14 19//83 6.24325 2.45454546 KKCSR 215 1//13 17//61 5.563 2.35 KKCSR 215 2//14 20//68 4.3245 1.81818182 RKNAVEGESDR 243 //11 13//56 5.8835 2 RKNAVEGESDR 243 //11 13//70 4.782 1.72727273 RKNAVEGESDR 243 //11 15//57 4.65875 2.04545455 RKNAVEGESDR 243 //11 13//57 4.42875 1.7 KNAVEGESDR 243 1//11 15//57 4.38075 1.8 RKNAVEGESDR 243 //11 10//56 3.126 1.25 RKNAVEGESDR 243 //11 13//57 3.09325 1.7 RKNAVEGESDR 243 //11 10//57 2.8025 1.5 RKNAVEGESDR 243 //11 11//57 2.582 1.35 KNAVEGESDR 243 //11 7//59 2.0885 1.05 RKNAVEGESDR 243 //11 10//57 1.944 0.95 KNAVEGESDR 243 //11 10//59 1.897 1.05 RKNAVEGESDR 243 //11 9//57 1.77625 0.8 RKNAVEGESDR 243 //11 8//57 1.668 0.85 RKNAVEGESDR 243 //11 7//57 1.31225 0.6 RKNAVEGESDR 243 //4 3//17 0.6345 0.625 KNAVEGESDR 243 1//6 3//17 0.2365 0.375 KTNMPEELVSCSDCGR 400 //11 8//50 2.14725 1.1 KNAVEGESDR 243 //16 29//104 9.96125 2.65625 KNAVEGESDR 243 //16 31//104 8.43625 2.84375 KNAVEGESDR 243 //16 31//104 7.82 2.40625 KNAVEGESDR 243 //16 30//104 8.31975 2.78125 KTNMPEELVSCSDCGR 400 //11 7//50 1.7595 0.9 KNAVEGESDR 243 //16 16//104 3.973 1.09375 KNAVEGESDR 243 //7 2//33 0.446 0.33333333 KNAVEGESDR 243 //7 2//33 0.4 0.33333333 KNAVEGESDR 243 //5 3//23 0.25575 0.3 KNAVEGESDRK 243 //7 3//40 0.40825 0.41666667 KNAVEGESDRK 243 //7 3//40 0.42775 0.41666667 TNANVEGTPKR 232 //7 4//33 0.33475 0.5 TNANVEGTPKR 232 //5 3//23 0.25 0.3 TNANVEGTPKR 232 //5 3//21 0.456 1 TNANVEGTPKR 232 //5 3//21 0.5335 1 RTNANVEGTPKR 232 1//5 4//21 0.78025 1.125 TNANVEGTPKR 232 //7 5//40 0.5115 0.75 TNANVEGTPKR 232 //7 4//40 0.42375 0.5 TNANVEGTPKR 232 //5 3//21 0.3965 1 TNANVEGTPKR 232 //5 2//21 0.14625 0.25 RTNANVEGTPKR 232 //14 14//78 5.4565 1.875 RTNANVEGTPKR 232 //14 10//78 3.8095 1.08333333 RTNANVEGTPKR 232 //14 10//63 3.56675 1.18181818 RTNANVEGTPKR 232 //14 9//78 2.79725 1 RTNANVEGTPKR 232 //4 3//17 0.60925 0.625 RTNANVEGTPKR 232 //4 2//21 0.4885 0.5 TNANVEGTPKR 232 1//11 17//56 5.94925 2.35 KNAVEGESDRK 243 //13 20//56 8.152 2.5 RTNANVEGTPKR 232 //12 23//62 9.6565 3.18181818 RTNANVEGTPKR 232 1//12 17//76 3.878 1.68181818 TNANVEGTPKR 232 //11 14//56 5.2765 2.05 TNANVEGTPKR 232 //11 14//56 5.14575 2.05 RTNANVEGTPKR 232 //11 17//54 6.30275 2.45 RTNANVEGTPKR 232 //11 17//54 5.93 2.45 RTNANVEGTPKR 232 //11 12//66 3.82525 1.65 RTNANVEGTPKR 232 //11 16//54 5.59625 2.1 KNAVEGESDR 243 2//13 20//57 4.1775 2.25 KNAVEGESDR 243 3//14 18//65 3.21525 1.86363636 RTNANVEGTPKR 232 //11 12//66 3.7725 1.55 KNAVEGESDR 243 4//13 20//57 3.94075 2.1 RTNANVEGTPKR 232 //11 10//69 1.8845 1.18181818 RTNANVEGTPKR 232 //11 12//69 2.18525 1.40909091 KNAVEGESDRK 243 2//14 12//64 3.14225 1.27272727 RTNANVEGTPKR 232 1//11 15//54 4.8895 1.65 RTNANVEGTPKR 232 1//11 14//66 3.34075 1.75 TNANVEGTPKR 232 //12 14//78 3.82475 1.86363636 KNAVEGESDRK 243 //14 11//79 2.67075 1.09090909 RTNANVEGTPKR 232 //11 9//69 3.022 1.04545455 RTNANVEGTPKR 232 //11 11//66 3.565 1.45 KNAVEGESDRK 243 2//14 13//79 3.38475 1.31818182 RTNANVEGTPKR 232 //11 13//54 4.8335 1.85 KNAVEGESDR 243 2//13 17//57 2.96175 1.6 TNANVEGTPKR 232 //11 9//56 3.8215 1.45 RTNANVEGTPKR 232 //11 14//54 5.02075 1.75 TNANVEGTPKR 232 //11 9//56 3.03125 1.1 RKNAVEGESDR 243 //13 12//56 5.52 1.54545455 RTNANVEGTPKR 232 //11 16//54 4.31625 2.1 RTNANVEGTPKR 232 //11 9//69 2.984 1.04545455 TNANVEGTPKR 232 //11 12//57 3.39825 1.55 TNANVEGTPKR 232 //11 14//56 2.7865 1.45 TNANVEGTPKR 232 //11 10//57 2.03425 0.8 RTNANVEGTPKR 232 //11 10//69 2.15175 1.31818182 RTNANVEGTPKR 232 //11 9//69 1.47725 1.04545455 RTNANVEGTPKR 232 //11 9//69 0.84225 0.86363636 RTNANVEGTPKR 232 //11 13//54 4.98975 1.85 RTNANVEGTPKR 232 //11 8//54 3.035 1.1 RTNANVEGTPKR 232 //11 9//69 1.981 1.04545455 RTNANVEGTPKR 232 //11 8//69 0.61825 0.59090909 RTNANVEGTPKR 232 //11 5//69 0.42675 0.22727273 KNAVEGESDRK 243 //13 12//56 3.5655 1.22727273 TNANVEGTPKR 232 //11 11//70 3.424 1.25 KNAVEGESDR 243 3//14 9//80 1.02525 0.59090909 RKNAVEGESDR 243 2//13 14//69 4.3025 1.81818182 RTNANVEGTPKR 232 //11 10//69 1.74575 1.18181818 TNANVEGTPKR 232 //11 11//56 3.234 1.4 RTNANVEGTPKR 232 //11 8//69 2.41725 1 RTNANVEGTPKR 232 //11 10//66 2.25625 1.05 RKNAVEGESDR 243 //14 7//79 2.22825 0.81818182 RKNAVEGESDR 243 1//13 13//56 3.31375 1.45454546 KNAVEGESDR 243 2//13 15//57 1.62 1.35 RTNANVEGTPKR 232 //11 8//69 2.829 1 RTNANVEGTPKR 232 //11 12//54 3.137 1.35 RKNAVEGESDR 243 //14 11//79 3.10075 1.36363636 TNANVEGTPKR 232 //11 9//57 1.602 0.75 RTNANVEGTPKR 232 //11 11//66 2.455 1.1 RTNANVEGTPKR 232 //12 12//62 3.07225 1.36363636 RTNANVEGTPKR 232 //11 8//69 0.93375 0.81818182 RTNANVEGTPKR 232 //11 7//69 0.48575 0.40909091 RTNANVEGTPKR 232 //11 7//54 2.35475 1.05 DIAQPSPYCDFCLGDQRENKK 399 //14 5//75 0.26125 0.29166667 DIAQPSPYCDFCLGDQRENKK 399 //14 5//75 0.27825 0.20833333 RTNANVEGTPKR 232 //7 7//31 1.3845 1.5 RTNANVEGTPKR 232 //7 5//31 1.436 1.08333333 RTNANVEGTPKR 232 //7 4//31 0.747 0.75 RTNANVEGTPKR 232 //7 6//38 1.695 1.66666667 TNANVEGTPKR 232 //7 4//31 0.80075 0.75 KGGGNR 236 2//13 17//59 5.641 2.6 TNANVEGTPKR 232 //7 4//31 0.69575 0.75 RTNANVEGTPKR 232 //7 4//31 0.992 0.75 RTNANVEGTPKR 232 //7 4//38 0.9165 1 TNANVEGTPKR 232 //7 5//31 1.0515 1.33333333 RTNANVEGTPKR 232 //7 6//38 1.5255 1.66666667 RTNANVEGTPKR 232 //8 3//44 0.1905 0.21428571 RTNANVEGTPKR 232 1//7 7//38 1.282 1.5 TNANVEGTPKR 232 //7 4//31 0.677 1 TNANVEGTPKR 232 //7 3//31 0.5205 0.41666667 GRKGGGNR 236 //15 11//97 3.98175 1.125 TNANVEGTPKR 232 //7 4//31 0.71325 0.75 KGGGNR 236 2//13 18//59 4.82125 2.25 RTNANVEGTPKR 232 //8 1//44 0.0465 0.07142857 TNANVEGTPKR 232 //7 3//31 0.4515 0.66666667 RTNANVEGTPKR 232 //7 5//38 1.014 1.33333333 RTNANVEGTPKR 232 //7 3//31 0.59975 0.41666667 RTNANVEGTPKR 232 //7 4//31 0.8835 0.66666667 RTNANVEGTPKR 232 //8 5//36 0.765 0.5 TNANVEGTPKR 232 //7 4//31 0.4565 0.75 RTNANVEGTPKR 232 //7 4//31 0.991 0.66666667 TNANVEGTPKR 232 //8 2//45 0.5455 0.28571429 KGGGNR 236 2//14 17//68 2.38975 2.09090909 RTNANVEGTPKR 232 //7 5//31 0.777 0.83333333 KGGGNR 236 2//14 10//81 2.62125 1.04545455 RTNANVEGTPKR 232 //8 3//36 0.353 0.21428571 KGGGNR 236 //14 10//81 2.0135 0.90909091 RTNANVEGTPKR 232 //7 3//31 0.3845 0.41666667 KGGGNR 236 1//14 10//81 1.53 1.04545455 KGGGNR 236 3//13 11//59 1.42975 1.3 RTNANVEGTPKR 232 //7 4//31 0.399 0.66666667 TNANVEGTPKR 232 //16 24//103 8.17175 2.03125 RTNANVEGTPKR 232 1//16 29//132 8.54975 2.1875 TNANVEGTPKR 232 //16 21//103 5.75325 1.625 KTNMPEELVSCSDCGR 400 //14 15//147 3.40425 0.80555556 KTNMPEELVSCSDCGR 400 //14 13//147 2.358 0.69444444 KTNMPEELVSCSDCGR 400 //14 13//147 2.056 0.55555556 KTNMPEELVSCSDCGR 400 //14 13//147 2.94725 0.69444444 NNKAQLAR 535 //16 18//83 4.62575 1.80769231 NNKAQLAR 535 //16 14//105 2.6915 1.15384615 NNKAQLAR 535 //16 13//83 1.326 0.76923077 NNKAQLAR 535 1//16 13//84 2.05575 0.96153846 NNKAQLAR 535 //16 15//105 1.97025 1.07692308 NNKAQLAR 535 //16 10//106 1.703 0.88461539 NNKAQLAR 535 //16 11//83 1.71025 0.80769231 NNKAQLAR 535 //16 11//106 1.284 0.76923077 KILQR 1475 //16 9//85 1.48125 0.53846154 KILQR 1475 //16 5//110 1.5945 0.61538462 KEEEGK 620 1//8 15//45 2.39725 2.28571429 KEEEGKR 620 2//8 12//54 2.21025 1.85714286 KEEEGKR 620 //7 9//38 0.91875 1.08333333 IQWKYMIIDEGHRMK 895 //11 19//179 2.6305 0.69047619 KLIDQKK 586 2//7 7//23 1.839 1.5 IEKER 565 //16 16//108 4.5205 1.53846154 IEKER 565 //16 14//108 3.85975 1.23076923 IEKER 565 //16 17//86 4.32075 1.42307692 IEKER 565 //16 10//106 2.285 0.73076923 KEQER 558 //16 15//86 5.38375 1.76923077 KEQER 558 //16 16//108 4.911 1.80769231 KEQER 558 //16 12//86 3.708 1.30769231 KILQR 1475 1//14 21//74 6.06325 2.54545455 KILQR 1475 2//14 20//74 5.579 2.31818182 TLSEPFMKLPSR 1453 //6 5//26 1.152 1.6 TLSEPFMKLPSR 1453 //6 5//26 1.126 1.6 TLSEPFMKLPSR 1453 //6 5//26 1.1515 1.6 VHVVEQCTGKK 663 //16 18//103 3.9185 1.53846154 VHVVEQCTGKK 663 //16 13//79 2.1845 0.96153846 VHVVEQCTGKK 663 //16 8//79 1.524 0.69230769 IEKER 565 //10 7//44 0.95125 0.78571429 AQATGNDEDAKDLITK 730 //9 9//42 2.28025 1.27777778 AIDSMEEKGLQEDPR 151 //17 10//131 2.07875 0.71875 IEKER 565 //10 9//46 2.7095 1.35714286 IEKER 565 //10 12//42 1.696 2.07142857 IEKER 565 //10 8//42 1.0515 1.28571429 KKEDEEIHPGR 1310 5//12 22//65 9.5655 3.4 KKEDEEIHPGR 1310 2//12 17//52 8.24625 2.35 SEEEIEIFKR 1303 //12 13//67 3.7435 1.68181818 KKEDEEIHPGR 1310 //12 14//52 7.7085 2.1 KKEDEEIHPGR 1310 3//12 15//65 5.263 2.05 KKEDEEIHPGR 1310 3//12 17//65 6.596 2.45 KKEDEEIHPGR 1310 3//12 15//65 4.8625 2.05 KKEDEEIHPGR 1310 //12 16//52 6.82675 2.3 SEEEIEIFKR 1303 //12 9//67 2.02375 1.31818182 KKEDEEIHPGR 1310 //12 10//52 4.7605 1.45 SEEEIEIFKR 1303 //12 8//67 1.043 0.59090909 KKEDEEIHPGR 1311 1//12 17//65 8.0745 2.65 KKEDEEIHPGR 1311 1//12 18//65 7.862 2.55 SEEEIEIFKR 1303 //11 10//75 2.3525 1 KKEDEEIHPGR 1311 //12 15//65 6.873 2.4 KKEDEEIHPGR 1311 //12 9//52 4.195 1.4 SEEEIEIFKR 1303 1//11 10//60 2.59425 1 VKTDVDMHETPSR 173 //10 13//152 2.864 0.62 GGGSKSQHER 189 //13 14//77 5.94725 1.75 GGGSKSQHER 189 //13 18//97 5.3665 1.875 HCKPAVDEETFQK 300 1//16 25//79 11.95025 3.15384615 HCKPAVDEETFQK 300 //16 23//79 10.217 2.53846154 MVESSEAFQEELKR 296 2//15 14//71 2.36375 1.15384615 HCKPAVDEETFQK 300 //16 14//79 5.72 1.38461539 MVESSEAFQEELKR 296 1//12 21//134 6.17425 1.65625 MVESSEAFQEELKR 296 //15 14//90 3.03725 1.26923077 MVESSEAFQEELKR 296 1//15 15//90 3.60775 1.61538462 HCKPAVDEETFQK 300 1//16 14//79 5.72175 1.5 MVESSEAFQEELKR 296 1//15 15//90 2.447 1.03846154 HCKPAVDEETFQK 300 //16 11//102 3.82225 0.92307692 HCKPAVDEETFQK 300 //16 13//102 3.265 1 MVESSEAFQEELKR 296 //15 9//71 0.59575 0.42307692 MVESSEAFQEELKR 296 1//12 17//134 2.8035 1.09375 HCKPAVDEETFQK 300 //16 9//102 1.654 0.61538462 LLPEDEKTEFIDEYEAEKLEYEK 146 //14 5//138 0.36775 0.27777778 NKDQTPIFTHSNYGNPAFTPQKVTK 67 2//13 8//71 2.794 0.86363636 VKTDVDMHETPSR 173 //16 29//129 8.33575 2.25 NKDQTPIFTHSNYGNPAFTPQKVTK 67 //12 4//60 0.62775 0.45 MQVLKR 253 1//12 7//56 1.032 0.83333333 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //12 5//60 1.1765 0.8 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //12 5//60 1.1825 0.8 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 //12 5//60 0.6915 0.65 SKLTSEEFAQPNAEVK 2097 //20 7//132 1.103 0.33333333 KRTELASSSR 2048 //6 7//27 1.8505 1.3 TTAKDEAR 2156 //16 34//133 11.9635 2.04545455 QKAWDIDTNR 1989 //10 7//64 1.41975 0.72222222 QKAWDIDTNR 1989 //10 6//64 1.2225 0.55555556 KDGSPNIDFFQSPETLQGFESIR 8 //14 9//59 3.00875 1.04166667 KDGSPNIDFFQSPETLQGFESIR 8 //14 9//59 2.76275 1.20833333 KDGSPNIDFFQSPETLQGFESIR 8 //14 8//59 2.459 1 KDGSPNIDFFQSPETLQGFESIR 8 //14 8//59 2.03525 0.875 KDGSPNIDFFQSPETLQGFESIR 8 //14 6//59 1.639 0.70833333 PLGKDGGLELGDK 594 //10 13//38 3.8745 2.3125 AKHLAALEER 962 1//10 18//64 8.05125 2.55 AKHLAALEER 962 //10 14//53 4.69625 1.95 AKHLAALEER 962 //11 26//131 8.52775 1.93181818 AKHLAALEER 962 //11 24//131 6.43825 1.65909091 AKHLAALEER 962 //11 26//178 4.3475 1.06818182 AKHLAALEER 962 //11 18//178 5.43575 1.09090909 AKHLAALEER 962 //11 16//178 2.7715 0.77272727 AKHLAALEER 962 //11 16//178 3.04225 0.77272727 NVEKASAGGK 775 //11 24//131 4.08175 1.31818182 MSIDDIMSFGDEKK 292 2//17 25//141 7.37475 1.41304348 AMPEFFNSKNK 479 //11 12//59 3.48125 1.7 AKHLAALEER 962 //13 33//181 9.454 1.4137931 AKHLAALEER 962 //13 31//181 8.2225 1.4137931 AKHLAALEER 962 //13 25//181 6.25725 0.96551724 AKHLAALEER 962 1//13 31//249 6.408 0.94827586 AKHLAALEER 962 //13 25//249 6.16075 0.86206897 AKHLAALEER 962 //13 25//249 5.6665 0.81034483 DGGLELGDKSGLTGIK 603 //14 8//83 1.199 0.66666667 EITALAPSTMKIKIIAPPER 327 //17 14//136 4.12425 0.68181818 EITALAPSTMKIKIIAPPER 329 1//17 20//136 6.6515 1.09090909 IKIIAPPER 329 //17 27//143 7.9435 1.81818182 IKIIAPPER 329 //17 25//143 7.724 1.45454546 IKIIAPPER 329 //17 19//143 6.762 1.09090909 IKIIAPPER 329 //17 18//143 4.64425 0.84090909 IKIIAPPER 329 //17 13//143 3.48925 0.59090909 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 //14 13//77 4.52575 1.34615385 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 2//14 16//99 7.25575 1.84615385 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 //14 12//77 4.8235 1.46153846 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 //14 9//77 3.725 1.07692308 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 1//14 14//99 6.023 1.65384615 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 1//14 19//99 5.6845 1.69230769 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 //14 9//77 3.1515 0.92307692 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 1//14 10//99 3.992 0.96153846 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 //14 7//77 1.11725 0.42307692 AEIPSVVGIGAAPETNLDPETKTDNNATPNNADQR 58 //14 4//77 1.08475 0.34615385 SNMEVQTYMKDGMIDNWDLFEK 94 //8 29//235 9.72425 1.05128205 SNMEVQTYMKDGMIDNWDLFEK 94 //8 24//235 8.949 0.82051282 SNMEVQTYMKDGMIDNWDLFEK 94 //8 23//235 8.325 0.84615385 SNMEVQTYMKDGMIDNWDLFEK 94 //8 25//235 8.4935 0.88461539 SNMEVQTYMKDGMIDNWDLFEK 94 //8 25//235 8.00025 0.7948718 SNMEVQTYMKDGMIDNWDLFEK 94 //8 26//330 8.24225 0.76923077 SNMEVQTYMKDGMIDNWDLFEK 94 //8 22//235 6.31625 0.62820513 peptide2 protein2 R.LLEDGKGDPNTK[1155.62]IK.R sp|Q9VYG2|BAP60_DROME:229 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.IFISNTFYPSK[1912.9]EPTNDGEEGAVASWELRVEGR.L sp|Q9VYG2|BAP60_DROME:196 R.THTTQETDGFQVK[3422.67]RPGDR.N sp|Q9VYG2|BAP60_DROME:274 R.THTTQETDGFQVK[3863.9]R.P sp|Q9VYG2|BAP60_DROME:274 R.IFISNTFYPSK[1912.88]EPTNDGEEGAVASWELRVEGR.L sp|Q9VYG2|BAP60_DROME:196 R.EFFLSFAK[2081.08]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.06]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.07]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.03]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 K.IHETVDTINQMK[2278.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.EFFLSFAK[2081.05]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[2081.04]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 K.IHETVDTINQMK[2278.16]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.EFFLSFAK[2081.08]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 K.IHETVDTINQM[147.04]K[1118.71]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.EFFLSFAK[1118.71]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.EFFLSFAK[1118.74]DPQM[147.04]FIHR.W sp|Q9VYG2|BAP60_DROME:446 R.GTGAGGGGVGSGGGSK[1400.74]R.S sp|Q9VYG2|BAP60_DROME:104 K.IHETVDTINQM[147.04]K[1583.8]TNR.E sp|Q9VYG2|BAP60_DROME:435 R.LDIQEALK[1583.78]RPM[147.04]K.Q sp|Q9VYG2|BAP60_DROME:175 R.M[147.04]QK[1287.76]EITALAPSTM[147.04]K.I sp|P10987|ACT1_DROME:316 sp|P02572|ACT2_DROME:316 R.M[147.04]QK[1287.77]EITALAPSTM[147.04]K.I sp|P10987|ACT1_DROME:316 sp|P02572|ACT2_DROME:316 R.K[1287.81]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[1845.9]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[1683.95]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[1683.92]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 K.WVPIASASEK[1537.85]K.A tr|O76857|O76857_DROME:56 K.WVPIASASEK[1537.85]K.A tr|O76857|O76857_DROME:56 R.VMQAVDK[1480.83]VR.H tr|O76857|O76857_DROME:26 K.AK[1326.74]LESSPGSAAVR.R tr|O76857|O76857_DROME:59 K.AK[1326.73]LESSPGSAAVR.R tr|O76857|O76857_DROME:59 R.VM[147.04]QAVDK[1110.63]VR.H tr|O76857|O76857_DROME:26 R.THK[284.17]DALK[1356.81]MLK.L tr|Q9VC36|Q9VC36_DROME:434 R.VM[147.04]SVFK[929.55]ER.L tr|Q9VC36|Q9VC36_DROME:1069 R.FHPEYFELIK[1208.69]RPISM[147.04]SQIHTK.L tr|Q9VC36|Q9VC36_DROME:384 R.FHPEYFELIK[1208.62]RPISM[147.04]SQIHTK.L tr|Q9VC36|Q9VC36_DROME:384 K.YK[1513.83]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 K.IQNFLNDK[2022.01]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 K.IQNFLNDK[2022.01]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 K.IQNFLNDK[2022.01]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 K.IQNFLNDK[2022.01]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 K.IQNFLNDK[2022.01]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 K.IQNFLNDK[2022.01]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 K.YK[1513.85]EILENSENFNTR.L tr|Q7K3G5|Q7K3G5_DROME:32 K.IQNFLNDK[2022.01]EK.Y tr|Q7K3G5|Q7K3G5_DROME:28 K.NAVEGESDRK[853.46]R.R tr|Q7K3G5|Q7K3G5_DROME:253 R.K[1369.68]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1525.78]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1369.68]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1369.68]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1369.68]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1497.78]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1525.78]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1369.68]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1525.78]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[853.45]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1497.78]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1369.68]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[853.45]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1369.68]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1369.68]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1525.78]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1369.68]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1525.78]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[853.5]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1525.78]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1369.68]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1369.68]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 K.LC[160.03]M[147.04]EEFHK[853.48]IK. tr|Q7K3G5|Q7K3G5_DROME:495 K.LC[160.03]M[147.04]EEFHK[853.49]IK. tr|Q7K3G5|Q7K3G5_DROME:495 R.K[2147.96]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[2147.96]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 K.K[853.45]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 R.K[1369.68]KC[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:215 R.K[1369.68]KC[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:215 R.K[1369.68]KC[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:215 R.RK[943.53]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RTNANVEGTPK[1099.6]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RTNANVEGTPK[1099.62]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.TNANVEGTPK[1099.61]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RTNANVEGTPK[1099.6]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1525.78]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.78]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.78]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.79]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1369.7]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1525.78]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.8]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.75]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.76]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1369.68]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1369.65]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.8]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.8]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1525.79]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 K.VK[1525.78]QR.V tr|Q7K3G5|Q7K3G5_DROME:374 R.KPK[1369.68]R.Q tr|Q7K3G5|Q7K3G5_DROME:97 R.K[2147.96]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 K.K[1369.67]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 K.K[1369.68]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 K.K[1369.7]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 K.K[1369.66]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 R.K[2147.96]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 K.K[1369.7]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 K.K[1369.68]C[160.03]SRPR.R tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1369.68]C[160.03]SRPR.R tr|Q7K3G5|Q7K3G5_DROME:216 R.KK[1369.68]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1497.78]C[160.03]SRPR.R tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1497.78]C[160.03]SRPR.R tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1451.77]C[160.03]SRPR.R tr|Q7K3G5|Q7K3G5_DROME:216 R.KK[1451.77]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1451.77]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1451.77]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1607.87]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1451.77]C[160.03]SRPR.R tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1451.77]C[160.03]SRPR.R tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1451.77]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:216 K.K[1451.77]C[160.03]SR.P tr|Q7K3G5|Q7K3G5_DROME:216 R.RTNANVEGTPK[1607.87]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RTNANVEGTPK[1607.87]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RTNANVEGTPK[1607.88]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RTNANVEGTPK[1607.84]R.G tr|Q7K3G5|Q7K3G5_DROME:232 K.VK[1607.87]QR.V tr|Q7K3G5|Q7K3G5_DROME:374 K.VK[1607.87]QR.V tr|Q7K3G5|Q7K3G5_DROME:374 R.K[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.TNANVEGTPK[1497.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.TNANVEGTPK[1369.66]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RTNANVEGTPK[1369.71]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.TNANVEGTPK[1369.68]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RTNANVEGTPK[1497.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1451.79]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 R.RTNANVEGTPK[1497.75]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RTNANVEGTPK[1497.76]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.TNANVEGTPK[1369.64]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.TNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1451.75]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.TNANVEGTPK[1497.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RK[1451.75]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RTNANVEGTPK[1369.66]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.TNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1451.77]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RTNANVEGTPK[1525.77]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.TNANVEGTPK[1525.78]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.TNANVEGTPK[1369.65]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RTNANVEGTPK[1525.75]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RK[1451.76]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDRK.R tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RK[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.K[1607.87]NAVEGESDR.K tr|Q7K3G5|Q7K3G5_DROME:243 R.RTNANVEGTPK[2806.31]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.RTNANVEGTPK[2806.31]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1451.77]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.TNANVEGTPK[853.46]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1451.77]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1451.77]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1451.77]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1451.77]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.TNANVEGTPK[1066.58]RGR.K tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1451.77]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.TNANVEGTPK[853.45]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1451.77]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1451.77]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.K[1451.77]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.RTNANVEGTPK[853.45]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.RTNANVEGTPK[853.46]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]GGGNRR.K tr|Q7K3G5|Q7K3G5_DROME:236 R.RTNANVEGTPK[853.45]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 R.RTNANVEGTPK[853.45]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.TNANVEGTPK[853.45]R.G tr|Q7K3G5|Q7K3G5_DROME:232 R.K[1607.87]GGGNR.R tr|Q7K3G5|Q7K3G5_DROME:236 K.K[1451.79]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 K.K[1607.88]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 K.K[1451.78]TNM[147.04]PEELVSC[160.03]SDC[160.03]GR.S tr|Q7K3G5|Q7K3G5_DROME:400 R.SGHPSC[160.03]LQFTANM[147.04]IISVK[2164.03]R.Y tr|Q7K3G5|Q7K3G5_DROME:433 R.SGHPSC[160.03]LQFTANM[147.04]IISVK[2163.98]R.Y tr|Q7K3G5|Q7K3G5_DROME:433 R.SGHPSC[160.03]LQFTANM[147.04]IISVK[2163.95]R.Y tr|Q7K3G5|Q7K3G5_DROME:433 R.SGHPSC[160.03]LQFTANM[147.04]IISVK[2163.95]R.Y tr|Q7K3G5|Q7K3G5_DROME:433 R.M[147.04]NK[1179.67]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[1179.67]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[1179.67]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.MNK[1179.68]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[1179.65]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.MNK[1179.68]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[1179.64]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.MNK[1179.63]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 K.VEYIIK[922.58]C[160.03]DMSALQR.V sp|P25439|BRM_DROME:1016 K.VEYIIK[922.59]C[160.03]DMSALQR.V sp|P25439|BRM_DROME:1016 K.Q[111.03]HK[984.51]DDQM[147.04]KK.K sp|P25439|BRM_DROME:613 K.Q[111.03]HK[1140.61]DDQM[147.04]KK.K sp|P25439|BRM_DROME:613 K.Q[111.03]HK[1140.59]DDQM[147.04]K.K sp|P25439|BRM_DROME:613 K.LNM[147.04]DEK[284.17]VIQAGMFDQK[2229.09]STGSER.Q sp|P25439|BRM_DROME:1255 R.IEK[1137.71]ER.M sp|P25439|BRM_DROME:565 R.M[147.04]NK[939.54]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[939.53]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[939.54]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.MNK[939.54]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[954.51]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[954.52]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.M[147.04]NK[954.53]AVM[147.04]NHHANAER.E sp|P25439|BRM_DROME:543 R.TLSEPFM[147.04]K[922.59]LPSR.Q sp|P25439|BRM_DROME:1453 R.TLSEPFM[147.04]K[922.59]LPSR.Q sp|P25439|BRM_DROME:1453 K.K[1670.91]ILQR.I sp|P25439|BRM_DROME:1475 K.K[1670.91]ILQR.I sp|P25439|BRM_DROME:1475 K.K[1670.91]ILQR.I sp|P25439|BRM_DROME:1475 K.LTGDDAPM[147.04]LK[1549.83]HLHR.W sp|P25439|BRM_DROME:674 K.LTGDDAPM[147.04]LK[1549.8]HLHR.W sp|P25439|BRM_DROME:674 K.LTGDDAPM[147.04]LK[1549.83]HLHR.W sp|P25439|BRM_DROME:674 R.EQKK[939.52]EQER.I sp|P25439|BRM_DROME:558 K.AK[1954.98]VEDDEYR.T sp|P25439|BRM_DROME:737 R.ATSK[1998.94]HQHLNGNQVNLLR.T sp|P25439|BRM_DROME:170 R.EQK[939.57]K[284.17]EQER.I sp|P25439|BRM_DROME:557 R.EQK[939.52]KEQER.I sp|P25439|BRM_DROME:557 R.EQK[939.52]KEQER.I sp|P25439|BRM_DROME:557 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.K[1544.79]K[284.17]EDEEIHPGR.E sp|P25439|BRM_DROME:1310 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.K[1544.83]K[284.17]EDEEIHPGR.E sp|P25439|BRM_DROME:1310 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.K[1544.8]K[284.17]EDEEIHPGR.E sp|P25439|BRM_DROME:1310 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.KK[1544.83]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.SEEEIEIFK[1602.84]R.M sp|P25439|BRM_DROME:1303 R.KK[1544.81]EDEEIHPGR.E sp|P25439|BRM_DROME:1311 R.RIDIQPAEDEDDQDEGYTTK[1795.86]HLAYAR.Y tr|Q9W384|Q9W384_DROME:214 K.VK[1307.65]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 K.VK[1307.66]TDVDM[147.04]HETPSR.G tr|Q9W384|Q9W384_DROME:173 R.M[147.04]VESSEAFQEELK[1853.9]R.H tr|Q9W384|Q9W384_DROME:296 R.M[147.04]VESSEAFQEELK[1853.88]R.H tr|Q9W384|Q9W384_DROME:296 R.HC[160.03]K[1947.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.M[147.04]VESSEAFQEELK[1853.92]R.H tr|Q9W384|Q9W384_DROME:296 R.HC[160.03]K[1963.95]PAVDEETFQK[284.17]M[147.04]VLR.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1947.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1947.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.M[147.04]VESSEAFQEELK[1853.91]R.H tr|Q9W384|Q9W384_DROME:296 R.HC[160.03]K[1947.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.M[147.04]VESSEAFQEELK[1853.88]R.H tr|Q9W384|Q9W384_DROME:296 R.M[147.04]VESSEAFQEELK[1853.86]R.H tr|Q9W384|Q9W384_DROME:296 R.HC[160.03]K[1947.96]PAVDEETFQK.M tr|Q9W384|Q9W384_DROME:300 R.HC[160.03]K[1963.97]PAVDEETFQK[284.17]M[147.04]VLR.M tr|Q9W384|Q9W384_DROME:300 R.MVESSEAFQEELK[1853.85]R.H tr|Q9W384|Q9W384_DROME:296 K.SLK[3125.52]AYHQTPAYQAYMSAK.S tr|Q9W384|Q9W384_DROME:154 K.SSSSK[3098.58]NQNESR.L tr|Q9W384|Q9W384_DROME:75 K.AYHQTPAYQAYM[147.04]SAK[1795.88]SK.V tr|Q9W384|Q9W384_DROME:169 R.GGGSK[3098.58]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[1055.61]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[3314.57]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[3314.57]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.GGGSK[3314.57]SQHER.R tr|Q9W384|Q9W384_DROME:189 R.RLVSGGSSSSGAHAEGK[2043.05]K.S sp|Q8IN94|OSA_DROME:2094 R.K[1399.78]PEIK.T sp|Q8IN94|OSA_DROME:2058 R.Q[111.03]QQQLRPGPAGK[1156.59]QAASAGGSATVK.A sp|Q8IN94|OSA_DROME:2532 R.QK[1511.83]AWDIDTNR.L sp|Q8IN94|OSA_DROME:1989 R.QK[1511.81]AWDIDTNR.L sp|Q8IN94|OSA_DROME:1989 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.LGK[2877.42]NSADPPATR.I tr|Q9VF03|Q9VF03_DROME:70 K.TLLDLDK[1563.85]K.P tr|Q9VF03|Q9VF03_DROME:589 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AK[1402.79]HLAALEER.K tr|Q9VF03|Q9VF03_DROME:962 K.AAM[147.04]EEFAAIK[1402.79]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.81]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.77]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.78]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.77]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1402.82]DEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.AAM[147.04]EEFAAIK[1225.61]DEVPATIMDNHLK.N tr|Q9VF03|Q9VF03_DROME:758 K.K[1912.89]DGSPNIDFFQSPETLQGFESIR.Q tr|Q9VF03|Q9VF03_DROME:8 K.SK[1593.75]TPEIYM[147.04]AYR.N tr|Q9VF03|Q9VF03_DROME:483 R.VAAAAAK[1402.8]AAM[147.04]EEFAAIKDEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:748 R.VAAAAAK[1402.77]AAM[147.04]EEFAAIKDEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:748 R.VAAAAAK[1402.78]AAM[147.04]EEFAAIKDEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:748 R.VAAAAAK[1402.75]AAM[147.04]EEFAAIKDEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:748 R.VAAAAAK[1402.82]AAM[147.04]EEFAAIKDEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:748 R.VAAAAAK[1402.83]AAM[147.04]EEFAAIKDEVPATIM[147.04]DNHLK.N tr|Q9VF03|Q9VF03_DROME:748 K.TLLDLDKK[1824.98]PLGK.D tr|Q9VF03|Q9VF03_DROME:590 R.K[2616.45]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[2616.45]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[1301.84]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[1301.81]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[1301.82]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[1301.81]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[1301.77]DLYANTVLSGGTTM[147.04]YPGIADR.M sp|P10987|ACT1_DROME:292 sp|P02572|ACT2_DROME:292 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.K[3884.9]FYVDTNYVTVPR.S tr|Q7K012|Q7K012_DROME:72 R.ATALVVDSGATHTSAVPVHEGYVLSQAVVK[3007.38]SPLGGDFLSR.Q tr|Q7K012|Q7K012_DROME:199 R.ATALVVDSGATHTSAVPVHEGYVLSQAVVK[2991.34]SPLGGDFLSR.Q tr|Q7K012|Q7K012_DROME:199 R.ATALVVDSGATHTSAVPVHEGYVLSQAVVK[2975.35]SPLGGDFLSR.Q tr|Q7K012|Q7K012_DROME:199 R.ATALVVDSGATHTSAVPVHEGYVLSQAVVK[2991.26]SPLGGDFLSR.Q tr|Q7K012|Q7K012_DROME:199 R.ATALVVDSGATHTSAVPVHEGYVLSQAVVK[3007.28]SPLGGDFLSR.Q tr|Q7K012|Q7K012_DROME:199 R.ATALVVDSGATHTSAVPVHEGYVLSQAVVK[2975.31]SPLGGDFLSR.Q tr|Q7K012|Q7K012_DROME:199 R.ATALVVDSGATHTSAVPVHEGYVLSQAVVK[2975.31]SPLGGDFLSR.Q tr|Q7K012|Q7K012_DROME:199 Unique_(—) protein2 subunit2 realpep2 position2 1 BAP60 LLEDGKGDPNTKIK 229 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 IFISNTFYPSKEPTNDGEEGAVASWELRVEGR 196 1 BAP60 THTTQETDGFQVKRPGDR 274 1 BAP60 THTTQETDGFQVKR 274 1 BAP60 IFISNTFYPSKEPTNDGEEGAVASWELRVEGR 196 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 EFFLSFAKDPQMFIHR 446 1 BAP60 GTGAGGGGVGSGGGSKR 104 1 BAP60 IHETVDTINQMKTNR 435 1 BAP60 LDIQEALKRPMK 175 2 ACT2 MQKEITALAPSTMK 316 2 ACT2 MQKEITALAPSTMK 316 2 ACT2 KDLYANTVLSGGTTMYPGIADR 292 2 ACT2 KDLYANTVLSGGTTMYPGIADR 292 2 ACT2 KDLYANTVLSGGTTMYPGIADR 292 2 ACT2 KDLYANTVLSGGTTMYPGIADR 292 1 BCL7 WVPIASASEKK 56 1 BCL7 WVPIASASEKK 56 1 BCL7 VMQAVDKVR 26 1 BCL7 AKLESSPGSAAVR 59 1 BCL7 AKLESSPGSAAVR 59 1 BCL7 VMQAVDKVR 26 1 Polybromo THKDALKMLK 434 1 Polybromo VMSVFKER 1069 1 Polybromo FHPEYFELIKRPISMSQIHTK 384 1 Polybromo FHPEYFELIKRPISMSQIHTK 384 1 D4 YKEILENSENFNTR 32 1 D4 IQNFLNDKEK 28 1 D4 IQNFLNDKEK 28 1 D4 IQNFLNDKEK 28 1 D4 IQNFLNDKEK 28 1 D4 IQNFLNDKEK 28 1 D4 IQNFLNDKEK 28 1 D4 YKEILENSENFNTR 32 1 D4 IQNFLNDKEK 28 1 D4 NAVEGESDRKR 253 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 KNAVEGESDR 243 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 KNAVEGESDR 243 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 KNAVEGESDRK 243 1 D4 KGGGNR 236 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 LCMEEFHKIK 495 1 D4 LCMEEFHKIK 495 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KTNMPEELVSCSDCGR 400 1 D4 KKCSR 215 1 D4 KKCSR 215 1 D4 KKCSR 215 1 D4 RKNAVEGESDR 243 1 D4 RTNANVEGTPKR 232 1 D4 RTNANVEGTPKR 232 1 D4 TNANVEGTPKR 232 1 D4 RTNANVEGTPKR 232 1 D4 KNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 VKQR 374 1 D4 KPKR 97 1 D4 KNAVEGESDR 243 1 D4 KTNMPEELVSCSDCGR 400 1 D4 KTNMPEELVSCSDCGR 400 1 D4 KTNMPEELVSCSDCGR 400 1 D4 KTNMPEELVSCSDCGR 400 1 D4 KNAVEGESDR 243 1 D4 KTNMPEELVSCSDCGR 400 1 D4 KCSRPR 216 1 D4 KCSRPR 216 1 D4 KKCSR 216 1 D4 KCSRPR 216 1 D4 KCSRPR 216 1 D4 KCSRPR 216 1 D4 KKCSR 216 1 D4 KCSR 216 1 D4 KCSR 216 1 D4 KCSR 216 1 D4 KCSRPR 216 1 D4 KCSRPR 216 1 D4 KCSR 216 1 D4 KCSR 216 1 D4 RTNANVEGTPKR 232 1 D4 RTNANVEGTPKR 232 1 D4 RTNANVEGTPKR 232 1 D4 RTNANVEGTPKR 232 1 D4 VKQR 374 1 D4 VKQR 374 1 D4 KNAVEGESDR 243 1 D4 TNANVEGTPKR 232 1 D4 KNAVEGESDRK 243 1 D4 KNAVEGESDRK 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 TNANVEGTPKR 232 1 D4 RTNANVEGTPKR 232 1 D4 KNAVEGESDR 243 1 D4 TNANVEGTPKR 232 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RTNANVEGTPKR 232 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDRK 243 1 D4 RTNANVEGTPKR 232 1 D4 RKNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 RTNANVEGTPKR 232 1 D4 KNAVEGESDR 243 1 D4 TNANVEGTPKR 232 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 TNANVEGTPKR 232 1 D4 KNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 TNANVEGTPKR 232 1 D4 RKNAVEGESDR 243 1 D4 RTNANVEGTPKR 232 1 D4 TNANVEGTPKR 232 1 D4 RKNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 RTNANVEGTPKR 232 1 D4 TNANVEGTPKR 232 1 D4 TNANVEGTPKR 232 1 D4 RKNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 RTNANVEGTPKR 232 1 D4 RKNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 KNAVEGESDRK 243 1 D4 RKNAVEGESDR 243 1 D4 RKNAVEGESDR 243 1 D4 KNAVEGESDR 243 1 D4 RTNANVEGTPKR 232 1 D4 RTNANVEGTPKR 232 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 TNANVEGTPKR 232 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 TNANVEGTPKRGR 232 1 D4 KGGGNR 236 1 D4 TNANVEGTPKR 232 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNRR 236 1 D4 KGGGNR 236 1 D4 KGGGNR 236 1 D4 KGGGNRR 236 1 D4 RTNANVEGTPKR 232 1 D4 KGGGNR 236 1 D4 RTNANVEGTPKR 232 1 D4 KGGGNRR 236 1 D4 RTNANVEGTPKR 232 1 D4 KGGGNR 236 1 D4 RTNANVEGTPKR 232 1 D4 TNANVEGTPKR 232 1 D4 KGGGNR 236 1 D4 KTNMPEELVSCSDCGR 400 1 D4 KTNMPEELVSCSDCGR 400 1 D4 KTNMPEELVSCSDCGR 400 1 D4 SGHPSCLQFTANMIISVKR 433 1 D4 SGHPSCLQFTANMIISVKR 433 1 D4 SGHPSCLQFTANMIISVKR 433 1 D4 SGHPSCLQFTANMIISVKR 433 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm VEYIIKCDMSALQR 1016 1 brm VEYIIKCDMSALQR 1016 1 brm QHKDDQMKK 613 1 brm QHKDDQMKK 613 1 brm QHKDDQMK 613 1 brm LNMDEKVIQAGMFDQKSTGSER 1255 1 brm IEKER 565 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm MNKAVMNHHANAER 543 1 brm TLSEPFMKLPSR 1453 1 brm TLSEPFMKLPSR 1453 1 brm KILQR 1475 1 brm KILQR 1475 1 brm KILQR 1475 1 brm LTGDDAPMLKHLHR 674 1 brm LTGDDAPMLKHLHR 674 1 brm LTGDDAPMLKHLHR 674 1 brm EQKKEQER 558 1 brm AKVEDDEYR 737 1 brm ATSKHQHLNGNQVNLLR 170 1 brm EQKKEQER 557 1 brm EQKKEQER 557 1 brm EQKKEQER 557 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm KKEDEEIHPGR 1310 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm KKEDEEIHPGR 1310 1 brm SEEEIEIFKR 1303 1 brm KKEDEEIHPGR 1310 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm KKEDEEIHPGR 1311 1 brm SEEEIEIFKR 1303 1 brm SEEEIEIFKR 1303 1 brm KKEDEEIHPGR 1311 1 Bap111 RIDIQPAEDEDDQDEGYTTKHLAYAR 214 1 Bap111 VKTDVDMHETPSR 173 1 Bap111 VKTDVDMHETPSR 173 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 HCKPAVDEETFQKMVLR 300 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 HCKPAVDEETFQK 300 1 Bap111 HCKPAVDEETFQKMVLR 300 1 Bap111 MVESSEAFQEELKR 296 1 Bap111 SLKAYHQTPAYQAYMSAK 154 1 Bap111 SSSSKNQNESR 75 1 Bap111 AYHQTPAYQAYMSAKSK 169 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 Bap111 GGGSKSQHER 189 1 OSA RLVSGGSSSSGAHAEGKK 2094 1 OSA KPEIK 2058 1 OSA QQQQLRPGPAGKQAASAGGSATVK 2532 1 OSA QKAWDIDTNR 1989 1 OSA QKAWDIDTNR 1989 1 mor LGKNSADPPATR 70 1 mor LGKNSADPPATR 70 1 mor LGKNSADPPATR 70 1 mor LGKNSADPPATR 70 1 mor LGKNSADPPATR 70 1 mor TLLDLDKK 589 1 mor AKHLAALEER 962 1 mor AKHLAALEER 962 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor AAMEEFAAIKDEVPATIMDNHLK 758 1 mor KDGSPNIDFFQSPETLQGFESIR 8 1 mor SKTPEIYMAYR 483 1 mor VAAAAAKAAMEEFAAIKDEVPATIMDNHLK 748 1 mor VAAAAAKAAMEEFAAIKDEVPATIMDNHLK 748 1 mor VAAAAAKAAMEEFAAIKDEVPATIMDNHLK 748 1 mor VAAAAAKAAMEEFAAIKDEVPATIMDNHLK 748 1 mor VAAAAAKAAMEEFAAIKDEVPATIMDNHLK 748 1 mor VAAAAAKAAMEEFAAIKDEVPATIMDNHLK 748 1 mor TLLDLDKKPLGK 590 2 ACT1 KDLYANTVLSGGTTMYPGIADR 292 2 ACT1 KDLYANTVLSGGTTMYPGIADR 292 2 ACT1 KDLYANTVLSGGTTMYPGIADR 292 2 ACT1 KDLYANTVLSGGTTMYPGIADR 292 2 ACT1 KDLYANTVLSGGTTMYPGIADR 292 2 ACT1 KDLYANTVLSGGTTMYPGIADR 292 2 ACT1 KDLYANTVLSGGTTMYPGIADR 292 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 KFYVDTNYVTVPR 72 1 Bap55 ATALVVDSGATHTSAVPVHEGYVLSQAVVKSPLGGDFLSR 199 1 Bap55 ATALVVDSGATHTSAVPVHEGYVLSQAVVKSPLGGDFLSR 199 1 Bap55 ATALVVDSGATHTSAVPVHEGYVLSQAVVKSPLGGDFLSR 199 1 Bap55 ATALVVDSGATHTSAVPVHEGYVLSQAVVKSPLGGDFLSR 199 1 Bap55 ATALVVDSGATHTSAVPVHEGYVLSQAVVKSPLGGDFLSR 199 1 Bap55 ATALVVDSGATHTSAVPVHEGYVLSQAVVKSPLGGDFLSR 199 1 Bap55 ATALVVDSGATHTSAVPVHEGYVLSQAVVKSPLGGDFLSR 199

TABLE 10A HEK-293T BRD7 Inter Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 ARID2- PHF10 1 ARID2:1781- 3.64 PHF10:487 0 7.75 JL033017_033117_(—) P 3.64 0.24461616 2.99E−02 //12 11//55 PBAF_10D.05939.05939.4 0 4.59 JL033017_033117_(—) P 3.24 0.25327699 2.04E−02 //12 10//55 PBAF_10D.05796.05796.4 0 4.94 JL033017_033117_(—) P 3.18 0.23963481 6.51E−04 //12 12//55 PBAF_1.03939.03939.4 0 7.2 JL033017_033117_(—) P 3.16 0.28398581 9.98E−02 //12 10//55 PBAF_10D.06081.06081.4 2 ARID2- SMARCD2 1 ARID2:1712- 3.72 SMARCD2:139 −1 13.8 JL033017_033117_(—) N 3.72 0.12128721 1//16 6//78 PBAF_50B.11356.11356.4 2 ARID2:275- 11.7 SMARCD2:480 −1 −0.1 JL033017_033117_(—) NP 11.7 0.45970367 6.59E−12 1//16 16//104 PBAF_85B.15568.15568.4 −2 0.94 JL033017_033117_(—) NP 11 0.41319022 6.55E−06 2//16 22//135 PBAF_85B.15591.15591.5 −2 3.82 JL033017_033117_(—) NP 11 0.41870452 1.07E−06 2//16 22//104 PBAF_85B.15828.15828.4 −1 4.89 JL033017_033117_(—) N 10.6 0.41652307 2//16 20//104 PBAF_85B.15834.15834.4 −2 3.17 JL033017_033117_(—) NP 9.58 0.30707898 1.18E−06 1//16 20//104 PBAF_70B.15869.15869.4 −1 9.07 JL033017_033117_(—) N 9.51 0.35556531 1//16 17//135 PBAF_70B.15877.15877.5 −1 5.9 JL033017_033117_(—) NP 9.45 0.36730254 1.85E−02 1//16 19//135 PBAF_85B.15837.15837.5 −2 6.42 JL033017_033117_(—) N 8.57 0.33105838 2//16 19//135 PBAF_100B.15354.15354.5 −2 −0.7 JL033017_033117_(—) NP 7.54 0.24866769 1.96E−02 1//16 17//104 PBAF_100B.15597.15597.4 −3 13.2 JL033017_033117_(—) N 6.39 0.20605396 1//16 12//104 PBAF_1.16837.16837.4 −3 11.9 JL033017_033117_(—) N 5.49 0.22574638 1//16 15//104 PBAF_100D.15639.15639.4 −2 13.3 JL033017_033117_(—) N 5.46 0.19383244 2//16 16//104 PBAF_1.16571.16571.4 −1 −3.5 JL033017_033117_(—) P 5.19 0.17981909 3.36E−04 1//16 9//104 PBAF_100B.15329.15329.4 −2 −4.5 JL033017_033117_(—) NP 4.84 0.21617519 2.40E−02 //16 9//135 PBAF_10D.15267.15267.5 −2 3.03 JL033017_033117_(—) P 3.66 0.20691408 3.22E−02 //16 3//104 PBAF_10D.15262.15262.4 −2 0.35 JL033017_033117_(—) P 3.35 0.14811869 8.88E−02 //16 4//104 PBAF_100D.15565.15565.4 3 ARID2- SMARCD1 1 ARID2:569- 4.6 SMARCD1:101 −2 3.98 JL033017_033117_(—) N 4.6 0.1071961 //16 7//158 PBAF_85B.12188.12188.5 2 ARID2:1716- 5.16 SMARCD1:273 −3 3.14 JL033017_033117_(—) N 5.16 0.15621927 //13 18//159 PBAF_70B.08978.08978.5 3 ARID2:1760- 20.8 SMARCD1:101 −2 −0.9 JL033017_033117_(—) NP 20.8 0.65024858 1.64E−10 //16 37//121 PBAF_70B.09947.09947.4 −1 2.29 JL033017_033117_(—) NP 16.1 0.48471451 4.70E−08 //16 36//160 PBAF_70B.09941.09941.5 0 −8.5 JL033017_033117_(—) NP 11.1 0.42218262 3.46E−03 //16 25//156 PBAF_85B.11788.11788.5 4 ARID2- SMARCA2 1 ARID2:1701- 4.35 SMARCA2:984 −2 4.93 JL033017_033117_(—) N 4.35 0.12539271 //11 15//134 PBAF_70B.19430.19430.4 5 ARID2- SMARCE1 1 ARID2:1355- 3.86 SMARCE1:298 0 8.43 JL033017_033117_(—) N 3.86 0.11930957 //16 13//169 PBAF_10D.14769.14769.5 6 ARID2- SMARCC1 1 ARID2:1298- 6.82 SMARCC1:780 −2 5.53 JL033017_033117_(—) N 6.82 0.16574871 //7 16//200 PBAF_50B.11541.11541.5 −3 5.03 JL033017_033117_(—) N 5.91 0.12834698 //7 14//200 PBAF_50B.11221.11221.5 7 BRD7- SMARCA4 1 BRD7:392- 8.82 SMARCA4:437 0 1.48 JL033017_033117_(—) NP 8.82 0.23910156 4.13E−03 //17 21//121 PBAF_85B.12869.12869.5 2 BRD7:389- 4.94 SMARCA4:437 −2 0.87 JL033017_033117_(—) N 4.94 0.18471838 //15 9//91 PBAF_5D.11484.11484.6 −2 −5.1 JL033017_033117_(—) P 4.39 0.11315495 2.57E−02 //17 9//120 PBAF_85B.11718.11718.5 8 BRD7- SMARCC2 1 BRD7:67- 4.31 SMARCC2:318 0 0.7 JL033017_033117_(—) P 4.31 0.29167653 7.90E−04 2//10 14//45 PBAF_100B.03977.03977.4 0 1.56 JL033017_033117_(—) P 4.24 0.24989692 1.38E−03 //10 12//45 PBAF_100B.03832.03832.4 2 BRD7:497- 13.7 SMARCC2:718 −3 1.95 JL033017_033117_(—) N 13.7 0.43029207 //11 34//216 PBAF_70B.10626.10626.5 −2 4.19 JL033017_033117_(—) N 13 0.43380745 //11 30//216 PBAF_70B.10633.10633.5 9 BRD7- SMARCC1 1 BRD7:230- 4.9 SMARCC1:317 0 6.42 JL033017_033117_(—) N 4.9 0.19553853 //15 10//97 PBAF_100B.04251.04251.5 0 7.92 JL033017_033117_(—) N 3.95 0.17707048 //15 10//97 PBAF_1.04096.04096.5 2 BRD7:344- 6.74 SMARCC1:609 −1 −3.7 JL033017_033117_(—) P 6.74 0.24800441 5.99E−02 1//16 21//235 PBAF_85B.13165.13165.6 3 BRD7:344- 6.5 SMARCC1:592 −1 −2.3 JL033017_033117_(—) NP 6.5 0.18575918 3.63E−04 //16 21//232 PBAF_85B.16044.16044.6 −1 −2.4 JL033017_033117_(—) NP 6.27 0.16076855 7.39E−06 //16 17//232 PBAF_85B.16070.16070.5 4 BRD7:392- 6.88 SMARCC1:65 −2 3.06 JL033017_033117_(—) N 6.88 0.20367629 //16 21//84 PBAF_85B.12234.12234.4 10 BRD7- SMARCE1 1 BRD7:497- 11.9 SMARCE1:228 −1 8.31 JL033017_033117_(—) N 11.9 0.4078488 //11 34//216 PBAF_70B.11587.11587.5 −1 8.15 JL033017_033117_(—) N 11.2 0.38500925 //11 32//216 PBAF_70B.11584.11584.5 11 BCL7C- SMARCA4 1 BCL7C:15- 4.85 SMARCA4:499 0 0.76 JL033017_033117_(—) N 4.85 0.19575758 2//7 9//32 PBAF_85B.05411.05411.4 12 SMARCB1- SMARCC1 1 SMARCB1:45- 4.22 SMARCC1:740 0 8.7 JL033017_033117_(—) N 4.22 0.21805462 //8 7//36 PBAF_85B.05173.05173.4 13 SMARCC1- SMARCD2 1 SMARCC1:716- 14.3 SMARCD2:480 −2 0.42 JL033017_033117_(—) NP 14.3 0.45647411 2.97E−13 1//16 20//132 PBAF_85B.17001.17001.5 −1 6.58 JL033017_033117_(—) NP 12 0.38682552 8.36E−10 1//16 16//132 PBAF_85B.17038.17038.5 −2 7.89 JL033017_033117_(—) P 7.12 0.21890379 2.19E−07 //16 6//101 PBAF_85B.17016.17016.4 0 −3.5 JL033017_033117_(—) NP 7.09 0.25151585 2.93E−05 //16 10//132 PBAF_100B.16809.16809.5 14 SMARCC1- SMARCC2 1 SMARCC1:716- 7.16 SMARCC2:846 0 4.15 JL033017_033117_(—) P 7.16 0.2783881 2.91E−06 //17 22//90 PBAF_85B.10765.10765.4 2 SMARCC1:716- 6.83 SMARCC2:694 −3 12 JL033017_033117_(—) N 6.83 0.17193298 //17 14//84 PBAF_50B.15571.15571.4 −3 19.3 JL033017_033117_(—) N 2.97 0.1110924 //17 11//84 PBAF_1.16646.16646.4 3 SMARCC1:716- 5.2 SMARCC2:592 0 0.8 JL033017_033117_(—) NP 5.2 0.17923878 2.08E−02 //17 18//89 PBAF_70B.11857.11857.4 0 11.8 JL033017_033117_(—) N 4.67 0.16627772 //17 16//89 PBAF_70B.11851.11851.4 4 SMARCC1:740- 2.44 SMARCC2:848 −1 −2.1 JL033017_033117_(—) P 2.44 0.20966078 7.97E−06 //8 6//36 PBAF_100B.03194.03194.4 0 −2.6 JL033017_033117_(—) P 2.2 0.16956505 3.16E−06 //8 6//36 PBAF_100B.03205.03205.4 5 SMARCC1:740- 5.05 SMARCC2:718 0 1.14 JL033017_033117_(—) NP 5.05 0.25874314 1.02E−10 //8 7//36 PBAF_70B.03335.03335.4 6 SMARCC1:740- 3.71 SMARCC2:846 0 0.59 JL033017_033117_(—) NP 3.71 0.27515758 4.93E−09 //8 7//36 PBAF_100B.02919.02919.4 −1 2.74 JL033017_033117_(—) NP 3.68 0.2780231 1.21E−09 //8 7//36 PBAF_100B.02909.02909.4 0 0.52 JL033017_033117_(—) NP 3.25 0.2148294 3.12E−09 //8 7//36 PBAF_1.02697.02697.4 7 SMARCC1:740- 8.13 SMARCC2:694 −1 3.23 JL033017_033117_(—) NP 8.13 0.29830661 2.41E−11 //17 24//90 PBAF_70B.10849.10849.4 8 SMARCC1:609- 3.77 SMARCC2:568 0 19.3 JL033017_033117_(—) N 3.77 0.12688324 //12 7//69 PBAF_70B.12511.12511.4 15 SMARCC1- SMARCD3 1 SMARCC1:716- 4.1 SMARCD3:417 −1 1.08 JL033017_033117_(—) NP 4.1 0.11520757 1.43E−13 //17 12//84 PBAF_70B.17679.17679.4 16 SMARCC1- SMARCD1 1 SMARCC1:740- 11.5 SMARCD1:101 −2 1.32 JL033017_033117_(—) NP 11.5 0.44246039 8.25E−08 //16 24//163 PBAF_85B.06882.06882.5 2 SMARCC1:740- 3.47 SMARCD1:498 0 10.2 JL033017_033117_(—) N 3.47 0.12597695 2//11 13//52 PBAF_85B.07850.07850.4 3 SMARCC1:716- 8.13 SMARCD1:464 −2 4.47 JL033017_033117_(—) NP 8.13 0.2090604 8.70E−05 //17 12//94 PBAF_50B.15793.15793.4 17 SMARCC1- SMARCE1 1 SMARCC1:740- 5.51 SMARCE1:228 0 −1.3 JL033017_033117_(—) NP 5.51 0.28253736 5.85E−03 //8 7//36 PBAF_1.06072.06072.4 0 1.76 JL033017_033117_(—) N 5.37 0.21910089 //8 7//36 PBAF_85B.06252.06252.4 −1 6.12 JL033017_033117_(—) N 5.08 0.22206545 //8 6//36 PBAF_1.06055.06055.4 0 0.81 JL033017_033117_(—) N 4.58 0.20792371 //8 8//36 PBAF_85B.04819.04819.4 0 3.71 JL033017_033117_(—) N 4.54 0.2133752 //8 7//36 PBAF_1.04714.04714.4 −1 6.79 JL033017_033117_(—) N 2.97 0.13970208 //8 5//36 PBAF_85B.04802.04802.4 2 SMARCC1:880- 18.1 SMARCE1:228 0 −5.9 JL033017_033117_(—) P 18.1 0.51193361 3.26E−04 //18 38//235 PBAF_100B.14803.14803.5 3 SMARCC1:925- 7.54 SMARCE1:258 −1 −5.6 JL033017_033117_(—) NP 7.54 0.24502762 1.12E−08 //15 14//125 PBAF_100D.10715.10715.5 −3 1.41 JL033017_033117_(—) P 3.55 0.13374532 4.38E−02 1//15 7//97 PBAF_100D.10723.10723.4 4 SMARCC1:739- 9.39 SMARCE1:228 −1 1.38 JL033017_033117_(—) P 9.39 0.29544525 3.07E−05 //17 27//128 PBAF_100B.12533.12533.5 0 −0.7 JL033017_033117_(—) P 6.5 0.20983188 7.82E−05 //17 19//128 PBAF_100B.12567.12567.5 5 SMARCC1:326- 4.5 SMARCE1:305 −2 14.5 JL033017_033117_(—) N 4.5 0.21138955 //16 10//98 PBAF_85B.05886.05886.4 18 SMARCA4- SMARCC2 1 SMARCA4:207- 5.63 SMARCC2:694 −1 7.11 JL033017_033117_(—) N 5.63 0.1583153 //18 13//123 PBAF_70B.13114.13114.5 19 SMARCA4- SMARCD2 1 SMARCA4:357- 7.38 SMARCD2:139 0 1.16 JL033017_033117_(—) N 7.38 0.25579562 3//10 17//41 PBAF_70B.06334.06334.4 20 SMARCA4- SMARCD1 1 SMARCA4:455- 12.7 SMARCD1:101 −2 4.67 JL033017_033117_(—) N 12.7 0.4002324 //16 25//160 PBAF_85B.09988.09988.5 2 SMARCA4:357- 11.9 SMARCD1:101 −1 7.58 JL033017_033117_(—) NP 11.9 0.46451733 9.45E−07 //16 27//124 PBAF_85B.09331.09331.4 21 ACTL6A- SMARCA2 1 ACTL6A:379- 3.02 SMARCA2:463 −1 14.2 JL033017_033117_(—) N 3.02 0.11566893 //12 4//83 PBAF_85B.10632.10632.5 2 ACTL6A:242- 3.73 SMARCA2:493 −1 4.44 JL033017_033117_(—) N 3.73 0.15886915 //10 8//54 PBAF_1.08115.08115.5 22 ACTL6A- PBRM 1 ACTL6A:379- 6.28 PBRM:1656 −4 2.39 JL033017_033117_(—) P 6.28 0.25009466 3.01E−05 1//14 15//82 PBAF_1.12332.12332.4 23 ACTL6A- SMARCA4 1 ACTL6A:226- 6.28 SMARCA4:1365 −1 15.2 JL033017_033117_(—) N 6.28 0.25734496 //12 13//133 PBAF_70B.19056.19056.6 24 PHF10- SMARCC2 1 PHF10:241- 8.23 SMARCC2:694 0 9.23 JL033017_033117_(—) NP 8.23 0.29863933 1.35E−06 //17 24//87 PBAF_70B.13492.13492.4 25 PHF10- SMARCA4 1 PHF10:106- 3.73 SMARCA4:835 −1 4.22 JL033017_033117_(—) N 3.73 0.15608111 //12 13//55 PBAF_85B.08499.08499.4 0 3.51 JL033017_033117_(—) P 3.37 0.15868715 1.66E−03 //9 8//46 PBAF_100B.07603.07603.4 0 4.32 JL033017_033117_(—) P 3.23 0.1768129 2.38E−05 //9 9//56 PBAF_100B.07579.07579.5 −1 3.94 JL033017_033117_(—) P 2.61 0.14458932 5.16E−06 //9 5//56 PBAF_100B.07513.07513.5 26 PHF10- SMARCB1 1 PHF10:168- 5.81 SMARCB1:124 0 2.49 JL033017_033117_(—) N 5.81 0.22666068 1//15 18//76 PBAF_100B.10566.10566.4 2 PHF10:168- 9.26 SMARCB1:45 −1 0.72 JL033017_033117_(—) P 9.26 0.36284192 1.65E−03 //15 21//78 PBAF_100B.10585.10585.4 3 PHF10:118- 6.44 SMARCB1:45 0 2.31 JL033017_033117_(—) N 6.44 0.26301434 //13 14//67 PBAF_100B.12570.12570.4 4 PHF10:106- 3.79 SMARCB1:126 −1 0.73 JL033017_033117_(—) N 3.79 0.14640148 1//9 9//46 PBAF_100B.07987.07987.4 5 PHF10:106- 4.39 SMARCB1:45 0 2.02 JL033017_033117_(—) NP 4.39 0.18646626 5.09E−04 1//9 9//45 PBAF_100B.07842.07842.4 6 PHF10:106- 3.48 SMARCB1:124 −1 8.22 JL033017_033117_(—) NP 3.48 0.18236772 1.63E−02 //8 7//37 PBAF_100B.05346.05346.4 −2 13.1 JL033017_033117_(—) N 3.23 0.13928125 //8 7//38 PBAF_85B.08970.08970.4 0 1.42 JL033017_033117_(—) N 2.54 0.11609592 1//9 12//55 PBAF_100B.07983.07983.5 0 3.84 JL033017_033117_(—) P 0.78 0.04514121 1.77E−01 //9 1//45 PBAF_10D.06256.06256.4 27 PHF10- SMARCC1 1 PHF10:241- 4.09 SMARCC1:608 0 −0.1 JL033017_033117_(—) NP 4.09 0.18209155 2.72E−02 //8 9//42 PBAF_70B.09771.09771.4 2 PHF10:249- 7.88 SMARCC1:716 −1 2.25 JL033017_033117_(—) NP 7.88 0.22951261 1.02E−05 //16 14//173 PBAF_85B.16618.16618.5 28 PHF10- SMARCA2 1 PHF10:487- 3.52 SMARCA2:447 −1 −1.6 JL033017_033117_(—) P 3.52 0.1299658 9.91E−05 //14 9//93 PBAF_100D.10285.10285.4 29 SMARCC2- SMARCE1 1 SMARCC2:724- 3.83 SMARCE1:228 0 4.85 JL033017_033117_(—) N 3.83 0.17399605 //13 10//64 PBAF_85B.06169.06169.4 2 SMARCC2:846- 4.84 SMARCE1:228 −1 3.96 JL033017_033117_(—) N 4.84 0.22926338 2//8 10//28 PBAF_100B.04145.04145.4 3 SMARCC2:940- 7.64 SMARCE1:277 −1 6.42 JL033017_033117_(—) N 7.64 0.22011868 //16 6//80 PBAF_70B.12501.12501.4 4 SMARCC2:718- 6.58 SMARCE1:228 0 −1.8 JL033017_033117_(—) P 6.58 0.2850363 3.02E−05 4//8 14//29 PBAF_70B.06223.06223.4 0 0.92 JL033017_033117_(—) P 6.15 0.2546832 1.58E−04 4//8 13//29 PBAF_1.06224.06224.4 0 6.26 JL033017_033117_(—) N 4.76 0.21738733 4//8 12//29 PBAF_70B.04774.04774.4 −1 0.66 JL033017_033117_(—) N 3.76 0.16133465 2//8 7//29 PBAF_85B.04984.04984.4 5 SMARCC2:898- 13.6 SMARCE1:240 0 0.45 JL033017_033117_(—) NP 13.6 0.5241867 3.21E−09 1//13 30//75 PBAF_85B.13553.13553.4 0 −9.4 JL033017_033117_(—) NP 12.1 0.42898356 3.18E−07 //15 26//133 PBAF_100B.11625.11625.5 0 5.8 JL033017_033117_(—) NP 11.3 0.42574714 1.18E−06 2//13 24//75 PBAF_70B.13778.13778.4 0 0.56 JL033017_033117_(—) NP 10.8 0.45200877 2.24E−07 2//13 25//75 PBAF_1.14302.14302.4 0 −0.2 JL033017_033117_(—) NP 10.8 0.38378253 2.95E−09 //15 21//133 PBAF_100B.11640.11640.6 −1 1.56 JL033017_033117_(—) NP 10.5 0.43232727 7.65E−07 1//15 22//133 PBAF_100B.11636.11636.6 0 −8.9 JL033017_033117_(—) P 9.03 0.50129005 1.94E−08 //13 17//75 PBAF_100D.13564.13564.4 0 4.38 JL033017_033117_(—) P 8.3 0.46998613 1.99E−10 //13 17//75 PBAF_100D.13600.13600.4 −1 −0.8 JL033017_033117_(—) NP 7.07 0.29067089 5.52E−10 1//15 17//105 PBAF_100B.11621.11621.4 30 SMARCC2- SMARCD2 1 SMARCC2:718- 2.75 SMARCD2:514 0 2.9 JL033017_033117_(—) NP 2.75 0.14575714 2.52E−08 //11 10//51 PBAF_100B.06613.06613.4 2 SMARCC2:694- 13.5 SMARCD2:480 −3 −2.1 JL033017_033117_(—) NP 13.5 0.46753942 4.38E−09 1//16 22//132 PBAF_85B.16437.16437.5 −2 2.35 JL033017_033117_(—) P 7.58 0.18741812 7.27E−04 //16 8//101 PBAF_70B.16770.16770.4 0 3.1 JL033017_033117_(—) NP 5.81 0.15909807 5.59E−07 1//16 12//132 PBAF_85B.16478.16478.5 31 SMARCC2- SMARCD3 1 SMARCC2:694- 9.26 SMARCD3:417 −2 2.07 JL033017_033117_(—) NP 9.26 0.27918338 4.44E−08 //17 20//84 PBAF_50B.16791.16791.4 −3 1.5 JL033017_033117_(—) NP 7.75 0.21805696 3.36E−07 //17 18//84 PBAF_50B.16806.16806.4 −1 5.25 JL033017_033117_(—) N 4.99 0.14869191 //12 15//144 PBAF_85B.18435.18435.5 32 ACTBL2- SMARCA2 1 ACTBL2:329- 5.22 SMARCA2:500 0 0.52 JL033017_033117_(—) N 5.22 0.27018593 //9 10//45 PBAF_70B.09006.09006.4 33 ACTBL2- PBRM 1 ACTBL2:51- 10.7 PBRM:1654 −2 0.51 JL033017_033117_(—) N 10.7 0.28485334 //9 15//130 PBAF_85B.14929.14929.6 34 ACTBL2- SMARCA4 1 ACTBL2:329- 7.6 SMARCA4:689 0 2.22 JL033017_033117_(—) NP 7.6 0.29875963 1.14E−11 1//16 21//138 PBAF_85B.11050.11050.5 35 ACTBL2- ACTL6A 1 ACTBL2:192- 9.97 ACTL6A:242 0 1.39 JL033017_033117_(—) N 9.97 0.39687326 1//15 22//74 PBAF_70B.19310.19310.4 0 1.66 JL033017_033117_(—) N 9.38 0.36114106 //15 22//74 PBAF_70B.19289.19289.4 −1 1.22 JL033017_033117_(—) N 8.95 0.26412088 //12 22//109 PBAF_85B.19132.19132.4 0 6.67 JL033017_033117_(—) NP 7.6 0.31879743 7.63E−09 //15 20//97 PBAF_85B.19320.19320.5 0 5.47 JL033017_033117_(—) N 7.25 0.31464124 //15 17//97 PBAF_85B.17726.17726.5 −1 0.11 JL033017_033117_(—) N 5.25 0.19772916 //12 10//147 PBAF_85B.19181.19181.5 2 ACTBL2:192- 9.9 ACTL6A:240 0 0.48 JL033017_033117_(—) N 9.9 0.35452056 //15 20//74 PBAF_85B.17696.17696.4 36 PBRM- SMARCC2 1 PBRM:1642- 11.2 SMARCC2:694 −1 2.76 JL033017_033117_(—) NP 11.2 0.31593481 5.70E−08 //17 19//84 PBAF_85B.12121.12121.4 −1 3.92 JL033017_033117_(—) NP 9.36 0.27875665 6.79E−07 1//17 17//109 PBAF_85B.12128.12128.5 0 6.12 JL033017_033117_(—) NP 7.61 0.23329756 2.20E−06 //17 16//84 PBAF_85B.12141.12141.4 2 PBRM:909- 4.37 SMARCC2:836 −1 −2.8 JL033017_033117_(—) P 4.37 0.12381748 7.61E−04 //17 12//100 PBAF_70B.12724.12724.4 3 PBRM:918- 4.88 SMARCC2:828 0 13.7 JL033017_033117_(—) N 4.88 0.20170038 2//13 7//61 PBAF_85B.08470.08470.4 −1 1.79 JL033017_033117_(—) N 3.84 0.15257755 2//13 8//61 PBAF_1.08324.08324.4 4 PBRM:471- 5.32 SMARCC2:457 −1 10.5 JL033017_033117_(—) N 5.32 0.19350205 //11 7//72 PBAF_70B.11718.11718.5 37 PBRM- PHF10 1 PBRM:135- 5.05 PHF10:120 0 12 JL033017_033117_(—) N 5.05 0.1478831 //13 11//106 PBAF_50B.21468.21468.4 2 PBRM:640- 1.81 PHF10:118 0 2.79 JL033017_033117_(—) P 1.81 0.10325747 8.49E−03 //9 6//35 PBAF_100B.06759.06759.4 3 PBRM:1434- 3.78 PHF10:487 −1 0.66 JL033017_033117_(—) N 3.78 0.23859478 //12 9//51 PBAF_85B.03941.03941.4 4 PBRM:1642- 4.93 PHF10:487 −2 3.25 JL033017_033117_(—) NP 4.93 0.25514142 4.72E−05 //13 15//66 PBAF_100B.05712.05712.4 38 PBRM- SMARCA4 1 PBRM:930- 12.3 SMARCA4:1386 −2 9.89 JL033017_033117_(—) P 12.3 0.32721477 5.96E−02 //15 2//121 PBAF_85B.12327.12327.5 2 PBRM:1642- 12.1 SMARCA4:207 0 0.75 JL033017_033117_(—) N 12.1 0.38610637 //18 23//125 PBAF_85B.09764.09764.5 −1 2.09 JL033017_033117_(—) NP 10.6 0.30977928 1.96E−04 //18 24//123 PBAF_85B.10449.10449.5 −2 7.85 JL033017_033117_(—) N 10.5 0.35235327 //18 21//125 PBAF_85B.09755.09755.5 −2 6.6 JL033017_033117_(—) NP 5.52 0.17011857 1.77E−07 //18 12//96 PBAF_85B.10442.10442.4 −2 0.82 JL033017_033117_(—) N 4.87 0.20824061 //18 14//97 PBAF_85B.09774.09774.4 −2 9.75 JL033017_033117_(—) N 4.82 0.18190395 //18 13//97 PBAF_85B.09797.09797.4 3 PBRM:516- 2.85 SMARCA4:1131 0 0.83 JL033017_033117_(—) P 2.85 0.12899204 2.21E−02 //12 14//57 PBAF_70B.04979.04979.4 4 PBRM:1239- 9.13 SMARCA4:1408 0 0.76 JL033017_033117_(—) P 9.13 0.26616158 1.47E−02 //9 26//238 PBAF_85B.18896.18896.5 39 PBRM- SMARCC1 1 PBRM:930- 6.97 SMARCC1:592 0 9.5 JL033017_033117_(—) N 6.97 0.23194941 2//19 23//108 PBAF_1.10856.10856.6 2 PBRM:1642- 6.41 SMARCC1:716 −1 7.03 JL033017_033117_(—) N 6.41 0.17768452 //17 18//84 PBAF_85B.12776.12776.4 3 PBRM:1642- 8.14 SMARCC1:740 0 −8.3 JL033017_033117_(—) NP 8.14 0.32035799 2.81E−09 4//13 21//63 PBAF_85B.05585.05585.4 0 1.84 JL033017_033117_(—) NP 6.61 0.27046882 1.94E−07 3//13 15//63 PBAF_85B.05593.05593.4 40 PBRM- SMARCA2 1 PBRM:930- 5.64 SMARCA2:1197 0 −3.9 JL033017_033117_(—) P 5.64 0.22848782 1.90E−05 //20 17//147 PBAF_1.08538.08538.5 41 0 1 :- 3.82 PHF10:391 −1 11.7 JL033017_033117_(—) N 3.82 0.11969218 1//15 11//76 PBAF_70B.08914.08914.4 42 SMARCA2- SMARCD1 1 SMARCA2:381- 4.35 SMARCD1:296 −1 5.03 JL033017_033117_(—) N 4.35 0.15373066 //11 18//152 PBAF_85B.13922.13922.5 −2 12.9 JL033017_033117_(—) N 4.3 0.14604347 //11 17//152 PBAF_85B.13938.13938.5 −2 7.86 JL033017_033117_(—) N 3.7 0.13066846 //11 13//152 PBAF_1.14654.14654.5 43 SMARCA2- SMARCE1 1 SMARCA2:437- 4.47 SMARCE1:240 −2 10.8 JL033017_033117_(—) N 4.47 0.15363671 //13 10//94 PBAF_85B.10161.10161.5 44 SMARCA2- SMARCC1 1 SMARCA2:1460- 2.47 SMARCC1:292 −1 1.15 JL033017_033117_(—) P 2.47 0.13851655 1.20E−04 1//9 6//43 PBAF_5D.08617.08617.4 0 2.13 JL033017_033117_(—) P 1.65 0.10622204 3.68E−05 1//9 6//43 PBAF_5D.08447.08447.4 45 ACTB- SMARCC2 1 ACTB:291- 6.92 SMARCC2:453 −2 8.88 JL033017_033117_(—) N 6.92 0.16609287 1//17 19//139 PBAF_50B.14120.14120.4 46 ACTB- ARID2 1 ACTB:84- 5.08 ARID2:15 −1 14.6 JL033017_033117_(—) N 5.08 0.11600562 //3 23//270 PBAF_100B.17437.17437.5 47 ACTB- ACTL6A 1 ACTB:315- 5.22 ACTL6A:238 −3 7.58 JL033017_033117_(—) N 5.22 0.1495077 //16 10//82 PBAF_70B.12502.12502.4 2 ACTB:315- 7.33 ACTL6A:427 0 2.71 JL033017_033117_(—) N 7.33 0.26193197 2//16 18//81 PBAF_70B.10333.10333.4 48 BCL7A- SMARCA4 1 BCL7A:15- 4.14 SMARCA4:499 0 −2.3 JL033017_033117_(—) NP 4.14 0.22698134 5.20E−03 //7 6//32 PBAF_100B.05715.05715.4 0 1.85 JL033017_033117_(—) NP 3.2 0.1384113 1.94E−03 //7 6//32 PBAF_1.05517.05517.4 2 BCL7A:19- 2.54 SMARCA4:499 0 −2.5 JL033017_033117_(—) P 2.54 0.12950678 1.93E−03 2//9 7//34 PBAF_100B.05891.05891.4 49 BCL7A- SMARCB1 1 BCL7A:15- 3.48 SMARCB1:45 0 2 JL033017_033117_(—) N 3.48 0.16892532 //7 6//32 PBAF_100B.05678.05678.4 2 BCL7A:15- 3.31 SMARCB1:126 0 0.77 JL033017_033117_(—) N 3.31 0.1618683 //8 7//30 PBAF_100B.05917.05917.4 Total unique inter crosslinks are: 98 Total counted inter crosslinks are: 179 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 3.36 1.6 K.NIGK[724.46]YSEC[160.03]GR.R Q68CP9:1781 1 ARID2 2.97 1.2 K.NIGK[724.46]YSEC[160.03]GR.R Q68CP9:1781 1 ARID2 2.89 1.65 K.NIGK[724.46]YSEC[160.03]GR.R Q68CP9:1781 1 ARID2 2.92 1.45 K.NIGK[724.46]YSEC[160.03]GR.R Q68CP9:1781 1 ARID2 1.1 0.53846154 K.Q[111.03]DEPGQAGSQK[1622.86]SSTK.Q Q68CP9:1712 1 ARID2 3.38 1 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 7.13 1.88235294 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.93 1.91176471 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.68 1.8125 R.DLK[1507.82]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.74 1.61764706 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.15 1.59375 R.DLK[1507.81]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.05 1.64705882 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 5.97 1.75 R.DLK[1507.81]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.24 1.14705882 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 2.67 0.96875 R.DLK[1507.79]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 2.19 0.8125 R.DLK[1507.8]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.21 1.21875 R.DLK[1507.79]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 1.39 0.41176471 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.55 0.67647059 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 0.51 0.14705882 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 0.49 0.17647059 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.46 0.63157895 R.K[1837.96]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 1.77 0.725 R.TATTQETDGFQVK[1855.95]RPGDVNVR.C Q96GM5:273 1 SMARCD1 18 3.07894737 R.K[1644.82]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 13.7 2.63157895 R.K[1644.82]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 9.71 1.86842105 R.K[2274.19]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.98 0.68181818 K.DALLAGLK[2152.1]QDEPGQAGSQK[284.17]SSTK.Q Q68CP9:1701 1 ARID2 2.69 0.575 R.K[1110.64]PLVNGIC[160.03]DFDK[284.17]GDGSHLSK.N Q68CP9:1355 1 ARID2 4.53 0.72 K.E[111.03]NEM[147.04]HVGSLLNGRK[2495.17]YSDSSLPPSNSGK.I Q68CP9:1298 1 ARID2 2.98 0.56 K.E[111.03]NEM[147.04]HVGSLLNGRK[2495.16]YSDSSLPPSNSGK.I Q68CP9:1298 1 ARID2 4.94 1.53125 R.LQSGVNTLQGFKEDK[1930.05]R.N Q9NPI1:392 1 BRD7 2.39 0.66666667 R.LQSGVNTLQGFK[1930.06]EDK[284.17]R.N Q9NPI1:389 1 BRD7 1.37 0.53125 R.LQSGVNTLQGFK[1930.05]EDKR.N Q9NPI1:389 1 BRD7 3.86 2 K.K[854.52]GPSTPYTK.S Q8TAQ2:318 1 SMARCC2 3.66 1.77777778 K.K[854.52]GPSTPYTK.S Q8TAQ2:318 1 SMARCC2 12.1 1.78 R.TLDTAK[1039.6]EM[147.04]EITEVEPPGRLDSSTQDR.L Q9NPI1:497 1 BRD7 11.1 1.66 R.TLDTAK[1039.58]EM[147.04]EITEVEPPGRLDSSTQDR.L Q9NPI1:497 1 BRD7 2.9 0.83333333 K.LLHSGM[147.04]K[1253.67]ILSQER.I Q9NPI1:230 1 BRD7 2.46 0.83333333 K.LLHSGM[147.04]K[1253.66]ILSQER.I Q9NPI1:230 1 BRD7 6.22 0.78571429 R.RK[825.53]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 3.67 0.75 R.RK[1680.92]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 3.05 0.53571429 R.RK[1680.92]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 5.7 2.19230769 K.HYKK[1036.57]YVHADAPTNK.T Q92922:65 1 SMARCC1 10.9 1.78 R.TLDTAK[1055.58]EM[147.04]EITEVEPPGRLDSSTQDR.L Q9NPI1:497 1 BRD7 10.2 1.56 R.TLDTAK[1055.58]EM[147.04]EITEVEPPGRLDSSTQDR.L Q9NPI1:497 1 BRD7 2.4 1.83333333 R.AK[995.64]DDIKK.V Q8WUZ0:15 1 BCL7C 3.02 1.5 K.K[988.56]VQEAAR.A Q92922:740 1 SMARCC1 7.29 1.58823529 R.DLK[1785.96]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.23 1.23529412 R.DLK[1785.96]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 1.13 0.41176471 R.DLK[1785.96]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.84 0.79411765 R.DLK[1785.96]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.57 2.06666667 R.VASAAAK[1025.62]AALEEFSR.V Q92922:716 1 SMARCC1 3.62 1.21428571 R.VASAAAK[1773.91]AALEEFSR.V Q92922:716 1 SMARCC1 1.68 0.96428571 R.VASAAAK[1773.89]AALEEFSR.V Q92922:716 1 SMARCC1 3.95 1.63333333 R.VASAAAK[1127.63]AALEEFSR.V Q92922:716 1 SMARCC1 3.42 1.35714286 R.VASAAAK[1127.66]AALEEFSR.V Q92922:716 1 SMARCC1 1.85 1.21428571 K.K[1025.62]VQEAAR.A Q92922:740 1 SMARCC1 1.88 1.21428571 K.K[1025.62]VQEAAR.A Q92922:740 1 SMARCC1 2.65 1.5 K.K[1039.59]VQEAAR.A Q92922:740 1 SMARCC1 2.5 1.5 K.K[1025.62]VQEAAR.A Q92922:740 1 SMARCC1 2.39 1.5 K.K[1025.62]VQEAAR.A Q92922:740 1 SMARCC1 2.16 1.5 K.K[1025.62]VQEAAR.A Q92922:740 1 SMARCC1 5.98 2.03333333 R.VASAAAK[1066.61]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.73 0.95454546 K.E[111.03]K[825.57]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 2.63 0.83333333 R.VASAAAK[1568.86]AALEEFSR.V Q92922:716 1 SMARCC1 10.5 1.78947368 R.K[1066.61]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.09 1.8125 R.YFYSK[1066.59]VQQR.R Q96GM5:498 1 SMARCD1 4.68 0.96875 R.DLK[1785.96]TMTDVVGNPEEER.R Q96GM5:464 1 SMARCD1 2.9 1.5 K.K[1039.62]VQEAAR.A Q92922:740 1 SMARCC1 3.01 1.5 K.K[1039.62]VQEAAR.A Q92922:740 1 SMARCC1 2.73 1.42857143 K.K[1039.61]VQEAAR.A Q92922:740 1 SMARCC1 2.96 1.57142857 K.K[1055.62]VQEAAR.A Q92922:740 1 SMARCC1 2.86 1.5 K.K[1055.61]VQEAAR.A Q92922:740 1 SMARCC1 2.01 1.14285714 K.K[1055.6]VQEAAR.A Q92922:740 1 SMARCC1 17.5 2.25925926 K.KVEHEISEGNVATAAAAALASAATK[1039.62]AK.H Q92922:880 1 SMARCC1 3.33 1.26666667 R.K[1395.74]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 0.61 0.4 R.K[1395.74]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 9.16 2.34375 R.VREEVPLELVEAHVK[1039.62]K.V Q92922:739 1 SMARCC1 6.05 1.46875 R.VREEVPLELVEAHVK[1039.62]K.V Q92922:739 1 SMARCC1 3.57 0.76666667 K.RK[1425.67]HSPSPPPPTPTESR.K Q92922:326 1 SMARCC1 1.69 0.56666667 R.GQPLPDHLQM[147.04]AVQGK[1773.93]R.P P51532:207 1 SMARCA4 5.65 3 R.ITPIQK[873.46]PR.G P51532:357 1 SMARCA4 11.7 1.92105263 R.K[1665.94]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 10.1 2.18421053 R.K[1217.75]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.01 0.54545455 R.LK[1259.67]LIANNTTVER.R O96019:379 1 ACTL6A 0.94 0.92857143 R.EQK[284.17]K[1235.71]ETER.I P51531:493 1 SMARCA2 2.53 1.21428571 K.SK[1636.95]GAHTTMADALWR.L Q86U86:1656 1 PBRM 5.21 0.90476191 R.E[111.03]LFQEM[147.04]NIELVPPYM[147.04]IASK[1938.94]EAVR.E O96019:226 1 ACTL6A 6.7 2.43333333 R.VASAAAK[1270.73]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.11 1.55555556 K.VSYK[1185.63]GSPAAR.R P51532:835 1 SMARCA4 0.8 0.75 R.K[1300.71]YPDLERR.D Q8WUB8:106 1 PHF10 0.6 0.8125 R.K[1300.71]YPDLERR.D Q8WUB8:106 1 PHF10 0.33 0.3125 R.K[1300.71]YPDLERR.D Q8WUB8:106 1 PHF10 4.63 1.79166667 K.HAEYSVILQEK[1180.67]ER.Q Q8WUB8:168 1 PHF10 8.46 2.38461539 K.HAEYSVILQEK[988.57]ER.Q Q8WUB8:168 1 PHF10 3.89 1.8 R.DLSHK[988.58]EK[284.17]LYLR.E Q8WUB8:118 1 PHF10 1.39 0.8125 R.K[1180.68]YPDLERR.D Q8WUB8:106 1 PHF10 1.73 1.1875 R.K[988.57]YPDLERR.D Q8WUB8:106 1 PHF10 2.56 1.5 R.K[1024.6]YPDLER.R Q8WUB8:106 1 PHF10 1.98 1.28571429 R.K[1180.66]YPDLER.R Q8WUB8:106 1 PHF10 1.38 1.3125 R.K[1180.68]YPDLERR.D Q8WUB8:106 1 PHF10 0.12 0.0625 R.K[1024.6]YPDLERR.D Q8WUB8:106 1 PHF10 2.89 1.5625 K.YK[1119.62]VLPTER.T Q8WUB8:241 1 PHF10 4.04 0.69047619 R.TK[1785.96]VSSYPVALIPGQFQEYYKR.Y Q8WUB8:249 1 PHF10 3.14 0.63333333 R.QK[724.46]HQEYLNSILQHAK.D P51531:447 P51532:471 2 SMARCA2 1.72 0.9 R.KVEEAAK[1055.61]VTGK.A Q8TAQ2:724 1 SMARCC2 2.62 2.1 R.M[147.04]QVLK[1025.62]R.Q Q969G3:228 1 SMARCE1 1.16 0.53846154 R.QAFHMEQLK[1701.85]YAEM[147.04]R.A Q8TAQ2:940 1 SMARCC2 3.44 2.75 R.MQVLK[1039.59]R.Q Q969G3:228 1 SMARCE1 3.57 2.66666667 R.MQVLK[1039.59]R.Q Q969G3:228 1 SMARCE1 1.9 2.8 R.M[147.04]QVLK[1039.58]R.Q Q969G3:228 1 SMARCE1 1.11 1.1 R.M[147.04]QVLK[1039.59]R.Q Q969G3:228 1 SMARCE1 12 3.83333333 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 10.8 2.78125 R.K[895.57]LEAELLQIEERHQEK.K Q969G3:240 1 SMARCE1 9.71 3.08333333 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 9.47 3 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 8.76 1.84375 R.K[895.57]LEAELLQIEERHQEK.K Q969G3:240 1 SMARCE1 8.76 2.0625 R.K[895.57]LEAELLQIEERHQEK.K Q969G3:240 1 SMARCE1 8.14 2.33333333 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 7.48 2.20833333 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 5.41 1.28125 R.K[895.57]LEAELLQIEERHQEK.K Q969G3:240 1 SMARCE1 1.5 1.16666667 R.HIFAK[1039.59]VQQR.R Q92925:514 1 SMARCD2 7.66 1.64705882 R.DLK[1773.95]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 1.5 0.38235294 R.DLK[1773.95]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.99 0.79411765 R.DLK[1773.95]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.11 2 R.VASAAAK[1568.86]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 5.08 1.63333333 R.VASAAAK[1568.86]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.8 0.80555556 R.DFM[147.04]LSFSRDPK[1773.97]GYVQDLLR.S Q6STE5:417 1 SMARCD3 4.27 1.8125 K.IK[939.54]IIAPPER.K Q562R1:329 P60709:328 2 ACTBL2 5.04 0.88636364 R.HQGVM[147.04]VGMGQK[2843.48]DC[160.03]YVGDEAQSK[284.17]R.G Q562R1:51 1 ACTBL2 5.24 1.38235294 K.KK[1301.81]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 7.58 2.70833333 R.DLTDYLM[147.04]K[1235.73]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 7.23 2.45833333 R.DLTDYLM[147.04]K[1235.73]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 5.96 1.47222222 R.LDLAGRDLTDYLM[147.04]K[1235.73]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 5.93 2.11538462 R.DLTDYLMK[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 6.01 2.20833333 R.DLTDYLM[147.04]K[1363.83]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 3.55 0.69444444 R.LDLAGRDLTDYLM[147.04]K[1235.72]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 8.76 2.41666667 R.DLTDYLM[147.04]K[1363.82]ILTER.G Q562R1:192 P60709:191 2 ACTBL2 8.3 1.93333333 R.VASAAAK[1592.82]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 6.72 1.6 R.VASAAAK[1592.82]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 6.1 1.53333333 R.VASAAAK[1592.82]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.01 0.85294118 K.EGQEEVLK[1007.64]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.27 0.55 K.EPK[1268.65]EGQEEVLK.E Q8TAQ2:828 1 SMARCC2 1.08 0.7 K.EPK[1268.68]EGQEEVLK.E Q8TAQ2:828 1 SMARCC2 2.12 1.2 K.SK[1589.83]TPEIYLAYR.N Q8TAQ2:457 Q92922:482 2 SMARCC2 3.55 0.82352941 K.PDSPEYK[1086.61]AAC[160.03]KLWDLYLR.T Q86U86:135 1 PBRM 0.51 0.57142857 R.DLSHK[881.57]EK.L Q8WUB8:118 1 PHF10 2.82 1.05555556 R.AAK[724.46]VAEQQER.E Q86U86:1434 1 PBRM 3.81 1.63636364 R.DVHLSK[724.46]EQESR.L Q86U86:1642 1 PBRM 0.15 0.125 R.KEVDYSDSLTEK[2166.06]QWLK.A P51532:1386 1 SMARCA4 9 2.1 R.GQPLPDHLQM[147.04]AVQGK[1592.82]R.P P51532:207 1 SMARCA4 8.82 2.125 R.GQPLPDHLQMAVQGK[1592.82]R.P P51532:207 1 SMARCA4 7.65 1.93333333 R.GQPLPDHLQM[147.04]AVQGK[1592.84]R.P P51532:207 1 SMARCA4 3.12 0.71875 R.GQPLPDHLQMAVQGK[1592.82]R.P P51532:207 1 SMARCA4 2.83 0.93333333 R.GQPLPDHLQM[147.04]AVQGK[1592.82]R.P P51532:207 1 SMARCA4 2.53 0.76666667 R.GQPLPDHLQM[147.04]AVQGK[1592.78]R.P P51532:207 1 SMARCA4 2.33 1.35 R.LDGTTK[795.5]AEDR.G P51532:1131 1 SMARCA4 8.64 1.26785714 K.C[160.03]AVLSFK[998.59]DFLSC[160.03]RPTEIPENDILLC[160.03]ESR.Y Q86U86:1239 1 PBRM 5.43 1.67647059 R.E[111.03]AEK[2079.1]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 5.3 1.75 R.VASAAAK[1592.84]AALEEFSR.V Q92922:716 1 SMARCC1 4.84 2.31818182 R.DVHLSK[1066.61]EQESR.L Q86U86:1642 1 PBRM 3.82 1.5 R.DVHLSK[1066.61]EQESR.L Q86U86:1642 1 PBRM 4.92 1.07894737 R.EAEK[2099.11]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 2.04 0.75 -.M[147.04]ANSTGK[1055.57]APPDER.R 0 3.34 0.88888889 R.C[160.03]TVLLM[147.04]LDYQPPQFK[1265.79]LDPR.L Q96GM5:296 1 SMARCD1 3.37 0.88888889 R.C[160.03]TVLLM[147.04]LDYQPPQFK[1265.82]LDPR.L Q96GM5:296 1 SMARCD1 2.74 0.63888889 R.C[160.03]TVLLM[147.04]LDYQPPQFK[1265.8]LDPR.L Q96GM5:296 1 SMARCD1 3.23 1.125 R.K[1323.74]LEAELLQIEER.H Q969G3:240 1 SMARCE1 1.62 0.6875 R.K[982.53]PVSFRQR.I Q92922:292 1 SMARCC1 0.84 0.5 R.K[982.53]PVSFRQR.I Q92922:292 1 SMARCC1 5.92 1.04545455 R.K[1685.89]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 1 ACTB 3.53 0.6875 R.GILTLKYPIEHGIVTNWDDM[147.04]EK[1426.74]IWHHTFYNELR.V P60709:84 1 ACTB 4.04 1.15384615 R.M[147.04]QK[1291.65]EITALAPSTMK.I P60709:315 1 ACTB 6.22 1.80769231 R.M[147.04]QK[1341.66]EITALAPSTM[147.04]K.I P60709:315 1 ACTB 2.15 1.21428571 R.AK[995.64]DDIKR.V Q4VC05:15 1 BCL7A 1.64 1.21428571 R.AK[995.64]DDIKR.V Q4VC05:15 1 BCL7A 0.74 0.64285714 R.AKDDIK[995.64]R.V Q4VC05:19 1 BCL7A 1.67 1.41666667 R.AK[988.57]DDIKR.V Q4VC05:15 1 BCL7A 1.68 1.2 R.EQK[284.17]AK[1110.64]R.N Q12824:126 1 SMARCB1 realpep1 position1 immonium2 ion2 dot2 connective2 NIGKYSECGR 1781 //5 2//21 0.28 0.5 NIGKYSECGR 1781 //5 2//21 0.26 0.5 NIGKYSECGR 1781 //5 2//21 0.28 0.5 NIGKYSECGR 1781 //5 2//21 0.25 0.5 QDEPGQAGSQKSSTK 1712 //11 8//58 2.62 1.2 DLKIITDVIGNPEEERR 480 //12 20//58 8.27 2.5 DLKIITDVIGNPEEERR 480 3//12 17//72 3.92 2.04545455 DLKIITDVIGNPEEERR 480 1//12 16//58 6.09 2.09090909 DLKIITDVIGNPEEERR 480 1//12 16//58 5.96 2.09090909 DLKIITDVIGNPEEERR 480 //12 15//58 5.84 2.04545455 DLKIITDVIGNPEEERR 480 3//12 13//72 3.37 1.54545455 DLKIITDVIGNPEEERR 480 3//12 14//72 3.4 1.68181818 DLKIITDVIGNPEEERR 480 3//12 12//72 2.6 1.13636364 DLKIITDVIGNPEEERR 480 //12 11//58 4.3 1.31818182 DLKIITDVIGNPEEERR 480 //12 13//58 3.72 1.40909091 DLKIITDVIGNPEEERR 480 //12 9//58 3.3 1.13636364 DLKIITDVIGNPEEERR 480 //12 10//58 2.25 1 DLKIITDVIGNPEEERR 480 //12 13//58 3.8 1.40909091 DLKIITDVIGNPEEERR 480 //12 7//72 1.29 0.68181818 DLKIITDVIGNPEEERR 480 //12 10//58 3.16 1.13636364 DLKIITDVIGNPEEERR 480 //12 10//58 2.86 0.86363636 KRPAPQQIQQVQQQAVQNR 101 //16 7//101 1.14 0.53846154 TATTQETDGFQVKRPGDVNVR 273 //18 14//112 3.39 1.2 KRPAPQQIQQVQQQAVQNR 101 //14 14//64 2.77 1.29166667 KRPAPQQIQQVQQQAVQNR 101 //14 12//83 2.4 1.125 KRPAPQQIQQVQQQAVQNR 101 //15 10//129 1.36 0.47058824 DALLAGLKQDEPGQAGSQKSSTK 1701 1//18 9//100 1.37 0.53125 KPLVNGICDFDKGDGSHLSK 1355 //7 3//35 1.16 0.66666667 ENEMHVGSLLNGRKYSDSSLPPSNSGK 1298 //14 13//155 2.28 0.55263158 ENEMHVGSLLNGRKYSDSSLPPSNSGK 1298 //14 15//155 2.93 0.68421053 LQSGVNTLQGFKEDKR 392 //17 15//110 3.88 1.26666667 LQSGVNTLQGFKEDKR 389 //17 9//84 2.55 0.89285714 LQSGVNTLQGFKEDKR 389 //17 14//110 3.03 1.16666667 KGPSTPYTK 318 3//6 6//26 0.45 0.8 KGPSTPYTK 318 2//6 6//26 0.58 1.1 TLDTAKEMEITEVEPPGRLDSSTQDR 497 //8 8//40 1.69 1.78571429 TLDTAKEMEITEVEPPGRLDSSTQDR 497 //8 7//40 1.9 1.71428571 LLHSGMKILSQER 230 //11 10//49 2 1.75 LLHSGMKILSQER 230 //11 7//49 1.49 0.875 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //6 3//28 0.52 0.8 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //12 13//78 2.84 1.625 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //12 13//78 3.22 1.375 HYKKYVHADAPTNK 65 1//5 6//22 1.18 1.25 TLDTAKEMEITEVEPPGRLDSSTQDR 497 //8 6//31 0.93 1.1 TLDTAKEMEITEVEPPGRLDSSTQDR 497 //8 6//31 1.05 1.1 AKDDIKK 15 2//8 13//30 2.44 2.4 KVQEAAR 740 3//8 11//29 1.21 2.2 DLKIITDVIGNPEEERR 480 6//17 29//109 6.98 2.6 DLKIITDVIGNPEEERR 480 2//17 21//109 5.8 1.7 DLKIITDVIGNPEEERR 480 //17 17//84 5.99 1.4 DLKIITDVIGNPEEERR 480 //17 9//109 2.25 0.63333333 VASAAAKAALEEFSR 716 //7 5//30 0.59 0.83333333 VASAAAKAALEEFSR 716 //17 14//84 3.22 1.14285714 VASAAAKAALEEFSR 716 //17 12//84 1.29 1.10714286 VASAAAKAALEEFSR 716 //9 6//40 1.25 0.77777778 VASAAAKAALEEFSR 716 //9 5//40 1.24 0.8125 KVQEAAR 740 //8 4//30 0.59 0.75 KVQEAAR 740 //8 4//30 0.32 0.33333333 KVQEAAR 740 3//8 9//36 2.4 2 KVQEAAR 740 1//7 6//31 1.22 1.41666667 KVQEAAR 740 //7 5//31 1.3 1.33333333 KVQEAAR 740 //7 5//31 1.09 1.33333333 VASAAAKSALEEFSK 694 1//8 7//34 2.15 1.5 EKPTDMQNFGLR 568 //6 5//26 1.04 1.6 VASAAAKAALEEFSR 716 //13 8//57 1.48 0.86363636 KRPAPQQIQQVQQQAVQNR 101 //8 5//40 1.08 0.92857143 YFYSKVQQR 498 //8 7//38 1.37 1.28571429 DLKTMTDVVGNPEEER 464 //17 12//84 3.45 0.93333333 KVQEAAR 740 4//8 8//29 2.61 1.66666667 KVQEAAR 740 4//8 9//29 2.36 2.1 KVQEAAR 740 4//8 8//29 2.35 2 KVQEAAR 740 3//8 8//29 1.62 1.7 KVQEAAR 740 3//8 6//29 1.68 1.5 KVQEAAR 740 2//8 4//29 0.96 0.6 KVEHEISEGNVATAAAAALASAATKAK 880 1//8 4//31 0.52 0.5 KFLESTDSFNNELKR 258 1//9 11//51 4.21 1.55555556 KFLESTDSFNNELKR 258 //9 7//41 2.94 1 VREEVPLELVEAHVKK 739 //8 2//31 0.24 0.16666667 VREEVPLELVEAHVKK 739 //8 3//31 0.44 0.41666667 RKHSPSPPPPTPTESR 326 4//10 5//47 0.94 0.55555556 GQPLPDHLQMAVQGKR 207 //17 14//109 3.94 1.39285714 ITPIQKPR 357 //6 5//27 1.73 1.6 KRPAPQQIQQVQQQAVQNR 101 //12 7//71 1.02 0.83333333 KRPAPQQIQQVQQQAVQNR 101 //10 8//36 1.79 1.3125 LKLIANNTTVER 379 //9 5//39 1.01 1.08333333 EQKKETER 493 //8 8//47 2.79 1.57142857 SKGAHTTMADALWR 1656 //12 10//62 3.74 1.5 ELFQEMNIELVPPYMIASKEAVR 226 //15 5//73 1.08 0.54166667 VASAAAKSALEEFSK 694 //8 6//37 1.53 0.8125 VSYKGSPAAR 835 //8 6//39 1.62 1 KYPDLERR 106 //12 11//52 2.57 1.15 KYPDLERR 106 //12 14//63 2.63 1.7 KYPDLERR 106 //12 10//63 2.28 1.2 HAEYSVILQEKER 168 //8 6//26 1.18 1.1 HAEYSVILQEKER 168 //8 7//25 0.8 1.16666667 DLSHKEKLYLR 118 //8 7//26 2.54 1.7 KYPDLERR 106 //8 7//30 2.4 1.5 KYPDLERR 106 2//8 9//29 2.66 1.75 KYPDLER 106 //8 7//30 0.93 1.33333333 KYPDLER 106 1//8 7//30 1.25 1.3 KYPDLERR 106 //8 8//36 1.16 1.5 KYPDLERR 106 //8 3//30 0.66 0.41666667 YKVLPTER 241 4//9 13//35 1.19 1.78571429 TKVSSYPVALIPGQFQEYYKR 249 //17 11//109 3.84 1 QKHQEYLNSILQHAK 447 //5 2//18 0.38 0.5 KVEEAAKVTGK 724 //8 7//29 2.11 1.5 MQVLKR 228 //7 5//31 2.22 1.33333333 QAFHMEQLKYAEMR 940 //14 17//65 6.48 2.13636364 MQVLKR 228 //8 9//36 3.14 2 MQVLKR 228 //8 8//36 2.59 1.71428571 MQVLKR 228 //8 8//36 2.86 1.57142857 MQVLKR 228 //8 6//36 2.65 1.42857143 KLEAELLQIEER 240 1//6 6//26 1.61 1.7 KLEAELLQIEERHQEK 240 //6 5//29 1.36 1.6 KLEAELLQIEER 240 1//6 6//26 1.6 1.7 KLEAELLQIEER 240 1//6 6//26 1.36 1.7 KLEAELLQIEERHQEK 240 //6 5//29 2.04 1.6 KLEAELLQIEERHQEK 240 1//6 6//29 1.74 1.7 KLEAELLQIEER 240 //6 4//26 0.9 0.8 KLEAELLQIEER 240 //6 4//26 0.82 0.8 KLEAELLQIEERHQEK 240 1//6 8//23 1.66 2.1 HIFAKVQQR 514 //8 7//38 1.25 1.5 DLKIITDVIGNPEEERR 480 2//17 21//109 5.88 1.96666667 DLKIITDVIGNPEEERR 480 //17 16//84 6.08 1.5 DLKIITDVIGNPEEERR 480 //17 13//109 1.82 1.03333333 VASAAAKSALEEFSK 694 2//13 15//57 3.15 1.77272727 VASAAAKSALEEFSK 694 //13 10//57 2.67 1.36363636 DFMLSFSRDPKGYVQDLLR 417 1//17 12//109 3.19 0.96428571 IKIIAPPER 329 2//7 5//23 0.95 1.375 HQGVMVGMGQKDCYVGDEAQSKR 51 //9 22//120 5.62 1.5 KKIPDPDSDDVSEVDAR 689 //9 8//50 2.36 1.05555556 DLTDYLMKILTER 192 1//8 9//35 2.39 1.64285714 DLTDYLMKILTER 192 1//8 9//35 2.15 1.64285714 LDLAGRDLTDYLMKILTER 192 //8 10//35 2.99 1.5 DLTDYLMKILTER 192 1//11 9//52 1.67 1.27777778 DLTDYLMKILTER 192 2//11 8//52 1.24 1 LDLAGRDLTDYLMKILTER 192 1//8 7//43 1.7 0.85714286 DLTDYLMKILTER 192 //10 5//47 1.14 0.55555556 VASAAAKSALEEFSK 694 2//13 11//57 2.86 1.31818182 VASAAAKSALEEFSK 694 2//13 10//73 2.63 1 VASAAAKSALEEFSK 694 //13 7//57 1.51 0.77272727 EGQEEVLKEVVESEGER 836 //8 4//26 0.36 0.5 EPKEGQEEVLK 828 //10 12//39 3.62 2.14285714 EPKEGQEEVLK 828 //10 11//39 2.76 1.85714286 SKTPEIYLAYR 457 //13 10//71 3.2 1.3 PDSPEYKAACKLWDLYLR 135 1//6 5//25 1.51 1.3 DLSHKEK 118 //5 4//23 1.3 0.9 AAKVAEQQER 1434 //5 5//21 0.96 1.625 DVHLSKEQESR 1642 //5 3//21 1.11 1 KEVDYSDSLTEKQWLK 1386 //20 35//147 12.2 2.73684211 GQPLPDHLQMAVQGKR 207 //13 11//73 3.09 1.5 GQPLPDHLQMAVQGKR 207 1//13 10//73 1.79 0.90909091 GQPLPDHLQMAVQGKR 207 //13 9//73 2.87 1.4 GQPLPDHLQMAVQGKR 207 1//13 12//57 2.4 1.18181818 GQPLPDHLQMAVQGKR 207 //13 9//57 2.03 0.85 GQPLPDHLQMAVQGKR 207 //13 11//57 2.29 0.95 LDGTTKAEDR 1131 //5 4//21 0.52 0.75 CAVLSFKDFLSCRPTEIPENDILLCESR 1239 //8 2//31 0.49 0.33333333 EAEKSEDSSGAAGLSGLHR 930 //15 8//79 1.54 0.61538462 VASAAAKAALEEFSR 716 //13 7//57 1.11 0.9 DVHLSKEQESR 1642 //8 10//36 3.3 1.85714286 DVHLSKEQESR 1642 //8 8//36 2.79 1.57142857 EAEKSEDSSGAAGLSGLHR 930 //17 9//119 0.72 0.40625 MANSTGKAPPDER 1//9 9//32 1.78 1.25 CTVLLMLDYQPPQFKLDPR 296 //11 7//53 1.01 0.75 CTVLLMLDYQPPQFKLDPR 296 //11 5//53 0.93 0.625 CTVLLMLDYQPPQFKLDPR 296 //11 5//53 0.96 0.625 KLEAELLQIEER 240 //10 9//47 1.24 0.78571429 KPVSFRQR 292 1//7 5//24 0.85 0.8 KPVSFRQR 292 2//7 7//24 0.81 1.1 KDLYANTVLSGGTTMYPGIADR 291 2//14 9//64 1.01 0.68181818 GILTLKYPIEHGIVTNWDDMEKIWHHTFYNELR 84 //11 6//65 1.55 0.7 MQKEITALAPSTMK 315 //10 7//38 1.18 1.28571429 MQKEITALAPSTMK 315 2//11 6//43 1.12 0.625 AKDDIKR 15 //8 9//30 2 1.33333333 AKDDIKR 15 1//8 9//30 1.56 1.33333333 AKDDIKR 19 //8 7//30 1.8 1.16666667 AKDDIKR 15 //8 7//29 1.8 1.2 EQKAKR 126 //7 6//34 1.63 1.41666667 peptide2 protein2 R.K[1448.71]VGR.R Q8WUB8:487 R.K[1448.71]VGR.R Q8WUB8:487 R.K[1448.71]VGR.R Q8WUB8:487 R.K[1448.71]VGR.R Q8WUB8:487 R.K[1795.82]M[147.04]ADK[284.17]VLPQR.I Q92925:139 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.21]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.19]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.2]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.18]LGINDIEGQR.V Q68CP9:275 R.K[2262.18]LGINDIEGQR.V Q68CP9:275 R.K[2262.18]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.GGILTSTGFYK[2510.37]C[160.03]LR.T Q68CP9:569 K.SSTK[2584.31]QPTVGGTSSTPR.A Q68CP9:1716 R.DFTDEK[2510.38]EGPITK.H Q68CP9:1760 R.DFTDEK[2510.38]EGPITK.H Q68CP9:1760 R.NLVFRDFTDEK[2510.38]EGPITK.H Q68CP9:1760 R.HM[147.04]QAK[2750.41]GILLTDGSEKDK.K P51531:984 R.K[2608.35]RQEER.E Q969G3:298 K.LEGAEEEK[3166.56]MEADPDGQQPEK.A Q92922:780 K.LEGAEEEK[3166.56]MEADPDGQQPEK.A Q92922:780 R.DTALETALNAK[2085.12]AYKR.S P51532:437 R.RDTALETALNAK[2241.2]AYK.R P51532:437 R.DTALETALNAK[2085.12]AYKR.S P51532:437 R.K[1243.68]KGEK.Q Q9NPI1:67 R.K[1243.68]KGEK.Q Q9NPI1:67 R.K[3199.56]VEEAAK.V Q8TAQ2:718 R.K[3199.54]VEEAAK.V Q8TAQ2:718 R.DRK[1792.97]ASANAR.K Q92922:317 R.DRK[1792.97]ASANAR.K Q92922:317 K.K[3309.75]TLAK.S Q92922:609 K.EK[3309.75]PVDLQNFGLR.T Q92922:592 K.EK[3309.75]PVDLQNFGLR.T Q92922:592 K.E[111.03]DK[1937.02]RNK.V Q9NPI1:392 R.M[147.04]QVLK[3199.52]R.Q Q969G3:228 R.M[147.04]QVLK[3199.52]R.Q Q969G3:228 K.IQK[1082.63]LTK.A P51532:499 R.GSLYK[1066.6]R.Y Q12824:45 R.VASAAAK[2262.22]AALEEFSR.V Q92922:716 R.VASAAAK[2262.22]AALEEFSR.V Q92922:716 R.VASAAAK[2262.22]AALEEFSR.V Q92922:716 R.VASAAAK[2262.22]AALEEFSR.V Q92922:716 R.K[1785.96]TKVER.D Q8TAQ2:846 R.VASAAAK[1785.92]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1785.9]SALEEFSK.M Q8TAQ2:694 K.SK[1785.96]AAASATR.E Q8TAQ2:592 K.SK[1785.99]AAASATR.E Q8TAQ2:592 R.KTK[1066.61]VER.D Q8TAQ2:848 R.KTK[1066.61]VER.D Q8TAQ2:848 R.K[1066.61]VEEAAK.V Q8TAQ2:718 R.K[1066.61]TKVER.D Q8TAQ2:846 R.K[1066.61]TKVER.D Q8TAQ2:846 R.K[1066.61]TKVER.D Q8TAQ2:846 K.K[1773.95]VQEAAR.A Q92922:740 K.K[1682.89]TLAK.S Q92922:609 R.DPK[1785.96]GYVQDLLR.S Q6STE5:417 K.K[2510.38]VQEAAR.A Q92922:740 K.K[1483.76]VQEAAR.A Q92922:740 R.VASAAAK[2098.03]AALEEFSR.V Q92922:716 R.MQVLK[1066.61]R.Q Q969G3:228 R.MQVLK[1066.62]R.Q Q969G3:228 R.MQVLK[1066.6]R.Q Q969G3:228 R.M[147.04]QVLK[1066.61]R.Q Q969G3:228 R.M[147.04]QVLK[1066.61]R.Q Q969G3:228 R.M[147.04]QVLK[1066.6]R.Q Q969G3:228 R.MQVLK[2874.55]R.Q Q969G3:228 R.EK[2093.08]EALEQQR.Q Q92922:925 R.EK[2093.08]EALEQQR.Q Q92922:925 R.MQVLK[2140.23]R.Q Q969G3:228 R.MQVLK[2140.23]R.Q Q969G3:228 R.EK[2036.04]EAAEQAER.S Q969G3:305 R.VASAAAK[2056.06]SALEEFSK.M Q8TAQ2:694 R.K[1217.75]M[147.04]ADK.V Q92925:139 Q96GM5:127 Q6STE5:102 R.ITEK[2510.37]LEK[284.17]QQK.I P51532:455 R.ITPIQK[2510.38]PR.G P51532:357 K.DFK[1636.99]EYHR.S P51531:463 P51532:487 K.EK[1468.77]LPQVTR.S O96019:242 R.LK[1809.92]LIANNTTVER.R O96019:379 R.LTC[160.03]EEEEEK[2986.59]M[147.04]FGR.G P51532:1365 K.YK[1773.95]VLPTER.T Q8WUB8:241 R.K[1300.71]YPDLER.R Q8WUB8:106 K.VSYK[1341.74]GSPAAR.R P51532:835 K.VSYK[1341.74]GSPAAR.R P51532:835 K.VSYK[1341.74]GSPAAR.R P51532:835 R.EQK[1866.98]AK[284.17]R.N Q12824:124 R.GSLYK[1866.98]R.Y Q12824:45 R.GSLYK[1823.02]R.Y Q12824:45 R.EQK[284.17]AK[1341.74]R.N Q12824:126 R.GSLYK[1341.74]R.Y Q12824:45 R.EQK[1185.64]AKR.N Q12824:124 R.EQK[1185.61]AK[284.17]R.N Q12824:124 R.EQK[1341.74]AK[284.17]R.N Q12824:124 R.EQK[1341.74]AKR.N Q12824:124 R.TDIYSK[1270.73]K.T Q92922:608 R.VASAAAK[2739.46]AALEEFSR.V Q92922:716 R.K[2102.13]VGR.R Q8WUB8:487 R.M[147.04]QVLK[1424.81]R.Q Q969G3:228 R.K[1055.61]TKVER.D Q8TAQ2:846 R.LC[160.03]GLK[2062.98]VEVDM[147.04]EK.I Q969G3:277 R.K[1039.62]VEEAAK.V Q8TAQ2:718 R.K[1039.62]VEEAAK.V Q8TAQ2:718 R.K[1055.61]VEEAAK.V Q8TAQ2:718 R.K[1055.62]VEEAAK.V Q8TAQ2:718 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[2258.23]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[2258.23]LEIK.L Q8TAQ2:898 Q92922:906 K.K[2258.23]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[1735.97]LEIK.L Q8TAQ2:898 Q92922:906 K.K[2258.23]LEIK.L Q8TAQ2:898 Q92922:906 R.K[1391.8]VEEAAK.V Q8TAQ2:718 R.VASAAAK[2262.22]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2262.22]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2262.22]SALEEFSK.M Q8TAQ2:694 R.DPK[1773.95]GYVQDLLR.S Q6STE5:417 R.DPK[1773.95]GYVQDLLR.S Q6STE5:417 R.VASAAAK[2568.33]SALEEFSK.M Q8TAQ2:694 R.IEK[1301.81]ER.M P51531:500 P51532:524 R.LPSHWLK[3017.41]SK[284.17]GAHTTM[147.04]ADALWR.L Q86U86:1654 K.IK[2151.07]IIAPPER.K Q562R1:329 P60709:328 K.EK[1892]LPQVTR.S O96019:242 K.EK[1892]LPQVTR.S O96019:242 K.EK[2517.35]LPQVTR.S O96019:242 R.KEK[1876]LPQVTR.S O96019:242 R.KEK[1892.01]LPQVTR.S O96019:242 K.EK[2517.35]LPQVTR.S O96019:242 R.K[1892]EKLPQVTR.S O96019:240 R.DVHLSK[1773.95]EQESR.L Q86U86:1642 R.DVHLSK[1773.95]EQESR.L Q86U86:1642 R.DVHLSK[1773.95]EQESR.L Q86U86:1642 R.KEK[2211.09]LPK.E Q86U86:909 K.EIEEDK[1550.79]LK.R Q86U86:918 K.EIEEDK[1550.82]LK.R Q86U86:918 R.YNVPNSAIYK[1605.85]R.V Q86U86:471 K.EK[2490.22]LYLR.E Q8WUB8:120 K.LK[1121.61]LSR.K Q86U86:640 R.K[1394.75]VGR.R Q8WUB8:487 R.K[1592.82]VGR.R Q8WUB8:487 R.EAEK[2234.15]SEDSSGAAGLSGLHR.T Q86U86:930 R.DVHLSK[2056.09]EQESR.L Q86U86:1642 R.DVHLSK[2040.09]EQESR.L Q86U86:1642 R.DVHLSK[2056.11]EQESR.L Q86U86:1642 R.DVHLSK[2040.09]EQESR.L Q86U86:1642 R.DVHLSK[2056.09]EQESR.L Q86U86:1642 R.DVHLSK[2056.06]EQESR.L Q86U86:1642 K.K[1370.7]NIR.K Q86U86:516 R.QKK[3634.78]SSR.K P51532:1408 K.NK[284.17]EK[2148.01]PVDLQNFGLR.T Q92922:592 R.DVHLSK[1785.98]EQESR.L Q86U86:1642 K.K[1592.82]VQEAAR.A Q92922:740 K.K[1592.82]VQEAAR.A Q92922:740 K.LNVDQK[2166.06]VIQAGMFDQK.S P51531:1197 P51532:1227 K.GKESNK[1654.77]K.G Q8WUB8:391 K.ATVELK[2615.37]ALR.L P51531:381 K.ATVELK[2615.39]ALR.L P51531:381 K.ATVELK[2615.38]ALR.L P51531:381 K.QQK[1736]IEQER.K P51531:437 P51532:461 R.NHK[1282.75]YR.S P51531:1460 P51532:1518 R.NHK[1282.75]YR.S P51531:1460 P51532:1518 R.RALPEFFNGK[2624.28]NK.S Q8TAQ2:453 Q92922:478 R.K[4350.12]GLAFLDELR.Q Q68CP9:15 R.E[111.03]GSPANWK[1829.94]R.K O96019:238 K.QC[160.03]VERK[1845.97]C[160.03]P. O96019:427 K.IQK[1110.64]LTK.A P51532:499 K.IQK[1110.64]LTK.A P51532:499 K.IQK[1110.64]LTK.A P51532:499 R.GSLYK[1110.64]R.Y Q12824:45 R.AK[1180.68]DDIKR.V Q4VC05:15 Unique_(—) protein2 subunit2 realpep2 position2 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 SMARCD2 KMADKVLPQR 139 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 GGILTSTGFYKCLR 569 1 ARID2 SSTKQPTVGGTSSTPR 1716 1 ARID2 DFTDEKEGPITK 1760 1 ARID2 DFTDEKEGPITK 1760 1 ARID2 NLVFRDFTDEKEGPITK 1760 1 SMARCA2 HMQAKGILLTDGSEKDK 984 1 SMARCE1 KRQEER 298 1 SMARCC1 LEGAEEEKMEADPDGQQPEK 780 1 SMARCC1 LEGAEEEKMEADPDGQQPEK 780 1 SMARCA4 DTALETALNAKAYKR 437 1 SMARCA4 RDTALETALNAKAYK 437 1 SMARCA4 DTALETALNAKAYKR 437 1 BRD7 KKGEK 67 1 BRD7 KKGEK 67 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC1 DRKASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 KTLAK 609 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 BRD7 EDKRNK 392 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCA4 IQKLTK 499 1 SMARCB1 GSLYKR 45 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC2 KTKVER 846 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 SKAAASATR 592 1 SMARCC2 SKAAASATR 592 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KTLAK 609 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCC1 EKEALEQQR 925 1 SMARCC1 EKEALEQQR 925 1 SMARCE1 MQVLKR 228 1 SMARCE1 MQVLKR 228 1 SMARCE1 EKEAAEQAER 305 1 SMARCC2 VASAAAKSALEEFSK 694 3 SMARCD2 KMADK 139 1 SMARCA4 ITEKLEKQQK 455 1 SMARCA4 ITPIQKPR 357 2 SMARCA2 DFKEYHR 463 1 ACTL6A EKLPQVTR 242 1 ACTL6A LKLIANNTTVER 379 1 SMARCA4 LTCEEEEEKMFGR 1365 1 PHF10 YKVLPTER 241 1 PHF10 KYPDLER 106 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCA4 VSYKGSPAAR 835 1 SMARCB1 EQKAKR 124 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 EQKAKR 126 1 SMARCB1 GSLYKR 45 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 SMARCC1 TDIYSKK 608 1 SMARCC1 VASAAAKAALEEFSR 716 1 PHF10 KVGR 487 1 SMARCE1 MQVLKR 228 1 SMARCC2 KTKVER 846 1 SMARCE1 LCGLKVEVDMEK 277 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 2 SMARCC2 KLEIK 898 1 SMARCC2 KVEEAAK 718 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCC2 VASAAAKSALEEFSK 694 2 SMARCA2 IEKER 500 1 PBRM LPSHWLKSKGAHTTMADALWR 1654 2 ACTBL2 IKIIAPPER 329 1 ACTL6A EKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 240 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM KEKLPK 909 1 PBRM EIEEDKLK 918 1 PBRM EIEEDKLK 918 1 PBRM YNVPNSAIYKR 471 1 PHF10 EKLYLR 120 1 PBRM LKLSR 640 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 PBRM EAEKSEDSSGAAGLSGLHR 930 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM KNIR 516 1 SMARCA4 QKKSSR 1408 1 SMARCC1 NKEKPVDLQNFGLR 592 1 PBRM DVHLSKEQESR 1642 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 2 SMARCA2 LNVDQKVIQAGMFDQK 1197 1 PHF10 GKESNKK 391 1 SMARCA2 ATVELKALR 381 1 SMARCA2 ATVELKALR 381 1 SMARCA2 ATVELKALR 381 2 SMARCA2 QQKIEQER 437 2 SMARCA2 NHKYR 1460 2 SMARCA2 NHKYR 1460 2 SMARCC2 RALPEFFNGKNK 453 1 ARID2 KGLAFLDELR 15 1 ACTL6A EGSPANWKR 238 1 ACTL6A QCVERKCP 427 1 SMARCA4 IQKLTK 499 1 SMARCA4 IQKLTK 499 1 SMARCA4 IQKLTK 499 1 SMARCB1 GSLYKR 45 1 BCL7A AKDDIKR 15

TABLE 10B HEK-293T BRD7 Intra Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 SMARCC2 1 SMARCC2:564- 17.99475 SMARCC2:568 −2 3.62767062 JL033017_033117_(—) NP 17.99475 0.42913611 7.64E−24 //14 39//111 PBAF_50B.13033.13033.4 −3 4.35524653 JL033017_033117_(—) N 9.7915 0.21796427 //12 9//62 PBAF_50B.14512.14512.4 0 11.8789513 JL033017_033117_(—) N 9.547 0.2309637 //12 9//62 PBAF_50B.14519.14519.4 0 12.4257209 JL033017_033117_(—) N 9.218 0.20240657 //12 8//62 PBAF_50B.13467.13467.4 0 1.37066306 JL033017_033117_(—) NP 8.71625 0.23367023 1.32E−05 //14 25//111 PBAF_50B.12972.12972.4 −1 −4.7365339 JL033017_033117_(—) NP 8.397 0.18951003 1.17E−05 //14 24//111 PBAF_50B.13312.13312.4 −2 −1.8820831 JL033017_033117_(—) P 7.44775 0.17375101 5.76E−08 //14 19//111 PBAF_50B.13280.13280.4 −2 0.83960246 JL033017_033117_(—) P 4.7615 0.13230983 2.21E−05 //14 18//111 PBAF_1.14408.14408.4 2 SMARCC2:564- 9.3075 SMARCC2:592 0 0.09518367 JL033017_033117_(—) N 9.3075 0.31993332 //9 8//38 PBAF_50B.07503.07503.4 −2 3.3926702 JL033017_033117_(—) N 9.0615 0.30638535 //9 6//38 PBAF_50B.07496.07496.4 3 SMARCC2:584- 10.405 SMARCC2:592 −1 9.65143832 JL033017_033117_(—) N 10.405 0.31739011 //9 10//40 PBAF_1.09037.09037.4 0 1.26645634 JL033017_033117_(—) N 7.83725 0.26624259 //9 9//40 PBAF_1.08998.08998.4 0 7.58249356 JL033017_033117_(—) N 6.56425 0.21058161 //9 13//39 PBAF_70B.06934.06934.4 −1 0.69913712 JL033017_033117_(—) N 6.55175 0.21042363 //9 11//39 PBAF_70B.07971.07971.4 −2 1.83332961 JL033017_033117_(—) N 6.3775 0.19191706 //9 10//39 PBAF_70B.07977.07977.4 0 −0.3282071 JL033017_033117_(—) NP 5.7585 0.23819077 2.41E−07 3//9 11//35 PBAF_1.05326.05326.4 0 5.12440909 JL033017_033117_(—) N 5.59725 0.17555319 //9 11//39 PBAF_70B.07986.07986.4 0 2.57472105 JL033017_033117_(—) N 5.54325 0.2231672 1//9 12//45 PBAF_70B.04224.04224.4 −3 4.22951438 JL033017_033117_(—) N 5.41375 0.17904981 //9 11//39 PBAF_1.08000.08000.4 −1 1.20044046 JL033017_033117_(—) N 4.9845 0.19577769 //9 11//45 PBAF_70B.04138.04138.4 0 12.3611926 JL033017_033117_(—) N 4.7765 0.1903026 //9 11//45 PBAF_1.05316.05316.4 0 −2.3357705 JL033017_033117_(—) NP 4.23625 0.19332132 9.88E−04 3//9 8//35 PBAF_70B.05217.05217.4 4 SMARCC2:769- 3.98425 SMARCC2:789 0 5.99948549 JL033017_033117_(—) NP 3.98425 0.26513059 4.61E−03 //12 8//56 PBAF_100D.03842.03842.4 5 SMARCC2:769- 6.22875 SMARCC2:773 0 1.41133245 JL033017_033117_(—) NP 6.22875 0.23799289 5.27E−07 1//12 16//55 PBAF_70B.04314.04314.4 0 −0.3010671 JL033017_033117_(—) NP 5.9105 0.23548747 4.35E−05 //12 14//55 PBAF_70B.04759.04759.4 −2 4.82732696 JL033017_033117_(—) N 5.89 0.24560087 //5 3//24 PBAF_100D.05036.05036.4 0 −1.0349526 JL033017_033117_(—) NP 5.223 0.27901386 8.63E−06 //12 12//55 PBAF_100D.04853.04853.4 0 6.79315947 JL033017_033117_(—) P 5.20625 0.22840441 6.00E−08 //12 12//55 PBAF_1.04388.04388.4 −1 1.7782752 JL033017_033117_(—) NP 4.81675 0.23243498 1.79E−03 //12 13//55 PBAF_1.04867.04867.4 0 −5.1936371 JL033017_033117_(—) NP 4.76825 0.21147108 1.15E−07 //12 12//55 PBAF_1.04367.04367.4 0 2.2675322 JL033017_033117_(—) P 4.297 0.22989674 1.24E−07 //12 9//55 PBAF_100D.04371.04371.4 −1 1.47248958 JL033017_033117_(—) P 4.06175 0.27839274 1.36E−07 //12 12//55 PBAF_100D.04521.04521.4 0 1.04403871 JL033017_033117_(—) N 3.51625 0.22821678 //5 4//24 PBAF_100D.05021.05021.4 −1 4.2055349 JL033017_033117_(—) N 3.07675 0.16630632 //8 3//30 PBAF_100D.04029.04029.4 0 8.75018748 JL033017_033117_(—) P 2.91625 0.16923947 6.07E−03 //12 9//55 PBAF_100D.05136.05136.4 0 10.8497603 JL033017_033117_(—) N 2.87925 0.16598928 //8 4//30 PBAF_100D.04018.04018.4 −1 0.0658757 JL033017_033117_(—) P 2.848 0.22002472 3.54E−02 //12 8//55 PBAF_100D.04670.04670.4 6 SMARCC2:836- 9.733 SMARCC2:846 0 4.01806453 JL033017_033117_(—) N 9.733 0.39656121 //7 5//29 PBAF_100D.13441.13441.4 −1 1.98069949 JL033017_033117_(—) P 9.50875 0.41498462 5.10E−09 //17 27//100 PBAF_100D.11224.11224.4 −1 2.32426242 JL033017_033117_(—) P 8.666 0.35991361 1.72E−07 //17 25//100 PBAF_85B.11140.11140.4 −1 0.04441174 JL033017_033117_(—) N 7.03725 0.34581931 //7 5//29 PBAF_100D.13419.13419.4 −2 −2.2279464 JL033017_033117_(—) P 6.573 0.31619964 2.79E−08 //17 23//100 PBAF_100D.11213.11213.4 −1 1.84719022 JL033017_033117_(—) P 6.5405 0.29069535 5.42E−05 //17 20//132 PBAF_100D.11219.11219.5 0 0.46001851 JL033017_033117_(—) N 3.951 0.17281197 //7 6//29 PBAF_100D.14861.14861.4 7 SMARCC2:836- 8.3215 SMARCC2:848 0 2.49604388 JL033017_033117_(—) P 8.3215 0.35533114 2.55E−06 //17 23//100 PBAF_100D.11530.11530.4 −3 6.46423597 JL033017_033117_(—) N 7.835 0.24396699 //8 6//26 PBAF_70B.12759.12759.4 0 −0.5362776 JL033017_033117_(—) P 7.39575 0.28682374 3.76E−03 //17 26//132 PBAF_85B.11424.11424.5 −1 1.89480876 JL033017_033117_(—) P 7.33575 0.28262252 1.58E−04 //17 21//100 PBAF_100B.11232.11232.4 −1 2.83882116 JL033017_033117_(—) N 7.07025 0.28930194 1//8 6//32 PBAF_100D.11429.11429.5 −1 8.85195804 JL033017_033117_(—) P 6.976 0.20244936 5.66E−04 //17 22//100 PBAF_1.11751.11751.4 0 4.64331218 JL033017_033117_(—) P 6.51275 0.19687878 6.99E−05 //17 21//100 PBAF_1.11730.11730.4 −1 −1.2565893 JL033017_033117_(—) P 5.2815 0.26978087 1.77E−05 //17 16//102 PBAF_100D.12274.12274.4 −2 1.63602614 JL033017_033117_(—) N 4.49375 0.16196028 //8 6//26 PBAF_85B.13206.13206.4 0 5.23376914 JL033017_033117_(—) N 4.033 0.18135216 //8 5//26 PBAF_100D.13335.13335.4 −1 −0.6221683 JL033017_033117_(—) P 3.74875 0.12131681 3.41E−02 //17 18//132 PBAF_85B.11593.11593.5 −1 1.01485711 JL033017_033117_(—) N 3.6035 0.11141687 //8 5//26 PBAF_70B.13522.13522.4 0 0.21526632 JL033017_033117_(—) P 3.33525 0.14905812 4.99E−01 //17 15//132 PBAF_5D.11061.11061.5 8 SMARCC2:694- 12.83275 SMARCC2:874 −2 0.19269523 JL033017_033117_(—) NP 12.83275 0.33396008 4.42E−09 1//17 25//86 PBAF_85B.11664.11664.4 −1 6.45390776 JL033017_033117_(—) NP 10.9395 0.29481755 2.03E−07 //17 21//86 PBAF_1.12045.12045.4 0 −0.8262429 JL033017_033117_(—) NP 8.58275 0.31030026 1.91E−10 //17 19//111 PBAF_85B.11702.11702.5 9 SMARCC2:694- 15.389 SMARCC2:704 −2 −2.5436209 JL033017_033117_(—) NP 15.389 0.40746134 2.51E−11 3//15 29//87 PBAF_85B.14061.14061.4 −3 9.89357554 JL033017_033117_(—) N 14.23375 0.46607672 //17 25//109 PBAF_70B.13882.13882.5 −2 2.69770704 JL033017_033117_(—) NP 13.9705 0.40088093 4.45E−10 3//15 28//87 PBAF_1.14794.14794.4 −1 1.31457883 JL033017_033117_(—) NP 13.74475 0.40027812 8.48E−12 2//15 28//87 PBAF_70B.14246.14246.4 −2 −0.0179129 JL033017_033117_(—) NP 13.47 0.49159687 3.77E−06 6//15 31//111 PBAF_1.14788.14788.5 −2 5.25981313 JL033017_033117_(—) NP 13.3095 0.42116005 3.09E−06 4//15 28//111 PBAF_85B.14050.14050.5 0 −3.6355642 JL033017_033117_(—) NP 13.2815 0.38586017 4.57E−14 1//15 25//87 PBAF_1.14798.14798.4 0 −6.1106358 JL033017_033117_(—) NP 12.52175 0.33368198 8.32E−03 //15 21//87 PBAF_70B.16064.16064.4 −2 0.69675434 JL033017_033117_(—) N 12.2025 0.43187047 //17 19//109 PBAF_85B.13676.13676.5 −1 1.23782189 JL033017_033117_(—) NP 11.39925 0.38680862 4.49E−08 3//15 25//111 PBAF_70B.14255.14255.5 −3 2.5521146 JL033017_033117_(—) NP 10.6375 0.30034587 2.82E−11 2//15 22//87 PBAF_1.14787.14787.4 −3 10.464743 JL033017_033117_(—) NP 8.981 0.34092548 7.62E−06 3//15 23//111 PBAF_1.14870.14870.5 0 1.79072213 JL033017_033117_(—) N 8.876 0.25593264 1//17 15//84 PBAF_50B.15592.15592.4 −2 1.80368598 JL033017_033117_(—) N 7.852 0.23641701 1//17 12//84 PBAF_50B.15615.15615.4 0 2.1362857 JL033017_033117_(—) N 6.268 0.19051093 //17 13//109 PBAF_1.14320.14320.5 0 4.70258997 JL033017_033117_(—) N 4.71625 0.13769269 //17 8//84 PBAF_1.16900.16900.4 0 12.2588019 JL033017_033117_(—) N 4.59925 0.1296111 //17 8//84 PBAF_1.16824.16824.4 0 1.23065515 JL033017_033117_(—) N 4.39225 0.12669647 //17 10//109 PBAF_85B.14099.14099.5 0 −5.2370811 JL033017_033117_(—) P 2.71625 0.07269504 6.02E−02 //15 5//87 PBAF_70B.14032.14032.4 10 SMARCC2:694- 7.4255 SMARCC2:848 −2 −1.638693 JL033017_033117_(—) NP 7.4255 0.19997307 9.08E−05 //17 13//211 PBAF_70B.16573.16573.5 11 SMARCC2:694- 11.43975 SMARCC2:718 0 4.13895024 JL033017_033117_(—) NP 11.43975 0.46209076 1.29E−10 //17 28//90 PBAF_70B.10916.10916.4 0 −5.3470022 JL033017_033117_(—) P 3.68675 0.15312649 2.04E−03 //17 20//90 PBAF_1.10994.10994.4 0 5.45083728 JL033017_033117_(—) P 3.4485 0.11752577 1.14E−01 //17 20//90 PBAF_70B.11589.11589.4 12 SMARCC2:694- 6.3115 SMARCC2:846 0 −1.2798456 JL033017_033117_(—) P 6.3115 0.29750878 6.52E−06 //17 15//115 PBAF_85B.09931.09931.5 0 −1.9776609 JL033017_033117_(—) NP 6.1645 0.29512867 3.85E−06 1//17 17//115 PBAF_85B.09870.09870.5 0 1.77930917 JL033017_033117_(—) N 5.899 0.18968761 //7 6//31 PBAF_70B.12620.12620.4 13 SMARCC2:718- 8.8975 SMARCC2:874 −1 2.98304474 JL033017_033117_(—) NP 8.8975 0.41582932 4.92E−12 1//10 19//53 PBAF_85B.05570.05570.4 0 −0.2575833 JL033017_033117_(—) NP 5.24625 0.20355605 1.43E−05 //10 13//53 PBAF_1.05419.05419.4 14 SMARCC2:718- 10.37325 SMARCC2:728 −3 4.47425779 JL033017_033117_(—) NP 10.37325 0.29767132 3.35E−08 //17 24//309 PBAF_50B.10630.10630.5 −2 −1.5719712 JL033017_033117_(—) NP 7.78475 0.22832192 2.32E−06 //17 21//309 PBAF_50B.10609.10609.5 −2 −0.9090075 JL033017_033117_(—) P 7.089 0.3086065 6.43E−03 //17 18//309 PBAF_100D.11343.11343.5 15 SMARCC2:718- 4.687 SMARCC2:846 0 0.10796447 JL033017_033117_(—) NP 4.687 0.29274539 8.80E−06 1//8 11//36 PBAF_100B.02941.02941.4 0 −5.4441506 JL033017_033117_(—) NP 4.179 0.22390099 1.65E−05 //8 10//36 PBAF_1.02761.02761.4 16 SMARCC2:718- 4.82 SMARCC2:848 0 0.83850592 JL033017_033117_(—) NP 4.82 0.28127918 2.13E−05 //8 11//36 PBAF_1.03044.03044.4 0 0.76545178 JL033017_033117_(—) P 3.9235 0.2438168 3.80E−06 //8 8//36 PBAF_100B.03252.03252.4 −2 0.9333412 JL033017_033117_(—) N 3.479 0.17505283 1//8 6//26 PBAF_70B.03478.03478.6 17 SMARCC2:848- 5.46925 SMARCC2:874 0 0.24233863 JL033017_033117_(—) NP 5.46925 0.28262667 1.60E−04 //10 14//52 PBAF_100B.05794.05794.4 18 SMARCC2:592- 5.90025 SMARCC2:718 −1 4.26093305 JL033017_033117_(—) NP 5.90025 0.31851062 1.40E−06 //9 10//43 PBAF_70B.03474.03474.4 −2 14.863989 JL033017_033117_(—) NP 5.20925 0.27767857 3.27E−05 //9 9//43 PBAF_70B.03497.03497.4 19 SMARCC2:592- 9.70175 SMARCC2:704 0 3.92140691 JL033017_033117_(—) NP 9.70175 0.37055746 6.30E−12 1//15 22//94 PBAF_85B.10076.10076.4 −1 0.39970619 JL033017_033117_(—) NP 8.99625 0.33295398 4.07E−06 2//15 23//118 PBAF_85B.10085.10085.5 20 SMARCC2:787- 10.00525 SMARCC2:796 −1 −0.3733527 JL033017_033117_(—) NP 10.00525 0.37135567 1.97E−03 //15 18//71 PBAF_100D.05508.05508.4 0 0.60522957 JL033017_033117_(—) NP 9.9205 0.35972514 1.10E−02 //15 18//71 PBAF_100D.05510.05510.4 −2 7.60614897 JL033017_033117_(—) P 6.71925 0.19047383 1.78E−01 //15 15//90 PBAF_85B.07682.07682.5 0 −4.1145982 JL033017_033117_(—) NP 6.48525 0.22555822 9.88E−04 //15 14//90 PBAF_100D.05507.05507.5 −1 9.8355803 JL033017_033117_(—) NP 6.169 0.29413307 1.94E−05 //15 12//79 PBAF_100D.05288.05288.4 −2 6.11815233 JL033017_033117_(—) N 4.542 0.22237999 //13 7//73 PBAF_100D.05279.05279.5 −1 −1.3122943 JL033017_033117_(—) NP 4.40825 0.21355214 8.37E−03 //15 8//90 PBAF_100D.05262.05262.5 0 0.53055843 JL033017_033117_(—) N 4.3035 0.27471195 //13 6//73 PBAF_100D.05666.05666.5 21 SMARCC2:787- 4.55825 SMARCC2:800 −2 3.54996248 JL033017_033117_(—) N 4.55825 0.20578542 //9 5//31 PBAF_100B.07223.07223.4 22 SMARCC2:787- 5.99675 SMARCC2:795 0 −1.6681424 JL033017_033117_(—) P 5.99675 0.23704443 2.60E−03 //15 13//90 PBAF_100D.07570.07570.5 23 SMARCC2:724- 8.0115 SMARCC2:848 0 2.33846597 JL033017_033117_(—) N 8.0115 0.30661334 //5 6//23 PBAF_70B.07970.07970.4 −1 6.06114584 JL033017_033117_(—) N 6.66375 0.26231622 //5 6//23 PBAF_70B.07953.07953.4 0 −4.0127905 JL033017_033117_(—) NP 5.357 0.21168893 2.37E−06 1//13 18//64 PBAF_1.04589.04589.4 0 7.06670155 JL033017_033117_(—) NP 4.482 0.18580934 8.65E−07 //13 15//64 PBAF_85B.04749.04749.4 24 SMARCC2:724- 8.69875 SMARCC2:846 −1 2.52636367 JL033017_033117_(—) N 8.69875 0.40642667 //7 9//39 PBAF_85B.07114.07114.5 25 SMARCC2:585- 6.19625 SMARCC2:704 0 1.08241637 JL033017_033117_(—) N 6.19625 0.20328904 //7 7//35 PBAF_85B.09715.09715.5 26 SMARCC2:585- 13.002 SMARCC2:592 −1 2.61433424 JL033017_033117_(—) N 13.002 0.4024764 //9 10//40 PBAF_70B.08936.08936.4 0 5.9278986 JL033017_033117_(—) N 8.95375 0.27640576 //9 11//40 PBAF_70B.08966.08966.4 0 −0.1808839 JL033017_033117_(—) NP 5.555 0.34090212 3.31E−08 //9 11//42 PBAF_70B.03805.03805.4 0 −3.176149 JL033017_033117_(—) NP 4.97875 0.26803499 3.93E−06 //9 9//42 PBAF_85B.04010.04010.4 0 −0.1808839 JL033017_033117_(—) NP 4.914 0.26152905 8.15E−09 //9 11//42 PBAF_1.03897.03897.4 0 5.22520422 JL033017_033117_(—) NP 4.20675 0.31992927 1.21E−10 //9 7//42 PBAF_100D.03875.03875.4 27 SMARCC2:568- 8.48 SMARCC2:592 0 8.54888518 JL033017_033117_(—) N 8.48 0.30533801 1//9 10//41 PBAF_70B.07750.07750.4 28 SMARCC2:568- 7.5725 SMARCC2:585 −1 1.51830007 JL033017_033117_(—) N 7.5725 0.29464407 //7 6//30 PBAF_70B.08082.08082.4 29 SMARCC2:568- 6.568 SMARCC2:584 −2 4.09238082 JL033017_033117_(—) N 6.568 0.20496177 1//9 10//32 PBAF_70B.08606.08606.4 30 SMARCC2:704- 17.23975 SMARCC2:874 0 3.89385778 JL033017_033117_(—) N 17.23975 0.62478708 1//10 13//46 PBAF_100B.10240.10240.4 0 −3.6681572 JL033017_033117_(—) NP 16.822 0.58372226 7.00E−08 1//15 35//91 PBAF_100B.10708.10708.4 0 0.75277335 JL033017_033117_(—) N 15.851 0.60635388 1//10 11//57 PBAF_100B.10228.10228.5 0 0.97401519 JL033017_033117_(—) NP 15.71375 0.58790243 8.14E−05 1//15 35//115 PBAF_100B.10706.10706.5 0 0.85057385 JL033017_033117_(—) N 14.7625 0.5344762 //10 9//46 PBAF_100B.10366.10366.4 −2 0.96954056 JL033017_033117_(—) NP 14.30775 0.48713867 2.46E−10 3//15 30//115 PBAF_100B.10730.10730.6 0 1.5536466 JL033017_033117_(—) N 14.16575 0.45355073 2//10 11//46 PBAF_100B.10241.10241.6 0 5.9957568 JL033017_033117_(—) N 12.86775 0.48610744 //10 10//57 PBAF_100B.10386.10386.5 −1 −1.8838783 JL033017_033117_(—) NP 12.80175 0.44626392 1.34E−08 1//15 30//115 PBAF_100B.10865.10865.5 −1 2.24819196 JL033017_033117_(—) N 12.0825 0.40762795 //10 9//57 PBAF_1.10464.10464.5 0 2.18874212 JL033017_033117_(—) N 11.5845 0.42334046 //10 9//46 PBAF_100B.10408.10408.6 −3 −0.5063325 JL033017_033117_(—) NP 11.08875 0.37550796 1.13E−10 1//15 26//115 PBAF_100B.10878.10878.5 −1 1.86422 JL033017_033117_(—) N 10.0765 0.36631162 //10 6//46 PBAF_100B.10404.10404.4 −1 6.70773168 JL033017_033117_(—) N 6.71 0.210771 //10 9//57 PBAF_100B.13171.13171.5 −1 −1.3698687 JL033017_033117_(—) NP 5.5005 0.21374862 1.25E−03 1//15 18//115 PBAF_100B.11469.11469.5 0 −2.6285268 JL033017_033117_(—) NP 5.17925 0.24035316 2.20E−04 //15 9//115 PBAF_100B.10297.10297.6 31 SMARCC2:704- 11.001 SMARCC2:848 0 2.01351914 JL033017_033117_(—) N 11.001 0.52301036 //5 4//25 PBAF_85B.09628.09628.5 32 SMARCC2:704- 16.12 SMARCC2:718 0 0.59288907 JL033017_033117_(—) N 16.12 0.45992753 //8 9//33 PBAF_85B.09518.09518.4 −2 7.38436436 JL033017_033117_(—) NP 14.76125 0.47023829 9.83E−07 //15 33//93 PBAF_85B.10095.10095.4 −3 1.51244958 JL033017_033117_(—) NP 14.62325 0.48717372 1.04E−07 //15 33//93 PBAF_85B.10088.10088.4 0 0.76680961 JL033017_033117_(—) NP 14.20675 0.45217066 1.67E−03 //15 35//93 PBAF_1.10059.10059.4 0 3.76283933 JL033017_033117_(—) N 13.3855 0.49534647 //12 15//77 PBAF_70B.11825.11825.5 0 6.42022663 JL033017_033117_(—) N 11.9535 0.41900205 //12 16//77 PBAF_70B.11835.11835.5 −1 0.31620696 JL033017_033117_(—) N 11.86825 0.40595338 //12 15//77 PBAF_70B.12275.12275.5 −1 1.76369219 JL033017_033117_(—) NP 11.56725 0.47143032 1.09E−06 2//15 38//116 PBAF_85B.10094.10094.5 −1 0.76017134 JL033017_033117_(—) N 11.5395 0.40118553 //8 6//41 PBAF_85B.09491.09491.5 −1 5.6083983 JL033017_033117_(—) NP 11.345 0.45601624 1.82E−06 3//15 35//116 PBAF_1.10057.10057.5 −1 4.24779062 JL033017_033117_(—) N 11.2025 0.33112632 //12 14//61 PBAF_70B.11816.11816.4 −2 −1.5916877 JL033017_033117_(—) NP 11.022 0.40977024 3.13E−05 1//15 33//116 PBAF_1.10093.10093.5 0 0.13874164 JL033017_033117_(—) N 7.41475 0.21386954 //12 12//61 PBAF_70B.12286.12286.4 33 SMARCC2:825- 4.72075 SMARCC2:836 −3 13.0657201 JL033017_033117_(—) N 4.72075 0.20382324 //18 9//93 PBAF_100D.15198.15198.4 34 SMARCC2:823- 6.26 SMARCC2:836 0 4.13843275 JL033017_033117_(—) N 6.26 0.26571022 //18 16//121 PBAF_100D.14423.14423.5 35 SMARCC2:823- 8.05775 SMARCC2:828 −2 1.66365401 JL033017_033117_(—) N 8.05775 0.3983562 //15 14//69 PBAF_100D.14659.14659.4 −2 12.3752962 JL033017_033117_(—) N 7.57075 0.31333292 //18 13//130 PBAF_100D.13899.13899.5 −1 1.86304342 JL033017_033117_(—) N 7.56575 0.30131026 //18 15//130 PBAF_100D.13870.13870.5 −2 6.77273246 JL033017_033117_(—) N 7.33125 0.33634216 //15 12//69 PBAF_100D.14955.14955.4 −2 10.7979472 JL033017_033117_(—) N 6.89325 0.29635641 //15 10//69 PBAF_100D.15038.15038.4 −2 13.2458929 JL033017_033117_(—) NP 6.6365 0.28485278 3.45E−04 //14 12//160 PBAF_100D.13816.13816.5 −2 −0.2752386 JL033017_033117_(—) NP 6.28425 0.25892544 1.68E−07 1//14 15//159 PBAF_100D.13104.13104.5 −1 5.83098378 JL033017_033117_(—) NP 6.15575 0.27437543 5.44E−08 1//14 14//159 PBAF_100D.13120.13120.5 −2 5.1024891 JL033017_033117_(—) N 6.05775 0.27019402 //18 11//130 PBAF_100D.14319.14319.5 −3 1.45653045 JL033017_033117_(—) N 5.6375 0.22551353 //15 7//69 PBAF_100D.14856.14856.4 −1 2.57028693 JL033017_033117_(—) NP 5.34625 0.21589234 8.34E−04 //14 16//160 PBAF_100D.13866.13866.5 −2 12.9927202 JL033017_033117_(—) N 3.78225 0.16827201 //15 8//88 PBAF_100D.12915.12915.5 −2 −1.0461536 JL033017_033117_(—) P 3.76125 0.1708533 2.08E−05 //14 9//160 PBAF_100D.12937.12937.5 0 −0.8661633 JL033017_033117_(—) P 3.58 0.16964815 5.80E−04 //14 10//159 PBAF_100D.12315.12315.5 0 4.60749577 JL033017_033117_(—) P 2.987 0.13647682 4.00E−04 //14 10//160 PBAF_100D.12962.12962.5 36 SMARCC2:341- 3.35875 SMARCC2:365 −1 4.36387449 JL033017_033117_(—) P 3.35875 0.10740954 2.08E−02 //4 12//243 PBAF_100B.11590.11590.6 −4 2.54292067 JL033017_033117_(—) P 2.761 0.08739693 1.07E−04 //4 11//243 PBAF_100B.11608.11608.5 0 −5.7231066 JL033017_033117_(—) P 2.68275 0.09663911 6.16E−02 //4 6//243 PBAF_85B.12438.12438.5 37 SMARCC2:341- 6.20475 SMARCC2:364 −3 3.08822664 JL033017_033117_(—) N 6.20475 0.17286797 //16 8//78 PBAF_100B.11620.11620.7 −1 4.92126412 JL033017_033117_(—) N 5.62925 0.15411625 //16 7//78 PBAF_100B.10845.10845.7 38 SMARCC2:796- 5.36275 SMARCC2:802 0 1.72943968 JL033017_033117_(—) NP 5.36275 0.32016418 4.28E−02 //13 10//64 PBAF_100D.03866.03866.4 −1 3.03321769 JL033017_033117_(—) P 4.909 0.34067803 5.80E−02 //13 12//64 PBAF_100D.03999.03999.4 −1 3.79375487 JL033017_033117_(—) P 3.26375 0.208227 3.88E−02 //13 8//64 PBAF_100D.03349.03349.4 −2 13.3547936 JL033017_033117_(—) P 2.99125 0.2085294 8.12E−02 //13 7//64 PBAF_100D.03596.03596.4 39 SMARCC2:789- 7.8475 SMARCC2:796 0 −1.2233323 JL033017_033117_(—) P 7.8475 0.28478371 9.57E−04 //18 17//148 PBAF_100D.08653.08653.5 0 1.78317359 JL033017_033117_(—) NP 4.32375 0.26229185 1.76E−08 //8 6//38 PBAF_100D.03078.03078.4 0 3.32816719 JL033017_033117_(—) NP 3.85925 0.24042924 4.64E−11 //8 9//40 PBAF_100D.03615.03615.4 0 2.73717152 JL033017_033117_(—) P 3.51675 0.16608813 1.27E−07 //8 7//40 PBAF_100D.03740.03740.4 0 1.55518017 JL033017_033117_(—) NP 3.4145 0.23102947 9.67E−06 //8 9//40 PBAF_100D.03483.03483.4 0 3.52516575 JL033017_033117_(—) P 3.336 0.280749 5.44E−07 //8 7//40 PBAF_100D.03317.03317.4 −1 2.47450678 JL033017_033117_(—) P 1.5195 0.07383382 1.84E−04 //8 6//40 PBAF_100D.03933.03933.4 40 SMARCC2:314- 2.2395 SMARCC2:318 0 1.85069662 JL033017_033117_(—) P 2.2395 0.13372944 3.24E−04 //10 8//45 PBAF_100B.03641.03641.4 41 SMARCC2:702- 10.6435 SMARCC2:874 −2 3.12389995 JL033017_033117_(—) N 10.6435 0.37502202 //10 9//46 PBAF_100B.13240.13240.6 −1 0.88627152 JL033017_033117_(—) N 10.361 0.33605241 //10 8//46 PBAF_100B.11809.11809.6 42 SMARCC2:702- 10.774 SMARCC2:718 −1 4.21951636 JL033017_033117_(—) N 10.774 0.31196884 //8 6//40 PBAF_85B.11670.11670.5 2 BRD7 1 BRD7:150- 15.16275 BRD7:230 −3 1.04844499 JL033017_033117_(—) N 15.16275 0.41151685 //15 9//95 PBAF_85B.18894.18894.5 2 BRD7:103- 3.3185 BRD7:119 −1 9.66656146 JL033017_033117_(—) P 3.3185 0.1124115 1.40E−01 //13 7//135 PBAF_85B.13115.13115.5 3 SMARCA2 1 SMARCA2:500- 3.41575 SMARCA2:521 0 0.46476937 JL033017_033117_(—) NP 3.41575 0.13682977 3.98E−04 2//9 10//34 PBAF_100B.05510.05510.4 0 4.09135333 JL033017_033117_(—) NP 2.72475 0.20271175 3.20E−04 //9 6//34 PBAF_100D.05699.05699.4 0 −1.4210543 JL033017_033117_(—) P 2.679 0.16056819 2.68E−04 //9 7//34 PBAF_100D.05551.05551.4 2 SMARCA2:1445- 3.8955 SMARCA2:1460 −1 1.13482959 JL033017_033117_(—) N 3.8955 0.26624974 2//7 7//24 PBAF_5D.08435.08435.4 −1 11.3399782 JL033017_033117_(—) N 3.26375 0.17756107 //7 6//33 PBAF_100D.08593.08593.4 3 SMARCA2:1445- 5.07725 SMARCA2:1451 0 0.91687679 JL033017_033117_(—) N 5.07725 0.31451713 3//7 13//31 PBAF_85B.09285.09285.4 4 SMARCA2:1051- 4.33975 SMARCA2:1061 −1 3.07473933 JL033017_033117_(—) N 4.33975 0.2381926 1//8 11//29 PBAF_85B.14082.14082.4 5 SMARCA2:1451- 3.0235 SMARCA2:1460 0 0.43232752 JL033017_033117_(—) N 3.0235 0.19061279 1//7 6//24 PBAF_5D.06301.06301.4 6 SMARCA2:1191- 11.331 SMARCA2:1207 −2 1.42120879 JL033017_033117_(—) N 11.331 0.37272413 //8 10//36 PBAF_85B.09125.09125.4 −1 −0.8886707 JL033017_033117_(—) NP 8.439 0.2194827 1.66E−08 //17 19//92 PBAF_85B.10329.10329.4 0 −1.0373233 JL033017_033117_(—) NP 7.7465 0.25921898 8.11E−07 1//17 29//121 PBAF_85B.10322.10322.5 −2 3.61611028 JL033017_033117_(—) N 7.01 0.24349578 //8 6//45 PBAF_85B.09123.09123.5 0 2.25760768 JL033017_033117_(—) N 6.9485 0.23918282 //8 6//45 PBAF_85B.09141.09141.5 0 11.744289 JL033017_033117_(—) N 5.44225 0.18258295 //8 6//45 PBAF_85B.10295.10295.5 −1 6.09825953 JL033017_033117_(—) N 5.0945 0.18363853 //8 7//36 PBAF_85B.09246.09246.4 7 SMARCA2:1450- 5.6945 SMARCA2:1453 0 1.81337518 JL033017_033117_(—) N 5.6945 0.22239797 //4 4//17 PBAF_85B.09520.09520.4 8 SMARCA2:1003- 3.06825 SMARCA2:940 0 17.9368411 JL033017_033117_(—) N 3.06825 0.10524646 //8 4//26 PBAF_10D.12516.12516.4 9 SMARCA2:190- 6.8525 SMARCA2:209 −3 0.01192839 JL033017_033117_(—) P 6.8525 0.18980154 4.31E−07 //18 13//96 PBAF_70B.17046.17046.4 0 −3.9423568 JL033017_033117_(—) NP 4.7555 0.13051652 6.62E−02 //18 11//96 PBAF_70B.17063.17063.4 10 SMARCA2:1286- 8.98225 SMARCA2:1302 −2 4.28814981 JL033017_033117_(—) N 8.98225 0.32985384 //15 7//73 PBAF_85B.19830.19830.4 −1 7.78002174 JL033017_033117_(—) N 7.88125 0.29881517 1//15 7//73 PBAF_85B.19899.19899.4 11 SMARCA2:1183- 9.55075 SMARCA2:1191 −1 −2.8529772 JL033017_033117_(—) P 9.55075 0.27614896 3.57E−07 //18 23//93 PBAF_50B.14297.14297.4 −3 1.96299949 JL033017_033117_(—) P 6.0355 0.15490138 2.76E−05 //18 17//93 PBAF_70B.16417.16417.4 4 SMARCB1 1 SMARCB1:124- 2.539 SMARCB1:45 −2 4.7517134 JL033017_033117_(—) N 2.539 0.11574317 2//8 8//28 PBAF_100B.03994.03994.4 0 1.9097844 JL033017_033117_(—) N 2.3375 0.10967227 3//8 8//29 PBAF_85B.07697.07697.4 0 0.14163967 JL033017_033117_(—) N 2.278 0.12646071 2//8 8//28 PBAF_1.03659.03659.4 2 SMARCB1:108- 8.3735 SMARCB1:124 −1 5.41021415 JL033017_033117_(—) P 8.3735 0.30639614 3.20E−02 //15 22//93 PBAF_70B.10510.10510.4 3 SMARCB1:70- 6.34875 SMARCB1:73 0 2.2798652 JL033017_033117_(—) NP 6.34875 0.40810915 1.77E−07 //11 13//44 PBAF_100B.03039.03039.4 5 PHF10 1 PHF10:347- 6.712 PHF10:355 0 7.83587435 JL033017_033117_(—) N 6.712 0.29619823 2//7 13//33 PBAF_70B.08695.08695.4 0 0.30954942 JL033017_033117_(—) N 4.962 0.21786569 //6 8//26 PBAF_70B.06271.06271.4 −1 4.7317791 JL033017_033117_(—) N 4.60325 0.18209419 //6 7//26 PBAF_70B.06257.06257.4 2 PHF10:349- 5.97325 PHF10:355 −1 2.36288614 JL033017_033117_(—) NP 5.97325 0.35385504 4.45E−05 //11 12//47 PBAF_100B.03045.03045.4 0 −1.3274804 JL033017_033117_(—) NP 5.41625 0.32605424 3.58E−06 //11 12//47 PBAF_100B.03047.03047.4 −3 21.9956363 JL033017_033117_(—) NP 4.82575 0.31256882 1.02E−05 //11 11//47 PBAF_1.02915.02915.4 −1 7.85056404 JL033017_033117_(—) N 4.58075 0.22740586 //7 9//33 PBAF_100B.05477.05477.4 0 4.49104567 JL033017_033117_(—) N 4.556 0.2602239 2//7 9//34 PBAF_70B.06460.06460.4 −1 1.60433546 JL033017_033117_(—) N 4.36825 0.22747156 1//6 7//26 PBAF_1.06313.06313.4 0 5.96641673 JL033017_033117_(—) N 4.11075 0.24532271 1//7 8//34 PBAF_70B.06457.06457.4 0 11.8659408 JL033017_033117_(—) N 3.995 0.20005508 1//7 7//33 PBAF_100B.05480.05480.4 0 0.62707442 JL033017_033117_(—) NP 3.555 0.18880952 5.68E−05 1//7 8//32 PBAF_100B.03253.03253.4 0 3.53176106 JL033017_033117_(—) N 3.15 0.1820178 //7 6//33 PBAF_100B.05334.05334.4 −1 2.94806944 JL033017_033117_(—) NP 3.119 0.20698809 1.22E−04 //11 11//48 PBAF_1.02589.02589.4 −3 11.1459586 JL033017_033117_(—) NP 3.1105 0.20749116 2.63E−04 //11 7//47 PBAF_1.02937.02937.4 0 2.38269339 JL033017_033117_(—) P 2.90525 0.1516785 4.12E−03 //7 8//32 PBAF_1.03107.03107.4 0 −0.2217015 JL033017_033117_(—) P 2.8955 0.22081983 2.77E−10 //11 12//48 PBAF_1.02597.02597.4 −1 4.6243341 JL033017_033117_(—) N 2.64475 0.18138331 //6 5//26 PBAF_100B.03198.03198.4 −1 3.8248146 JL033017_033117_(—) NP 2.54225 0.17233841 9.37E−05 //11 8//48 PBAF_10D.05029.05029.4 −1 3.55504686 JL033017_033117_(—) P 2.2615 0.1512355 4.36E−06 //11 10//48 PBAF_10D.04911.04911.4 0 5.84807264 JL033017_033117_(—) P 2.03575 0.12770529 2.28E−05 //11 10//48 PBAF_10D.05159.05159.4 −1 9.96203067 JL033017_033117_(—) P 1.64725 0.08255858 1.95E−03 //11 8//48 PBAF_10D.05299.05299.4 3 PHF10:195- 5.6955 PHF10:202 0 −1.8049882 JL033017_033117_(—) P 5.6955 0.24534235 3.03E−06 //13 17//65 PBAF_85B.06874.06874.4 0 1.35236311 JL033017_033117_(—) N 5.4635 0.23297514 1//6 8//27 PBAF_70B.10010.10010.4 −1 5.66692494 JL033017_033117_(—) P 2.135 0.10890357 5.80E−04 //13 11//65 PBAF_1.06589.06589.4 4 PHF10:201- 5.591 PHF10:206 −2 4.71848651 JL033017_033117_(—) N 5.591 0.19135137 //12 11//63 PBAF_70B.11870.11870.4 5 PHF10:201- 7.05725 PHF10:205 −2 8.8045724 JL033017_033117_(—) N 7.05725 0.20986856 //14 10//63 PBAF_85B.12385.12385.4 −1 5.05155477 JL033017_033117_(—) N 6.08375 0.20390636 //14 11//80 PBAF_85B.12380.12380.5 6 PHF10:202- 6.8605 PHF10:206 −1 0.49348755 JL033017_033117_(—) N 6.8605 0.23174233 //12 11//63 PBAF_70B.11924.11924.4 7 PHF10:355- 6.8275 PHF10:365 0 6.8401837 JL033017_033117_(—) N 6.8275 0.24711354 //7 6//33 PBAF_70B.10637.10637.4 0 1.37059826 JL033017_033117_(—) P 4.6315 0.23618654 1.88E−04 //14 14//72 PBAF_100B.07741.07741.4 −1 −0.7988324 JL033017_033117_(—) P 2.189 0.11461933 1.73E−01 //15 10//99 PBAF_5D.06957.06957.5 8 PHF10:190- 10.28725 PHF10:202 −3 5.71392815 JL033017_033117_(—) N 10.28725 0.31028216 1//12 4//49 PBAF_100B.07875.07875.6 −1 3.82394019 JL033017_033117_(—) N 3.978 0.16443792 1//12 4//62 PBAF_100B.07843.07843.5 9 PHF10:106- 12.355 PHF10:152 −2 2.23567859 JL033017_033117_(—) N 12.355 0.3775228 1//9 6//40 PBAF_100B.12453.12453.4 −1 4.87102036 JL033017_033117_(—) N 11.9375 0.4855603 //8 6//33 PBAF_100D.13510.13510.4 −1 1.41422882 JL033017_033117_(—) P 10.74375 0.35606575 8.31E−04 //17 25//86 PBAF_1.15269.15269.4 −1 2.08939523 JL033017_033117_(—) P 10.671 0.36931543 1.96E−05 //17 22//112 PBAF_100B.14169.14169.5 −2 3.86060084 JL033017_033117_(—) P 10.45175 0.33783434 7.31E−07 1//17 24//112 PBAF_85B.14401.14401.5 0 0.04734591 JL033017_033117_(—) N 10.39225 0.33241372 //8 7//33 PBAF_85B.13560.13560.4 −2 1.9144907 JL033017_033117_(—) N 9.889 0.40182036 //8 4//33 PBAF_100D.13502.13502.4 −1 −2.457709 JL033017_033117_(—) P 9.82325 0.32733256 3.02E−03 //17 21//86 PBAF_100B.14194.14194.4 −3 4.70949507 JL033017_033117_(—) P 9.46475 0.31359962 2.64E−03 //17 23//86 PBAF_1.15301.15301.4 0 4.7084635 JL033017_033117_(—) N 8.55525 0.27852748 //8 5//33 PBAF_70B.13800.13800.4 0 2.46026833 JL033017_033117_(—) N 8.07225 0.31860162 1//8 8//33 PBAF_70B.13697.13697.4 10 PHF10:106- 12.26775 PHF10:157 −2 1.55356881 JL033017_033117_(—) NP 12.26775 0.38562672 3.24E−06 2//14 31//145 PBAF_100B.10782.10782.5 0 7.50727801 JL033017_033117_(—) N 11.6445 0.32949449 //8 5//36 PBAF_100B.10726.10726.4 0 −7.5235991 JL033017_033117_(—) P 11.622 0.32885317 2.75E−08 //17 29//95 PBAF_100B.10726.10726.4 −1 8.13842093 JL033017_033117_(—) NP 10.7285 0.33640625 5.79E−12 //17 29//95 PBAF_100B.10836.10836.4 −1 4.95378333 JL033017_033117_(—) N 10.632 0.36044955 //8 8//33 PBAF_85B.13612.13612.4 0 −1.4784046 JL033017_033117_(—) P 8.946 0.29207614 4.24E−06 //17 29//123 PBAF_100B.10709.10709.5 0 5.69450203 JL033017_033117_(—) NP 8.178 0.304309 7.41E−12 //17 23//97 PBAF_85B.11585.11585.4 −2 1.897877 JL033017_033117_(—) NP 8.02225 0.28605431 5.11E−05 //17 27//125 PBAF_85B.11594.11594.5 −2 8.81436619 JL033017_033117_(—) N 7.9405 0.24436067 //8 6//41 PBAF_85B.13643.13643.5 0 −0.3037531 JL033017_033117_(—) P 7.1035 0.23918716 5.15E−08 //17 23//123 PBAF_100B.10870.10870.5 −1 3.15720812 JL033017_033117_(—) P 5.654 0.19496888 6.91E−10 //17 20//123 PBAF_100B.10732.10732.6 −4 4.09557793 JL033017_033117_(—) P 4.90125 0.19014044 5.46E−07 1//14 13//110 PBAF_100B.10798.10798.4 0 13.6345528 JL033017_033117_(—) N 4.0205 0.13112108 //8 7//33 PBAF_100B.10747.10747.4 −1 0.69043996 JL033017_033117_(—) P 3.8365 0.15771516 5.71E−03 //17 14//123 PBAF_100B.10889.10889.6 −2 −3.0439069 JL033017_033117_(—) NP 3.757 0.15254685 1.71E−04 //17 20//97 PBAF_1.12015.12015.4 −1 8.60828153 JL033017_033117_(—) P 3.736 0.13947585 1.05E−02 //17 15//95 PBAF_100B.10996.10996.4 −1 4.32458745 JL033017_033117_(—) N 3.2255 0.12327301 //8 8//33 PBAF_1.12034.12034.4 11 PHF10:106- 1.2475 PHF10:118 −2 2.69762444 JL033017_033117_(—) P 1.2475 0.06779707 1.64E−01 1//9 8//55 PBAF_5D.06703.06703.5 12 PHF10:106- 2.2635 PHF10:349 −1 3.78591354 JL033017_033117_(—) P 2.2635 0.1146163 1.03E−03 //9 2//45 PBAF_100B.06633.06633.4 13 PHF10:241- 16.77975 PHF10:249 −1 0.39899121 JL033017_033117_(—) N 16.77975 0.4489325 //8 6//36 PBAF_70B.17053.17053.4 0 6.15558603 JL033017_033117_(—) NP 14.5925 0.47331376 9.05E−07 //16 38//177 PBAF_85B.14888.14888.5 −1 −1.909141 JL033017_033117_(—) NP 14.2665 0.45712043 4.51E−08 //16 39//133 PBAF_85B.14909.14909.4 −2 6.20081774 JL033017_033117_(—) NP 14.05225 0.42193881 3.30E−08 1//16 31//127 PBAF_70B.16037.16037.4 14 PHF10:359- 6.6585 PHF10:365 0 2.04160725 JL033017_033117_(—) P 6.6585 0.25064463 8.24E−06 2//13 22//64 PBAF_100B.07889.07889.4 15 PHF10:365- 4.12675 PHF10:487 0 1.41627272 JL033017_033117_(—) N 4.12675 0.16332245 //5 4//21 PBAF_70B.11044.11044.4 6 SMARCE1 1 SMARCE1:255- 3.2455 SMARCE1:258 −2 0.37497218 JL033017_033117_(—) P 3.2455 0.14224355 4.91E−06 //15 16//125 PBAF_100D.09518.09518.5 −2 0.15616473 JL033017_033117_(—) P 2.85875 0.14833312 2.46E−07 //15 16//125 PBAF_100D.09369.09369.5 −2 −1.5942948 JL033017_033117_(—) P 2.53575 0.11406626 4.45E−06 //15 15//125 PBAF_100D.09712.09712.5 −1 −6.5393431 JL033017_033117_(—) P 2.50525 0.12783192 8.58E−07 //15 15//125 PBAF_100D.09399.09399.5 −2 −1.8131023 JL033017_033117_(—) P 1.7685 0.06905775 3.48E−05 //15 10//125 PBAF_100D.10796.10796.5 2 SMARCE1:271- 6.91325 SMARCE1:277 −2 3.61188578 JL033017_033117_(—) N 6.91325 0.19495361 //14 12//65 PBAF_70B.13623.13623.4 −1 17.0207113 JL033017_033117_(—) N 4.75225 0.14981873 //14 10//84 PBAF_85B.12846.12846.5 0 3.9415486 JL033017_033117_(—) N 4.62575 0.12990761 //14 10//84 PBAF_85B.12730.12730.5 −3 1.88193479 JL033017_033117_(—) N 4.58475 0.18463072 //14 9//65 PBAF_100D.13495.13495.4 3 SMARCE1:284- 4.0605 SMARCE1:305 0 10.0665533 JL033017_033117_(—) N 4.0605 0.10648956 1//10 5//59 PBAF_85B.15874.15874.5 4 SMARCE1:61- 11.179 SMARCE1:68 0 0.25666523 JL033017_033117_(—) NP 11.179 0.35887064 1.25E−15 //16 22//76 PBAF_50B.14626.14626.4 0 −3.647474 JL033017_033117_(—) P 9.5335 0.3303819 3.48E−11 //16 22//76 PBAF_50B.14471.14471.4 −2 2.88771557 JL033017_033117_(—) P 8.748 0.27154209 3.97E−12 //16 19//76 PBAF_1.16097.16097.4 −3 −1.6954044 JL033017_033117_(—) P 8.53625 0.26192449 5.80E−09 //16 19//76 PBAF_50B.14436.14436.4 0 3.05746075 JL033017_033117_(—) P 8.36575 0.28464614 1.98E−11 //16 20//76 PBAF_70B.15115.15115.4 0 3.5666963 JL033017_033117_(—) P 8.01525 0.3146567 4.17E−10 //16 18//76 PBAF_1.15933.15933.4 0 −1.1861688 JL033017_033117_(—) P 7.79625 0.25377179 3.47E−08 //16 19//76 PBAF_1.16090.16090.4 −1 2.5482252 JL033017_033117_(—) P 7.51175 0.23465419 3.62E−09 //16 18//76 PBAF_70B.15275.15275.4 0 3.65156889 JL033017_033117_(—) P 7.377 0.23830213 6.04E−04 //16 23//76 PBAF_1.15387.15387.4 −1 0.68102819 JL033017_033117_(—) P 6.962 0.20669794 2.57E−05 //16 21//76 PBAF_50B.14389.14389.4 −2 −3.3928562 JL033017_033117_(—) P 5.903 0.18624683 3.58E−05 //16 18//76 PBAF_50B.14779.14779.4 7 SMARCC1 1 SMARCC1:882- 11.51725 SMARCC1:893 −2 4.49537003 JL033017_033117_(—) N 11.51725 0.43938845 //10 8//46 PBAF_100B.16372.16372.4 0 5.67145255 JL033017_033117_(—) N 9.61675 0.34212961 1//10 10//57 PBAF_100B.16364.16364.5 2 SMARCC1:716- 12.13425 SMARCC1:750 −2 2.68135653 JL033017_033117_(—) NP 12.13425 0.44680205 2.46E−08 2//15 22//283 PBAF_100D.14531.14531.5 3 SMARCC1:716- 14.612 SMARCC1:739 0 7.28542765 JL033017_033117_(—) NP 14.612 0.45231388 6.05E−13 1//17 30//123 PBAF_100B.14995.14995.5 −1 3.25520213 JL033017_033117_(—) NP 11.072 0.37320929 2.92E−09 2//17 28//123 PBAF_100B.15003.15003.6 −3 14.2846191 JL033017_033117_(—) N 9.978 0.32622769 //17 18//84 PBAF_100B.15016.15016.4 4 SMARCC1:716- 9.0745 SMARCC1:882 0 15.5003089 JL033017_033117_(—) N 9.0745 0.26887407 1//10 10//48 PBAF_85B.12412.12412.4 −2 3.52168189 JL033017_033117_(—) N 7.65525 0.20635766 //10 8//48 PBAF_85B.12934.12934.4 5 SMARCC1:716- 10.7955 SMARCC1:740 −1 5.99329431 JL033017_033117_(—) NP 10.7955 0.40651065 1.63E−07 //17 28//90 PBAF_70B.11775.11775.4 −1 −2.3489188 JL033017_033117_(—) NP 9.01575 0.34373868 9.95E−08 //17 22//90 PBAF_1.12023.12023.4 0 0.63044301 JL033017_033117_(—) NP 4.499 0.16531628 4.71E−06 //17 16//90 PBAF_70B.11751.11751.4 6 SMARCC1:303- 3.80475 SMARCC1:317 0 1.31346047 JL033017_033117_(—) N 3.80475 0.18474144 //8 6//33 PBAF_85B.04570.04570.4 −1 −0.6378113 JL033017_033117_(—) NP 3.3535 0.1637811 1.69E−04 //16 12//108 PBAF_85B.04750.04750.5 −2 −2.320225 JL033017_033117_(—) P 3.0385 0.13472111 5.14E−03 //16 8//85 PBAF_1.04721.04721.4 −1 −5.8192959 JL033017_033117_(—) P 2.98675 0.14216865 3.89E−03 //12 10//57 PBAF_70B.04410.04410.4 −3 13.2533619 JL033017_033117_(—) N 2.73925 0.13786205 //11 5//40 PBAF_100B.04771.04771.6 7 SMARCC1:609- 10.34925 SMARCC1:615 0 7.78776243 JL033017_033117_(—) N 10.34925 0.40345594 1//8 8//36 PBAF_70B.10370.10370.4 8 SMARCC1:341- 6.968 SMARCC1:346 0 0.86383467 JL033017_033117_(—) NP 6.968 0.43916428 3.23E−09 1//10 16//46 PBAF_100B.03757.03757.4 −1 2.19835436 JL033017_033117_(—) N 6.731 0.26939086 //6 6//27 PBAF_85B.09464.09464.4 0 3.7010547 JL033017_033117_(—) NP 6.52075 0.3889966 2.74E−10 1//10 14//46 PBAF_100B.03616.03616.4 0 0.7428322 JL033017_033117_(—) N 6.42525 0.25387716 //6 8//27 PBAF_85B.06708.06708.4 −1 2.28244468 JL033017_033117_(—) NP 5.81125 0.26984514 1.11E−04 1//10 13//46 PBAF_100B.03524.03524.4 0 1.16248941 JL033017_033117_(—) NP 5.624 0.37373737 7.44E−10 //10 13//46 PBAF_100B.03896.03896.4 0 0.56517993 JL033017_033117_(—) NP 5.587 0.32952903 2.48E−10 1//10 13//46 PBAF_100B.03552.03552.4 9 SMARCC1:588- 14.491 SMARCC1:592 −1 1.0124406 JL033017_033117_(—) N 14.491 0.43358317 //12 8//62 PBAF_50B.17293.17293.4 −3 4.08424093 JL033017_033117_(—) N 13.37375 0.36980326 //12 8//62 PBAF_50B.17379.17379.4 −2 9.63284069 JL033017_033117_(—) N 9.94875 0.27180892 //12 7//62 PBAF_50B.17389.17389.4 −4 3.37936427 JL033017_033117_(—) P 8.51025 0.20621411 1.17E−05 //16 22//106 PBAF_50B.15701.15701.4 −2 5.23385021 JL033017_033117_(—) N 8.34875 0.27447193 //12 8//78 PBAF_50B.17342.17342.5 0 5.04811184 JL033017_033117_(—) N 8.34125 0.23109797 1//12 10//62 PBAF_50B.14220.14220.4 −1 6.38093486 JL033017_033117_(—) NP 7.69225 0.20133618 1.01E−04 //16 24//106 PBAF_50B.15796.15796.4 −1 −7.5354379 JL033017_033117_(—) P 7.6635 0.1947448 4.89E−06 //16 26//106 PBAF_50B.15786.15786.4 −2 4.55178123 JL033017_033117_(—) N 6.32425 0.16639041 1//12 8//62 PBAF_50B.14183.14183.4 −1 3.17471173 JL033017_033117_(—) NP 6.26875 0.17673635 6.04E−05 //16 17//106 PBAF_50B.15619.15619.4 −3 −2.4873419 JL033017_033117_(—) P 2.5465 0.06226009 3.68E−03 //16 12//106 PBAF_1.17064.17064.4 10 SMARCC1:342- 5.95 SMARCC1:346 0 0.34768083 JL033017_033117_(—) N 5.95 0.27312998 //5 8//23 PBAF_1.06518.06518.4 11 SMARCC1:342- 4.29675 SMARCC1:354 0 0.77703448 JL033017_033117_(—) N 4.29675 0.17053979 //5 5//23 PBAF_100B.06561.06561.4 0 −1.3448496 JL033017_033117_(—) P 4.0095 0.26502958 3.32E−05 //12 12//53 PBAF_100D.06138.06138.4 0 5.22690507 JL033017_033117_(—) P 3.315 0.17430397 8.55E−03 2//12 13//51 PBAF_100B.04068.04068.4 −1 −1.2085371 JL033017_033117_(—) P 3.03175 0.16134912 1.74E−03 //12 10//53 PBAF_100D.06291.06291.4 12 SMARCC1:478- 7.82175 SMARCC1:482 −2 −3.1389786 JL033017_033117_(—) NP 7.82175 0.33212671 5.41E−05 1//14 10//66 PBAF_100B.13680.13680.4 −1 −5.6197325 JL033017_033117_(—) P 6.07575 0.21339761 1.00E−01 //11 12//59 PBAF_70B.15369.15369.4 13 SMARCC1:592- 5.04575 SMARCC1:609 −1 −6.2404013 JL033017_033117_(—) NP 5.04575 0.21071809 7.90E−05 //12 16//69 PBAF_70B.12546.12546.4 14 SMARCC1:740- 24.06575 SMARCC1:750 −1 1.52144571 JL033017_033117_(—) NP 24.06575 0.69544141 2.64E−11 //15 49//290 PBAF_100D.10678.10678.5 −2 5.90334205 JL033017_033117_(—) NP 8.11625 0.39100325 5.22E−04 //15 21//210 PBAF_100D.10657.10657.4 15 SMARCC1:740- 6.6005 SMARCC1:740 0 0.68434114 JL033017_033117_(—) NP 6.6005 0.46421915 6.43E−05 2//8 11//36 PBAF_70B.03259.03259.4 −1 3.8302282 JL033017_033117_(—) N 6.322 0.42869736 1//8 10//36 PBAF_85B.03399.03399.4 −1 −1.1407795 JL033017_033117_(—) NP 6.2375 0.47064816 6.10E−04 1//8 8//36 PBAF_1.03222.03222.4 0 −5.2122024 JL033017_033117_(—) NP 6.114 0.41870977 1.30E−04 1//8 8//36 PBAF_1.03226.03226.4 16 SMARCC1:608- 7.682 SMARCC1:613 0 1.71957706 JL033017_033117_(—) N 7.682 0.25824887 2//9 15//33 PBAF_70B.09568.09568.4 0 0.54648084 JL033017_033117_(—) NP 3.3575 0.12434494 8.61E−05 5//9 16//33 PBAF_70B.06620.06620.4 0 1.96250256 JL033017_033117_(—) P 2.2055 0.09430856 2.24E−03 2//9 9//33 PBAF_1.06628.06628.4 17 SMARCC1:608- 9.63675 SMARCC1:615 −1 2.83615692 JL033017_033117_(—) N 9.63675 0.34710766 //8 8//36 PBAF_70B.10362.10362.4 0 −3.9563205 JL033017_033117_(—) NP 5.44075 0.28375665 4.21E−04 3//9 11//34 PBAF_100D.05383.05383.4 0 6.25442893 JL033017_033117_(—) N 4.67425 0.16886436 //8 8//38 PBAF_85B.05416.05416.4 −1 10.8476619 JL033017_033117_(—) N 3.62675 0.24220315 //8 6//38 PBAF_100D.05366.05366.4 8 ACTB 1 ACTB:291- 12.346 ACTB:326 −3 2.47828785 JL033017_033117_(—) N 12.346 0.30566972 1//17 16//120 PBAF_70B.13178.13178.5 −3 5.65593449 JL033017_033117_(—) N 10.88975 0.28037461 //15 9//69 PBAF_50B.14537.14537.4 −1 14.3137114 JL033017_033117_(—) N 10.472 0.25206099 //15 8//69 PBAF_50B.15407.15407.4 −2 4.86889148 JL033017_033117_(—) N 10.458 0.24195452 //15 7//69 PBAF_50B.15566.15566.4 −3 2.3251652 JL033017_033117_(—) N 10.29375 0.25175479 //17 11//120 PBAF_70B.13383.13383.5 −2 1.97622561 JL033017_033117_(—) N 10.08675 0.26538841 //15 8//69 PBAF_50B.14698.14698.4 −2 −0.0096229 JL033017_033117_(—) NP 9.71825 0.24025934 3.28E−04 //17 19//140 PBAF_1.16637.16637.4 −2 −0.3240737 JL033017_033117_(—) NP 8.1365 0.19651246 7.35E−03 //17 23//140 PBAF_50B.15398.15398.4 −1 1.23941816 JL033017_033117_(—) N 7.826 0.19899814 //15 9//69 PBAF_50B.14106.14106.4 −2 3.0943489 JL033017_033117_(—) N 7.746 0.222695 //15 8//69 PBAF_50B.14387.14387.4 −1 1.87595032 JL033017_033117_(—) N 7.27375 0.26485635 //11 12//108 PBAF_85B.17051.17051.4 −3 6.92370669 JL033017_033117_(—) N 6.73975 0.14087959 //14 7//64 PBAF_50B.15599.15599.4 2 ACTB:291- 14.08675 ACTB:328 −2 0.7518289 JL033017_033117_(—) N 14.08675 0.41753983 //10 8//60 PBAF_85B.13207.13207.5 −2 1.25591839 JL033017_033117_(—) N 12.63025 0.35251964 //9 7//50 PBAF_50B.13840.13840.5 −2 2.98910258 JL033017_033117_(—) N 12.60575 0.34070976 //9 6//40 PBAF_50B.13710.13710.4 −2 7.99547365 JL033017_033117_(—) N 11.335 0.31128565 //9 6//40 PBAF_50B.13791.13791.4 −2 6.98536918 JL033017_033117_(—) N 10.6755 0.31542325 //10 9//48 PBAF_70B.13328.13328.4 −1 4.09584074 JL033017_033117_(—) N 10.50925 0.30731497 //10 10//48 PBAF_70B.13317.13317.4 −1 7.36719274 JL033017_033117_(—) N 10.37925 0.31302401 //10 8//60 PBAF_70B.13362.13362.5 0 4.85343988 JL033017_033117_(—) N 10.002 0.30606812 //9 7//50 PBAF_50B.13842.13842.5 −1 6.66609447 JL033017_033117_(—) N 9.31275 0.29626831 //9 7//40 PBAF_1.14930.14930.4 −1 7.28383218 JL033017_033117_(—) N 9.184 0.26634186 //10 7//60 PBAF_70B.13759.13759.5 −2 5.61438294 JL033017_033117_(—) N 7.20625 0.28056259 //9 6//40 PBAF_100D.14600.14600.4 −2 3.19636106 JL033017_033117_(—) N 6.9255 0.3178074 //9 4//40 PBAF_100D.14091.14091.4 −1 2.22979114 JL033017_033117_(—) N 5.71725 0.18131581 //9 5//50 PBAF_1.14934.14934.5 0 16.7037846 JL033017_033117_(—) N 5.0855 0.15577474 //9 6//40 PBAF_50B.14824.14824.4 3 ACTB:113- 5.2145 ACTB:191 −1 4.44034564 JL033017_033117_(—) N 5.2145 0.14537623 1//15 12//96 PBAF_70B.19718.19718.5 4 ACTB:113- 17.43475 ACTB:373 −2 4.34144777 JL033017_033117_(—) N 17.43475 0.48497218 2//5 5//18 PBAF_1.14333.14333.4 0 0.2759456 JL033017_033117_(—) N 14.39525 0.4101503 2//5 5//18 PBAF_70B.13765.13765.4 0 3.06803825 JL033017_033117_(—) N 13.67625 0.38756093 2//5 6//18 PBAF_50B.12976.12976.4 −1 8.08105581 JL033017_033117_(—) N 13.27025 0.37348897 2//5 5//18 PBAF_1.14324.14324.4 0 4.63140653 JL033017_033117_(—) N 9.33925 0.24332369 2//5 5//18 PBAF_70B.13750.13750.4 5 ACTB:113- 4.81975 ACTB:61 0 −9.8314773 JL033017_033117_(—) NP 4.81975 0.16169046 9.12E−03 //14 15//126 PBAF_70B.12055.12055.4 6 ACTB:315- 5.75475 ACTB:328 0 4.38623209 JL033017_033117_(—) N 5.75475 0.1763854 //9 7//41 PBAF_50B.11877.11877.4 7 ACTB:326- 10.321 ACTB:328 −2 3.44162536 JL033017_033117_(—) N 10.321 0.45299333 1//16 15//113 PBAF_50B.17857.17857.6 9 PBRM 1 PBRM:214- 4.91625 PBRM:231 −2 0.58373645 JL033017_033117_(—) N 4.91625 0.17668464 //12 5//51 PBAF_1.23660.23660.4 2 PBRM:1424- 10.1775 PBRM:1434 −1 2.12456024 JL033017_033117_(—) N 10.1775 0.35295648 1//12 12//47 PBAF_70B.10470.10470.4 0 −2.365177 JL033017_033117_(—) NP 6.47775 0.30340749 4.16E−10 //15 9//73 PBAF_85B.07091.07091.4 0 −1.1904995 JL033017_033117_(—) NP 6.066 0.22758737 2.69E−03 //15 17//95 PBAF_85B.07124.07124.5 0 −6.0150893 JL033017_033117_(—) NP 5.5655 0.22612494 1.93E−01 //15 18//95 PBAF_85B.07109.07109.5 0 −5.8558907 JL033017_033117_(—) NP 5.27425 0.23908116 1.90E−04 //12 12//55 PBAF_70B.05196.05196.4 −1 0.63678994 JL033017_033117_(—) P 4.995 0.21827478 2.11E−09 //15 8//73 PBAF_1.06843.06843.4 0 0.49349197 JL033017_033117_(—) P 4.3555 0.25148681 5.18E−06 //14 7//69 PBAF_85B.04913.04913.4 −1 0.28608828 JL033017_033117_(—) NP 4.1515 0.19468674 1.08E−05 //14 6//69 PBAF_1.04814.04814.4 3 PBRM:414- 6.61325 PBRM:416 −2 −5.1047064 JL033017_033117_(—) NP 6.61325 0.190025 2.81E−02 //15 14//109 PBAF_70B.14433.14433.4 4 PBRM:414- 7.87525 PBRM:425 −3 3.34153659 JL033017_033117_(—) N 7.87525 0.19166555 1//15 13//141 PBAF_85B.16759.16759.5 −2 3.29433265 JL033017_033117_(—) N 6.4685 0.17159646 //15 12//141 PBAF_85B.15730.15730.5 5 PBRM:1380- 8.3335 PBRM:1398 0 2.66146653 JL033017_033117_(—) N 8.3335 0.24940145 //15 19//119 PBAF_100B.13267.13267.5 −2 8.92736103 JL033017_033117_(—) N 7.91525 0.2424681 1//15 14//119 PBAF_85B.13858.13858.5 −2 6.49377183 JL033017_033117_(—) N 7.58225 0.26956715 1//16 16//120 PBAF_85B.14785.14785.5 −3 14.1549406 JL033017_033117_(—) N 6.535 0.23182391 //16 12//120 PBAF_85B.14795.14795.5 6 PBRM:907- 4.17775 PBRM:918 0 0.72722068 JL033017_033117_(—) NP 4.17775 0.17898378 2.09E−03 //11 8//64 PBAF_100D.06682.06682.5 0 1.62560355 JL033017_033117_(—) NP 3.81675 0.16194628 2.97E−03 1//11 11//64 PBAF_100D.06833.06833.5 0 −0.823459 JL033017_033117_(—) NP 3.5805 0.19276946 5.36E−06 //11 11//52 PBAF_100D.06777.06777.4 0 0.13481603 JL033017_033117_(—) NP 3.34075 0.18901525 4.15E−05 //11 11//52 PBAF_100D.06933.06933.4 0 −7.3582252 JL033017_033117_(—) NP 3.07925 0.1430845 1.09E−01 //11 8//64 PBAF_5D.06254.06254.5 0 2.59039589 JL033017_033117_(—) P 2.17825 0.12374663 1.18E−02 //11 7//52 PBAF_100D.07079.07079.4 0 −2.1410873 JL033017_033117_(—) P 1.82575 0.08839478 2.06E−04 //11 9//52 PBAF_5D.06236.06236.4 7 PBRM:640- 9.463 PBRM:670 0 1.36518822 JL033017_033117_(—) NP 9.463 0.32536231 1.12E−03 //16 31//120 PBAF_85B.12246.12246.5 8 PBRM:640- 3.61525 PBRM:653 0 2.9195575 JL033017_033117_(—) N 3.61525 0.16409087 //5 3//28 PBAF_100B.05830.05830.5 0 0.10415654 JL033017_033117_(—) N 3.436 0.20833712 //5 6//23 PBAF_100B.05821.05821.4 9 PBRM:619- 10.936 PBRM:623 −2 3.14314218 JL033017_033117_(—) P 10.936 0.44715215 3.68E−02 2//16 29//137 PBAF_85B.10461.10461.5 −1 2.0838194 JL033017_033117_(—) P 10.46775 0.41862628 8.49E−03 2//16 26//137 PBAF_85B.10471.10471.5 0 3.41314028 JL033017_033117_(—) N 8.17225 0.23471337 1//8 5//26 PBAF_50B.12398.12398.4 0 −0.242085 JL033017_033117_(—) P 7.623 0.28504123 6.32E−02 //16 23//137 PBAF_85B.10508.10508.5 10 PBRM:644- 5.593 PBRM:651 0 0.88392389 JL033017_033117_(—) N 5.593 0.18922439 //8 7//34 PBAF_70B.07706.07706.4 11 PBRM:644- 3.05775 PBRM:653 −1 6.63506688 JL033017_033117_(—) N 3.05775 0.10001308 1//9 8//44 PBAF_70B.08084.08084.4 0 4.03105184 JL033017_033117_(—) N 2.148 0.10111804 //8 5//35 PBAF_85B.04914.04914.4 12 PBRM:483- 10.207 PBRM:485 0 0.10861866 JL033017_033117_(—) N 10.207 0.36676249 1//6 7//25 PBAF_70B.11958.11958.4 −1 3.03690243 JL033017_033117_(—) N 6.94125 0.29527182 //6 6//27 PBAF_70B.05491.05491.4 0 6.1468901 JL033017_033117_(—) N 5.138 0.24206733 //6 5//27 PBAF_70B.05504.05504.4 13 PBRM:485- 14.67075 PBRM:511 −2 4.97095357 JL033017_033117_(—) P 14.67075 0.48745701 6.02E−06 //17 30//196 PBAF_100B.08939.08939.5 0 −1.7501959 JL033017_033117_(—) P 12.9215 0.41846268 2.31E−03 //17 31//195 PBAF_85B.09698.09698.5 −1 2.12412836 JL033017_033117_(—) P 9.53975 0.32447026 3.19E−06 //17 25//195 PBAF_1.09717.09717.5 14 PBRM:485- 3.17825 PBRM:644 0 7.85069993 JL033017_033117_(—) P 3.17825 0.19133982 1.55E−05 //6 5//27 PBAF_100B.05000.05000.4 15 PBRM:1293- 7.9225 PBRM:640 −1 1.23268983 JL033017_033117_(—) NP 7.9225 0.32234112 1.38E−04 //16 20//120 PBAF_85B.10143.10143.5 0 0.04866035 JL033017_033117_(—) N 5.92825 0.23950106 //5 4//25 PBAF_85B.10159.10159.5 16 PBRM:1293- 8.8245 PBRM:1308 −2 3.54622854 JL033017_033117_(—) NP 8.8245 0.31719986 9.24E−10 3//16 22//125 PBAF_85B.12064.12064.5 −1 1.53234216 JL033017_033117_(—) NP 7.01925 0.20249102 8.29E−11 //16 19//98 PBAF_85B.12070.12070.4 17 PBRM:77- 17.13275 PBRM:96 0 1.07732766 JL033017_033117_(—) P 17.13275 0.57309751 4.64E−02 //12 40//175 PBAF_85B.13946.13946.5 −1 6.13103286 JL033017_033117_(—) P 10.95275 0.30355584 3.19E−04 //12 24//131 PBAF_70B.15082.15082.4 18 PBRM:1068- 4.03475 PBRM:920 0 2.40796558 JL033017_033117_(—) NP 4.03475 0.19434276 6.07E−08 //11 17//48 PBAF_100B.07314.07314.4 0 −0.1537905 JL033017_033117_(—) NP 3.196 0.18581936 1.07E−04 //11 13//48 PBAF_100D.07316.07316.4 19 PBRM:471- 12.29475 PBRM:475 0 2.1991971 JL033017_033117_(—) NP 12.29475 0.45397397 1.72E−11 4//14 23//65 PBAF_85B.12254.12254.4 0 3.03314505 JL033017_033117_(—) N 11.438 0.40067258 1//13 14//59 PBAF_70B.11515.11515.4 0 3.48234099 JL033017_033117_(—) N 10.58975 0.3149649 //13 11//73 PBAF_85B.10427.10427.5 0 2.9131524 JL033017_033117_(—) N 10.47125 0.34009159 //13 20//58 PBAF_85B.10408.10408.4 −2 4.17937173 JL033017_033117_(—) N 10.13525 0.31909485 1//13 16//55 PBAF_70B.13502.13502.4 −2 −1.4641812 JL033017_033117_(—) NP 9.9335 0.30205403 8.62E−07 5//14 26//81 PBAF_85B.12278.12278.5 −3 2.56826343 JL033017_033117_(—) N 9.66075 0.3396709 //13 13//59 PBAF_70B.11360.11360.4 −1 7.52042671 JL033017_033117_(—) N 8.926 0.28104092 //13 11//73 PBAF_85B.10872.10872.5 −1 4.23373061 JL033017_033117_(—) N 8.6885 0.29841493 //13 18//58 PBAF_100B.10296.10296.4 0 −2.1958424 JL033017_033117_(—) NP 8.4355 0.26558466 1.51E−06 2//13 19//57 PBAF_70B.13343.13343.4 −2 7.24582048 JL033017_033117_(—) NP 8.0235 0.26902379 3.94E−06 1//14 13//65 PBAF_1.12773.12773.4 −1 8.17042629 JL033017_033117_(—) N 7.7505 0.25360754 //13 13//59 PBAF_70B.11896.11896.4 −1 0.51241299 JL033017_033117_(—) NP 7.72525 0.23284255 1.06E−08 2//14 18//81 PBAF_85B.12506.12506.5 −1 8.04306347 JL033017_033117_(—) N 7.5935 0.22264085 //13 10//73 PBAF_85B.10716.10716.5 −1 −6.4266942 JL033017_033117_(—) NP 7.56775 0.22705521 5.43E−05 2//14 15//81 PBAF_1.13085.13085.5 0 7.73938088 JL033017_033117_(—) N 7.497 0.22797282 1//13 13//55 PBAF_70B.13299.13299.4 −2 −4.1514418 JL033017_033117_(—) NP 7.42975 0.25354047 8.36E−04 3//13 19//57 PBAF_1.14305.14305.4 −1 2.35395708 JL033017_033117_(—) N 7.339 0.20807167 1//13 12//55 PBAF_70B.13231.13231.4 0 −0.1558938 JL033017_033117_(—) NP 7.24525 0.28901809 1.20E−09 2//14 12//65 PBAF_100B.12020.12020.4 −1 7.85274231 JL033017_033117_(—) N 7.2175 0.25066421 //13 11//59 PBAF_1.14145.14145.4 −1 6.66855606 JL033017_033117_(—) N 7.08625 0.25698562 //13 13//59 PBAF_70B.11739.11739.4 −2 11.2949123 JL033017_033117_(—) N 6.9035 0.20754292 //13 10//73 PBAF_1.13183.13183.5 0 −0.8754084 JL033017_033117_(—) NP 6.86525 0.28478834 1.09E−07 2//14 18//81 PBAF_100B.12042.12042.5 0 2.44617669 JL033017_033117_(—) N 6.7995 0.24019712 //13 12//59 PBAF_85B.11427.11427.4 −2 1.21639016 JL033017_033117_(—) N 6.7595 0.23079418 //13 11//55 PBAF_70B.13653.13653.4 −3 18.172044 JL033017_033117_(—) N 6.60025 0.20532104 1//13 10//55 PBAF_70B.13722.13722.4 −2 0.46068654 JL033017_033117_(—) N 6.37825 0.230079 //13 10//73 PBAF_100B.10348.10348.5 −1 −4.0085205 JL033017_033117_(—) NP 6.2965 0.1980374 1.10E−03 1//14 14//81 PBAF_1.13074.13074.5 −3 −0.95137 JL033017_033117_(—) NP 5.67925 0.20290282 4.70E−04 1//13 15//57 PBAF_70B.13559.13559.4 −1 −6.3737139 JL033017_033117_(—) NP 5.59275 0.21852228 1.81E−02 3//13 14//57 PBAF_70B.13712.13712.4 −1 4.46281208 JL033017_033117_(—) N 5.45525 0.15396393 //13 11//59 PBAF_1.11693.11693.4 −3 11.1864591 JL033017_033117_(—) N 5.207 0.16074461 //13 11//59 PBAF_70B.14551.14551.4 −2 11.4744159 JL033017_033117_(—) N 5.09725 0.19225837 //13 12//59 PBAF_70B.13507.13507.4 −1 10.6962606 JL033017_033117_(—) N 4.80075 0.17555905 //13 12//59 PBAF_85B.13481.13481.4 −2 1.87997472 JL033017_033117_(—) N 4.7695 0.23327872 //13 9//59 PBAF_100D.11611.11611.4 −3 6.89400685 JL033017_033117_(—) N 4.63425 0.2394157 //13 8//59 PBAF_5D.11189.11189.4 −2 11.2411492 JL033017_033117_(—) N 4.45375 0.12662232 //13 11//59 PBAF_1.11931.11931.4 −1 1.01741509 JL033017_033117_(—) N 4.2975 0.13931211 //13 10//59 PBAF_70B.12729.12729.4 −1 1.62646563 JL033017_033117_(—) NP 4.15125 0.13710903 9.82E−03 //13 8//57 PBAF_70B.13890.13890.4 −2 0.1153206 JL033017_033117_(—) P 1.54325 0.0484613 5.20E−03 //13 6//57 PBAF_70B.13971.13971.4 20 PBRM:1066- 12.9985 PBRM:930 0 6.41639312 JL033017_033117_(—) N 12.9985 0.50517868 3//8 7//30 PBAF_85B.06948.06948.5 0 0.10915903 JL033017_033117_(—) P 7.71125 0.35287725 2.88E−03 //20 21//122 PBAF_100D.06795.06795.4 0 4.03777937 JL033017_033117_(—) P 4.90325 0.22424596 5.52E−03 //20 20//122 PBAF_1.06747.06747.4 21 PBRM:904- 2.844 PBRM:909 −1 10.6288001 JL033017_033117_(—) N 2.844 0.10477068 //5 4//27 PBAF_1.06028.06028.5 22 PBRM:904- 3.254 PBRM:907 −1 −6.0558058 JL033017_033117_(—) NP 3.254 0.15706907 4.18E−06 //12 10//73 PBAF_1.04564.04564.5 23 PBRM:1269- 5.163 PBRM:1272 −1 9.90908021 JL033017_033117_(—) N 5.163 0.20519037 //6 5//34 PBAF_1.05811.05811.5 0 1.57785711 JL033017_033117_(—) N 4.07075 0.16163391 //6 6//28 PBAF_100B.08063.08063.4 −1 0.67038173 JL033017_033117_(—) P 3.6245 0.12406086 4.68E−04 //12 16//68 PBAF_1.05319.05319.5 −2 0.99204591 JL033017_033117_(—) P 3.5545 0.15684155 8.47E−06 //12 13//56 PBAF_100B.07075.07075.4 −2 3.10595851 JL033017_033117_(—) P 3.10075 0.14433842 1.24E−03 //12 11//68 PBAF_10D.06599.06599.5 −1 4.71482073 JL033017_033117_(—) N 3.0305 0.10458655 //6 6//28 PBAF_100B.08811.08811.4 −1 10.1921602 JL033017_033117_(—) N 3.00475 0.18002756 //6 4//34 PBAF_5D.06223.06223.5 0 0.42965612 JL033017_033117_(—) P 2.97125 0.15082105 4.57E−02 //12 12//68 PBAF_10D.06668.06668.5 −1 9.91877028 JL033017_033117_(—) N 2.893 0.13907985 //6 4//34 PBAF_5D.05642.05642.5 −3 11.000982 JL033017_033117_(—) N 2.6655 0.10499055 //6 4//34 PBAF_1.05659.05659.5 −1 9.63777493 JL033017_033117_(—) N 2.65525 0.13576286 //6 4//34 PBAF_5D.05492.05492.5 −1 10.1997658 JL033017_033117_(—) N 2.49375 0.12433935 //6 4//34 PBAF_5D.05786.05786.5 −1 11.3939984 JL033017_033117_(—) N 2.333 0.13355468 //6 4//34 PBAF_5D.05347.05347.5 −1 14.2039688 JL033017_033117_(—) N 2.32 0.11175068 //6 4//34 PBAF_1.04735.04735.5 0 −1.4758249 JL033017_033117_(—) P 2.30875 0.1361773 2.08E−01 //12 11//56 PBAF_10D.06748.06748.4 −1 1.73240649 JL033017_033117_(—) P 2.274 0.11672912 8.32E−04 //12 9//68 PBAF_10D.06341.06341.5 −1 11.9559912 JL033017_033117_(—) N 2.2405 0.10368365 //6 4//34 PBAF_5D.05931.05931.5 −2 3.73517656 JL033017_033117_(—) P 2.237 0.12325069 2.82E−02 //12 10//56 PBAF_10D.06830.06830.4 −2 4.18830712 JL033017_033117_(—) P 2.23675 0.12420179 7.28E−05 //12 11//56 PBAF_10D.06315.06315.4 −2 1.66375342 JL033017_033117_(—) P 2.2225 0.10611631 1.30E−06 //12 14//56 PBAF_100B.06558.06558.4 0 −1.1987818 JL033017_033117_(—) P 2.1345 0.10453755 5.34E−04 //12 11//68 PBAF_10D.06491.06491.5 −2 3.03515686 JL033017_033117_(—) P 1.62725 0.08184951 1.06E−01 //12 8//68 PBAF_10D.06945.06945.5 −1 2.5820263 JL033017_033117_(—) P 0.80325 0.04082488 1.76E−01 //12 5//68 PBAF_10D.06153.06153.5 24 PBRM:329- 5.041 PBRM:485 −1 0.34412071 JL033017_033117_(—) NP 5.041 0.24734428 4.49E−08 //10 12//44 PBAF_100B.06252.06252.4 −2 −1.7020625 JL033017_033117_(—) NP 4.68725 0.24511701 6.92E−06 //10 9//44 PBAF_100B.06236.06236.4 25 PBRM:329- 4.2485 PBRM:640 0 0.5943688 JL033017_033117_(—) N 4.2485 0.18044937 //5 3//23 PBAF_85B.07857.07857.4 26 PBRM:329- 5.14925 PBRM:484 0 0.02440458 JL033017_033117_(—) P 5.14925 0.24231195 4.74E−08 1//10 15//44 PBAF_100B.06254.06254.4 27 PBRM:210- 15.83275 PBRM:231 −2 1.65600424 JL033017_033117_(—) NP 15.83275 0.42569166 3.31E−13 //11 34//130 PBAF_70B.19597.19597.4 −3 5.2804261 JL033017_033117_(—) P 12.052 0.3401397 8.21E−11 //11 25//130 PBAF_70B.19576.19576.4 −1 −1.9684176 JL033017_033117_(—) P 7.89375 0.24478642 2.97E−09 //11 22//130 PBAF_85B.19224.19224.4 −1 −3.6668924 JL033017_033117_(—) NP 7.01 0.1918288 3.89E−08 //11 21//177 PBAF_70B.19564.19564.5 −1 0.42519685 JL033017_033117_(—) NP 6.95925 0.17638002 3.99E−07 //11 20//177 PBAF_85B.19205.19205.5 −2 11.1262678 JL033017_033117_(—) NP 6.5725 0.21151123 1.84E−10 //11 17//130 PBAF_85B.19159.19159.4 −1 6.61860845 JL033017_033117_(—) NP 5.57575 0.15548878 2.03E−03 //11 22//177 PBAF_70B.19599.19599.6 −2 7.89325965 JL033017_033117_(—) NP 5.43225 0.15468563 3.01E−05 //11 15//177 PBAF_85B.19162.19162.5 −2 5.51425978 JL033017_033117_(—) P 5.42425 0.16123207 1.94E−08 //11 16//130 PBAF_1.20079.20079.4 −4 7.85259646 JL033017_033117_(—) P 5.25675 0.15152847 1.10E−06 //11 16//130 PBAF_1.20087.20087.4 0 −0.1916735 JL033017_033117_(—) P 5.0405 0.15412723 3.81E−07 2//14 20//66 PBAF_70B.17168.17168.4 −1 1.65600424 JL033017_033117_(—) P 4.3115 0.1240416 7.94E−03 //11 12//130 PBAF_1.20116.20116.4 0 18.5716088 JL033017_033117_(—) N 4.177 0.10770183 1//14 9//84 PBAF_1.20074.20074.5 −2 4.01720888 JL033017_033117_(—) P 2.775 0.083998 5.69E−02 //11 9//177 PBAF_85B.19241.19241.6 −2 −1.167795 JL033017_033117_(—) P 2.25475 0.07907242 9.42E−06 //11 10//177 PBAF_100D.19068.19068.5 28 PBRM:210- 3.5585 PBRM:225 −3 12.1969812 JL033017_033117_(—) N 3.5585 0.1053512 1//14 10//65 PBAF_85B.19233.19233.4 29 PBRM:1434- 3.7635 PBRM:475 −2 5.9848265 JL033017_033117_(—) N 3.7635 0.12871067 //12 9//50 PBAF_70B.08171.08171.4 30 PBRM:1434- 4.52375 PBRM:485 −1 0.7702632 JL033017_033117_(—) P 4.52375 0.30574142 1.13E−09 //12 14//54 PBAF_100B.04581.04581.4 31 PBRM:621- 5.13 PBRM:640 0 1.59413195 JL033017_033117_(—) N 5.13 0.23730774 //5 5//23 PBAF_85B.10414.10414.4 32 PBRM:623- 9.90875 PBRM:640 −2 5.87325535 JL033017_033117_(—) P 9.90875 0.38125241 5.54E−04 1//17 27//104 PBAF_70B.11434.11434.4 33 PBRM:623- 9.26325 PBRM:930 −2 8.13046675 JL033017_033117_(—) P 9.26325 0.24918961 2.25E−01 //17 7//145 PBAF_85B.12154.12154.5 34 PBRM:1019- 11.35625 PBRM:930 −1 1.2699859 JL033017_033117_(—) N 11.35625 0.40099045 //20 23//147 PBAF_100D.12505.12505.5 −2 6.64174843 JL033017_033117_(—) N 11.19525 0.40649395 //20 23//147 PBAF_100D.12500.12500.5 −1 −2.5592836 JL033017_033117_(—) P 8.595 0.3034904 2.27E−05 //19 23//158 PBAF_100D.12505.12505.5 35 PBRM:283- 4.33275 PBRM:294 −2 4.24930612 JL033017_033117_(—) N 4.33275 0.17569239 //8 6//26 PBAF_5D.07340.07340.4 36 PBRM:1266- 3.6455 PBRM:1272 −2 12.3673377 JL033017_033117_(—) N 3.6455 0.13643594 2//8 8//29 PBAF_85B.07151.07151.4 −2 14.287758 JL033017_033117_(—) N 2.11725 0.10197963 //6 5//34 PBAF_1.04730.04730.5 −1 9.91877028 JL033017_033117_(—) N 2.05275 0.11804877 //6 4//34 PBAF_5D.05344.05344.5 37 PBRM:1266- 3.2025 PBRM:1270 −1 12.2943343 JL033017_033117_(—) N 3.2025 0.13250445 //4 3//16 PBAF_85B.04745.04745.4 0 3.8819791 JL033017_033117_(—) N 3.10075 0.14145435 //4 3//16 PBAF_85B.04363.04363.4 38 PBRM:1266- 3.77025 PBRM:1308 −1 4.64929059 JL033017_033117_(—) N 3.77025 0.13410101 //9 13//44 PBAF_70B.08647.08647.4 39 PBRM:484- 7.958 PBRM:511 0 5.28272167 JL033017_033117_(—) N 7.958 0.2664613 //7 4//36 PBAF_85B.09547.09547.5 40 PBRM:484- 3.53425 PBRM:644 0 −3.0036889 JL033017_033117_(—) NP 3.53425 0.22175686 8.91E−08 //7 6//30 PBAF_100B.04983.04983.4 41 PBRM:670- 6.59975 PBRM:930 −2 −1.567462 JL033017_033117_(—) P 6.59975 0.28480344 3.72E−04 //20 15//147 PBAF_5D.09992.09992.5 −3 9.77761922 JL033017_033117_(—) P 5.6995 0.24667821 1.56E−01 //20 15//147 PBAF_5D.09750.09750.5 42 PBRM:1425- 6.323 PBRM:1434 0 −0.0757828 JL033017_033117_(—) NP 6.323 0.32968351 2.40E−11 1//12 14//53 PBAF_70B.04576.04576.4 −2 7.96050494 JL033017_033117_(—) NP 6.2795 0.35956826 6.71E−13 //14 8//68 PBAF_85B.04370.04370.4 −2 12.5203379 JL033017_033117_(—) N 5.34225 0.24186757 //8 8//44 PBAF_85B.04379.04379.5 0 −4.6462608 JL033017_033117_(—) NP 5.19675 0.29706748 2.21E−09 1//12 13//53 PBAF_1.04662.04662.4 0 −0.367046 JL033017_033117_(—) NP 3.90625 0.18421363 5.29E−08 //14 7//84 PBAF_85B.04374.04374.5 43 PBRM:1369- 6.467 PBRM:1398 0 5.53286185 JL033017_033117_(—) N 6.467 0.2301915 //9 5//28 PBAF_85B.09363.09363.4 44 PBRM:1369- 2.531 PBRM:1374 0 3.76011418 JL033017_033117_(—) N 2.531 0.1416697 //9 6//33 PBAF_85B.04540.04540.4 45 PBRM:925- 12.64525 PBRM:930 −1 0.06981058 JL033017_033117_(—) N 12.64525 0.41668177 //7 8//20 PBAF_70B.08012.08012.4 −1 −2.4899824 JL033017_033117_(—) P 11.74475 0.42580441 4.50E−03 //20 34//153 PBAF_5D.07427.07427.5 −3 0.41000667 JL033017_033117_(—) P 11.72125 0.42125645 6.02E−03 //20 33//153 PBAF_5D.07872.07872.5 −1 −0.4790411 JL033017_033117_(—) P 11.541 0.42797545 8.63E−01 //20 37//153 PBAF_5D.07278.07278.5 −1 −2.3841434 JL033017_033117_(—) P 10.669 0.37445599 8.01E−03 //20 32//153 PBAF_5D.07572.07572.5 −1 3.9877827 JL033017_033117_(—) P 9.12275 0.35725754 2.86E−04 //20 26//122 PBAF_100D.07728.07728.4 −1 0.31756492 JL033017_033117_(—) P 8.913 0.40523767 8.39E−02 1//20 26//122 PBAF_100D.06590.06590.4 −1 −3.1250165 JL033017_033117_(—) P 8.53425 0.2836147 1.88E−02 //20 33//153 PBAF_5D.06860.06860.5 46 PBRM:511- 11.8105 PBRM:640 −1 −1.3673763 JL033017_033117_(—) P 11.8105 0.42283801 3.47E−07 //17 29//195 PBAF_85B.10274.10274.5 −1 4.16875033 JL033017_033117_(—) P 7.67525 0.31419887 6.42E−03 //17 20//149 PBAF_1.10299.10299.4 47 PBRM:511- 13.3685 PBRM:516 0 −3.9469856 JL033017_033117_(—) P 13.3685 0.48123616 1.61E−05 //17 31//192 PBAF_85B.09350.09350.5 48 PBRM:1642- 11.18925 PBRM:1656 0 2.02639928 JL033017_033117_(—) N 11.18925 0.37168649 1//13 10//73 PBAF_100B.08762.08762.5 −3 2.0182161 JL033017_033117_(—) N 3.96575 0.1347222 //13 10//57 PBAF_1.10377.10377.4 49 PBRM:1642- 7.32725 PBRM:1654 0 −1.950899 JL033017_033117_(—) NP 7.32725 0.26336646 3.72E−05 //13 12//74 PBAF_100B.09403.09403.5 50 PBRM:317- 6.36 PBRM:485 −1 2.6689359 JL033017_033117_(—) NP 6.36 0.26895021 1.76E−05 //17 21//116 PBAF_85B.06709.06709.5 51 PBRM:317- 4.14225 PBRM:471 −2 5.50151808 JL033017_033117_(—) N 4.14225 0.14554127 //13 9//70 PBAF_85B.09578.09578.5 52 PBRM:317- 8.54825 PBRM:329 −2 3.53404881 JL033017_033117_(—) NP 8.54825 0.24713782 5.49E−09 //17 16//83 PBAF_85B.07366.07366.4 0 2.28747085 JL033017_033117_(—) N 6.1355 0.25153739 //10 6//38 PBAF_85B.06998.06998.4 −1 3.6239217 JL033017_033117_(—) N 5.98625 0.23690095 //10 7//47 PBAF_100B.07790.07790.5 −1 −1.4086711 JL033017_033117_(—) NP 5.9055 0.20988005 1.64E−03 //17 18//108 PBAF_1.07168.07168.5 0 8.47188397 JL033017_033117_(—) NP 5.86625 0.19571128 4.92E−07 //17 13//83 PBAF_1.07189.07189.4 0 −0.3088805 JL033017_033117_(—) NP 5.84475 0.20049225 2.02E−03 //17 20//108 PBAF_85B.07363.07363.5 −1 0.56767628 JL033017_033117_(—) N 5.75025 0.21366465 //10 9//38 PBAF_85B.07214.07214.4 0 −0.7577746 JL033017_033117_(—) NP 5.415 0.19272863 5.61E−03 //17 16//108 PBAF_85B.06947.06947.5 0 2.01813555 JL033017_033117_(—) N 4.58475 0.20276635 //10 5//38 PBAF_85B.06848.06848.4 −2 2.23691173 JL033017_033117_(—) N 4.23275 0.16032233 1//10 5//47 PBAF_1.06745.06745.5 0 17.3700165 JL033017_033117_(—) N 3.83025 0.12716 //10 8//38 PBAF_1.07186.07186.4 −1 2.95082543 JL033017_033117_(—) N 3.466 0.11843297 //10 5//47 PBAF_85B.07213.07213.5 53 PBRM:317- 5.887 PBRM:475 −1 2.48625672 JL033017_033117_(—) N 5.887 0.23034334 //13 12//72 PBAF_85B.09136.09136.5 0 7.60468778 JL033017_033117_(—) P 1.733 0.05496266 3.42E−02 //17 13//107 PBAF_85B.11073.11073.5 54 PBRM:317- 3.97325 PBRM:640 0 9.0896207 JL033017_033117_(—) N 3.97325 0.1650432 //5 4//21 PBAF_85B.07279.07279.4 55 PBRM:475- 5.24325 PBRM:640 0 0.39318042 JL033017_033117_(—) P 5.24325 0.23442949 1.12E−02 //13 15//65 PBAF_70B.12244.12244.4 56 PBRM:475- 5.65425 PBRM:484 0 1.56078118 JL033017_033117_(—) P 5.65425 0.23079513 1.28E−07 //13 22//65 PBAF_85B.10466.10466.4 −1 2.74843451 JL033017_033117_(—) N 3.65625 0.16049911 //7 5//38 PBAF_100B.08131.08131.5 57 PBRM:475- 4.41925 PBRM:644 0 3.95431199 JL033017_033117_(—) N 4.41925 0.15499886 //8 7//36 PBAF_70B.08681.08681.4 58 PBRM:475- 15.3855 PBRM:511 −2 8.75494728 JL033017_033117_(—) N 15.3855 0.44204221 //13 13//57 PBAF_70B.09788.09788.4 0 5.12339989 JL033017_033117_(—) N 13.622 0.37617884 //13 11//72 PBAF_70B.09753.09753.5 −1 0.2157404 JL033017_033117_(—) N 13.53475 0.36245381 //13 11//57 PBAF_70B.09798.09798.4 −2 13.108262 JL033017_033117_(—) N 10.56825 0.29098806 //13 11//72 PBAF_70B.09742.09742.5 0 3.79079642 JL033017_033117_(—) N 6.5335 0.19818604 //13 8//72 PBAF_70B.11698.11698.5 59 PBRM:475- 10.94025 PBRM:485 −1 1.65336883 JL033017_033117_(—) N 10.94025 0.38651298 //6 5//25 PBAF_70B.14083.14083.4 0 3.3367854 JL033017_033117_(—) N 6.56025 0.19878943 //6 5//25 PBAF_70B.11807.11807.4 −1 −0.0170155 JL033017_033117_(—) P 5.954 0.27164268 1.94E−08 //13 22//65 PBAF_100B.10332.10332.4 0 0.32274143 JL033017_033117_(—) N 5.71875 0.24081989 //7 7//32 PBAF_70B.13248.13248.4 −2 6.22243927 JL033017_033117_(—) N 5.45225 0.19508901 //6 6//28 PBAF_70B.11040.11040.4 0 −9.3878092 JL033017_033117_(—) P 5.35 0.22529162 5.81E−03 //14 15//72 PBAF_70B.13248.13248.4 0 0.88458259 JL033017_033117_(—) P 4.6205 0.19451051 1.08E−07 //13 18//65 PBAF_1.10436.10436.4 60 PBRM:1398- 19.4085 PBRM:1398 −2 6.75394652 JL033017_033117_(—) NP 19.4085 0.63159179 8.94E−04 //17 29//128 PBAF_85B.12498.12498.5 −2 6.51992171 JL033017_033117_(—) N 14.113 0.56057356 //17 20//98 PBAF_85B.12503.12503.4 −1 −0.6372379 JL033017_033117_(—) NP 13.1525 0.47096844 1.14E−03 //17 26//128 PBAF_85B.12516.12516.5 −1 2.74000118 JL033017_033117_(—) NP 12.473 0.41907034 2.47E−04 //17 19//128 PBAF_85B.12510.12510.6 61 PBRM:1398- 7.75825 PBRM:1642 0 −2.5674856 JL033017_033117_(—) NP 7.75825 0.2527776 7.82E−04 //17 20//130 PBAF_85B.10748.10748.5 62 PBRM:1398- 11.33075 PBRM:1424 0 13.7866222 JL033017_033117_(—) N 11.33075 0.32709073 1//9 12//29 PBAF_85B.10437.10437.4 0 0.24653961 JL033017_033117_(—) P 10.13825 0.32045548 1.02E−01 //17 35//134 PBAF_85B.10456.10456.5 63 PBRM:1398- 11.77575 PBRM:1434 −2 7.11750806 JL033017_033117_(—) NP 11.77575 0.39815895 1.85E−09 //17 27//131 PBAF_85B.09851.09851.5 −1 2.0178749 JL033017_033117_(—) NP 7.42425 0.24965532 2.21E−08 //17 19//131 PBAF_1.09820.09820.5 0 −4.36208 JL033017_033117_(—) NP 4.648 0.17032816 4.38E−09 //17 10//101 PBAF_1.09813.09813.4 64 PBRM:1398- 8.904 PBRM:1425 −2 4.1463571 JL033017_033117_(—) NP 8.904 0.28053814 9.26E−09 //17 27//133 PBAF_85B.10017.10017.5 −1 −0.4598981 JL033017_033117_(—) NP 5.89225 0.19968314 3.30E−10 //17 20//103 PBAF_85B.10014.10014.4 65 PBRM:549- 8.05325 PBRM:560 0 7.48440905 JL033017_033117_(—) N 8.05325 0.22865559 //14 10//65 PBAF_85B.18037.18037.4 0 3.80275541 JL033017_033117_(—) N 7.4175 0.23407545 //13 8//57 PBAF_85B.18066.18066.4 66 PBRM:549- 14.85575 PBRM:553 −2 0.95514668 JL033017_033117_(—) N 14.85575 0.43376986 3//9 16//45 PBAF_70B.13101.13101.4 0 1.08792101 JL033017_033117_(—) N 12.234 0.37959013 3//9 16//45 PBAF_70B.13085.13085.4 −2 2.70295669 JL033017_033117_(—) NP 11.986 0.32614966 7.74E−11 5//13 23//60 PBAF_70B.13828.13828.4 0 −2.3411659 JL033017_033117_(—) NP 11.97975 0.34538208 1.73E−17 5//13 24//60 PBAF_70B.13836.13836.4 −1 4.56676014 JL033017_033117_(—) N 10.45025 0.31567461 1//9 11//45 PBAF_70B.13433.13433.4 0 0.51997861 JL033017_033117_(—) N 9.92825 0.33952021 //9 9//45 PBAF_85B.13193.13193.4 0 0.80417439 JL033017_033117_(—) N 9.83775 0.26709065 1//9 8//45 PBAF_85B.13365.13365.4 0 5.46294828 JL033017_033117_(—) P 6.85675 0.22502913 7.62E−14 //13 15//60 PBAF_85B.13868.13868.4 0 10.1358791 JL033017_033117_(—) N 6.46025 0.19140064 //9 11//43 PBAF_100B.12942.12942.4 0 11.1135315 JL033017_033117_(—) N 5.9875 0.17826042 1//9 8//45 PBAF_85B.13381.13381.4 −1 0.41882571 JL033017_033117_(—) NP 5.76075 0.20087698 4.41E−10 //13 14//60 PBAF_1.14414.14414.4 0 2.22709607 JL033017_033117_(—) NP 4.236 0.16279159 7.16E−11 2//13 16//60 PBAF_1.14390.14390.4 0 0.56201405 JL033017_033117_(—) N 3.12075 0.12787863 //9 8//53 PBAF_100B.12571.12571.5 67 PBRM:1299- 7.033 PBRM:1308 −1 0.33018279 JL033017_033117_(—) N 7.033 0.18064367 //9 10//39 PBAF_50B.14426.14426.4 0 1.22819386 JL033017_033117_(—) N 5.80525 0.1560614 //9 10//39 PBAF_50B.14414.14414.4 10 SMARCA4 1 SMARCA4:1131- 6.901 SMARCA4:1365 0 6.52299321 JL033017_033117_(—) N 6.901 0.22869547 //12 9//49 PBAF_70B.08342.08342.4 2 SMARCA4:1131- 7.12375 SMARCA4:1414 −3 3.21695698 JL033017_033117_(—) NP 7.12375 0.3953027 1.26E−07 //17 13//103 PBAF_85B.04489.04489.4 3 SMARCA4:1221- 6.136 SMARCA4:835 −1 1.70663222 JL033017_033117_(—) NP 6.136 0.25149602 1.14E−07 2//12 15//54 PBAF_70B.08108.08108.4 −2 −2.5506632 JL033017_033117_(—) P 2.6755 0.09076568 2.60E−02 //12 7//54 PBAF_70B.08091.08091.4 4 SMARCA4:437- 9.456 SMARCA4:440 −1 11.7906965 JL033017_033117_(—) N 9.456 0.27869964 //17 16//85 PBAF_85B.11719.11719.4 −1 1.61503685 JL033017_033117_(—) N 8.46075 0.28334729 //17 18//85 PBAF_85B.12897.12897.4 −3 11.862489 JL033017_033117_(—) N 6.92025 0.19521983 //17 17//110 PBAF_85B.12386.12386.5 −2 18.9697525 JL033017_033117_(—) N 5.72325 0.15174594 //17 15//110 PBAF_85B.12213.12213.5 5 SMARCA4:1598- 7.3135 SMARCA4:1602 0 1.49203125 JL033017_033117_(—) N 7.3135 0.2779319 1//9 14//37 PBAF_70B.11090.11090.4 −1 11.8958693 JL033017_033117_(—) N 6.57925 0.25099666 1//9 13//37 PBAF_70B.10200.10200.4 0 0.54128077 JL033017_033117_(—) N 5.00025 0.19889618 1//9 10//37 PBAF_100B.08099.08099.4 0 2.36010168 JL033017_033117_(—) N 4.79875 0.2005831 //5 5//22 PBAF_85B.07808.07808.4 0 1.94229165 JL033017_033117_(—) N 4.5665 0.19622293 //5 7//22 PBAF_1.07629.07629.4 0 1.37603347 JL033017_033117_(—) N 4.36725 0.23431338 //5 6//22 PBAF_100B.03979.03979.4 0 0.13385526 JL033017_033117_(—) NP 3.2235 0.1623357 2.84E−05 1//8 8//35 PBAF_100B.04306.04306.4 −2 14.2665941 JL033017_033117_(—) N 2.9225 0.16227096 //5 5//22 PBAF_1.07611.07611.4 0 3.19147773 JL033017_033117_(—) NP 2.83475 0.16124858 2.41E−04 //8 8//35 PBAF_100B.04153.04153.4 0 0.59249863 JL033017_033117_(—) NP 2.7945 0.14302165 8.38E−04 1//8 7//35 PBAF_1.03852.03852.4 6 SMARCA4:1598- 4.8905 SMARCA4:1604 0 0.04811079 JL033017_033117_(—) N 4.8905 0.22003509 //9 8//36 PBAF_100B.08247.08247.4 0 −0.171907 JL033017_033117_(—) P 2.1505 0.12449706 1.29E−03 //6 4//26 PBAF_100B.03903.03903.4 −1 −0.0190259 JL033017_033117_(—) P 1.60125 0.09094394 2.28E−03 //6 4//26 PBAF_100B.03868.03868.4 7 SMARCA4:1602- 4.16825 SMARCA4:1610 0 0.2105309 JL033017_033117_(—) N 4.16825 0.19599154 //5 5//22 PBAF_85B.05897.05897.4 0 1.50536317 JL033017_033117_(—) N 3.97075 0.22917208 //5 5//22 PBAF_1.05772.05772.4 8 SMARCA4:455- 4.022 SMARCA4:461 −1 6.92798674 JL033017_033117_(—) N 4.022 0.14566922 //9 11//36 PBAF_70B.07074.07074.4 9 SMARCA4:1414- 8.09325 SMARCA4:1492 −2 2.14433827 JL033017_033117_(—) N 8.09325 0.29214345 //12 18//64 PBAF_85B.11396.11396.4 10 SMARCA4:1596- 5.1075 SMARCA4:1610 0 1.79409217 JL033017_033117_(—) N 5.1075 0.26673804 1//5 6//22 PBAF_85B.09999.09999.4 11 SMARCA4:1596- 4.48675 SMARCA4:1602 −1 2.73762884 JL033017_033117_(—) N 4.48675 0.20750856 2//4 6//17 PBAF_85B.06604.06604.4 0 3.78611569 JL033017_033117_(—) N 4.19775 0.18246724 1//9 11//36 PBAF_70B.10388.10388.4 0 2.39914252 JL033017_033117_(—) N 3.2355 0.14967387 //4 4//17 PBAF_1.06395.06395.4 12 SMARCA4:626- 7.999 SMARCA4:689 0 13.8282488 JL033017_033117_(—) N 7.999 0.26963982 //19 11//129 PBAF_85B.10973.10973.5 −1 −1.2999327 JL033017_033117_(—) NP 5.333 0.15860459 3.58E−05 //16 10//132 PBAF_85B.10988.10988.6 13 SMARCA4:1349- 13.93675 SMARCA4:1365 0 3.50771623 JL033017_033117_(—) N 13.93675 0.37350923 //15 11//73 PBAF_70B.18422.18422.4 −2 3.43262388 JL033017_033117_(—) N 12.11225 0.33468037 //15 7//73 PBAF_70B.19220.19220.4 −3 0.94147778 JL033017_033117_(—) N 9.7795 0.3462444 //15 6//73 PBAF_85B.18050.18050.4 −1 1.94336515 JL033017_033117_(—) N 8.881 0.32529944 //15 9//73 PBAF_85B.19524.19524.4 14 SMARCA4:689- 7.93825 SMARCA4:711 −2 0.12336244 JL033017_033117_(—) P 7.93825 0.26468774 3.89E−08 //10 19//172 PBAF_85B.12057.12057.5 15 SMARCA4:711- 3.68825 SMARCA4:835 −2 9.99793165 JL033017_033117_(—) N 3.68825 0.12280454 //12 6//58 PBAF_85B.11393.11393.5 16 SMARCA4:1492- 9.07625 SMARCA4:835 −1 −2.5260055 JL033017_033117_(—) NP 9.07625 0.32206412 2.07E−08 2//12 23//69 PBAF_70B.13329.13329.4 17 SMARCA4:1492- 6.09575 SMARCA4:1602 0 1.80761492 JL033017_033117_(—) N 6.09575 0.25077135 //8 5//38 PBAF_70B.13662.13662.4 18 SMARCA4:496- 5.21225 SMARCA4:502 0 5.49238514 JL033017_033117_(—) N 5.21225 0.14240537 //10 7//36 PBAF_85B.07915.07915.4 11 ACTL6A 1 ACTL6A:226- 14.89475 ACTL6A:240 −3 0.23926107 JL033017_033117_(—) N 14.89475 0.45728693 //10 7//57 PBAF_85B.14661.14661.5 0 3.24896782 JL033017_033117_(—) NP 9.86575 0.25493553 4.68E−08 //12 26//190 PBAF_85B.17326.17326.5 −1 −1.7674933 JL033017_033117_(—) P 9.8365 0.26155339 1.93E−06 //12 27//190 PBAF_85B.17292.17292.5 −1 4.4981727 JL033017_033117_(—) N 9.59525 0.33573303 //10 5//48 PBAF_70B.16839.16839.4 2 ACTL6A:135- 8.93325 ACTL6A:421 −2 8.93790327 JL033017_033117_(—) N 8.93325 0.28668507 //14 13//66 PBAF_85B.17748.17748.4 −1 5.86939599 JL033017_033117_(—) N 8.82175 0.2900508 1//14 14//66 PBAF_70B.18008.18008.4 −2 5.35707419 JL033017_033117_(—) N 7.99525 0.2769925 //14 11//66 PBAF_85B.19426.19426.4 −3 8.09294228 JL033017_033117_(—) N 7.098 0.23559871 //14 12//66 PBAF_1.20373.20373.4 −2 4.44075022 JL033017_033117_(—) N 5.7275 0.21137806 //14 12//66 PBAF_1.20358.20358.4 −4 7.247282 JL033017_033117_(—) P 5.53375 0.18941793 9.65E−07 1//14 14//119 PBAF_70B.18085.18085.4 0 −2.4544005 JL033017_033117_(—) NP 5.309 0.19110871 3.67E−06 //14 17//119 PBAF_100B.17483.17483.4 3 ACTL6A:238- 12.6945 ACTL6A:240 0 0.16607583 JL033017_033117_(—) N 12.6945 0.36325526 5//11 25//45 PBAF_70B.11709.11709.4 −2 0.48507966 JL033017_033117_(—) NP 10.74175 0.37569732 2.04E−04 //10 12//63 PBAF_100B.08497.08497.5 0 3.15539304 JL033017_033117_(—) NP 9.72925 0.27700904 1.11E−10 //10 10//52 PBAF_100B.08514.08514.4 0 0.46682573 JL033017_033117_(—) N 9.25725 0.31049489 2//11 19//45 PBAF_1.12083.12083.4 −1 4.85086213 JL033017_033117_(—) N 9.1535 0.3217512 1//10 18//42 PBAF_70B.09698.09698.4 −2 0.73431243 JL033017_033117_(—) N 8.5565 0.34767681 2//10 16//51 PBAF_100B.08539.08539.5 0 2.58926349 JL033017_033117_(—) N 7.955 0.3478508 3//11 20//56 PBAF_100B.08287.08287.5 −1 −2.9501615 JL033017_033117_(—) NP 7.56575 0.27824464 6.03E−05 //10 8//52 PBAF_1.08488.08488.4 0 1.50267209 JL033017_033117_(—) NP 6.9855 0.23821784 1.90E−06 //10 8//63 PBAF_100B.08667.08667.5 −2 11.9662022 JL033017_033117_(—) N 6.7795 0.22307224 2//11 16//56 PBAF_1.08684.08684.5 −1 1.65958058 JL033017_033117_(—) N 6.6605 0.2647889 2//10 15//51 PBAF_100B.08533.08533.5 −1 9.07477462 JL033017_033117_(—) N 6.5005 0.22234954 2//11 9//56 PBAF_85B.09178.09178.5 −1 9.8108788 JL033017_033117_(—) N 6.335 0.21849725 2//11 12//56 PBAF_85B.08839.08839.5 0 0.33517442 JL033017_033117_(—) N 6.27325 0.2143565 //11 13//45 PBAF_85B.11658.11658.4 −2 8.8834786 JL033017_033117_(—) N 5.82075 0.17204102 2//11 11//46 PBAF_1.08658.08658.4 0 5.27879964 JL033017_033117_(—) N 5.61525 0.17884386 4//11 20//45 PBAF_70B.10752.10752.4 −1 1.58436428 JL033017_033117_(—) NP 5.50225 0.27812318 6.30E−01 2//15 12//92 PBAF_5D.08060.08060.6 −1 5.49531077 JL033017_033117_(—) NP 5.37225 0.23286231 1.70E−05 2//15 17//92 PBAF_5D.08077.08077.5 −1 10.3002513 JL033017_033117_(—) N 5.0585 0.17827941 2//11 12//46 PBAF_85B.08838.08838.4 −2 4.9596186 JL033017_033117_(—) NP 4.87075 0.16199385 6.23E−07 1//15 16//92 PBAF_1.08284.08284.5 −2 12.7238458 JL033017_033117_(—) N 4.63925 0.15374992 //10 8//59 PBAF_1.08311.08311.5 0 9.6585206 JL033017_033117_(—) N 4.38675 0.17423295 //11 11//45 PBAF_70B.11059.11059.4 −3 4.9819391 JL033017_033117_(—) NP 3.45175 0.17674996 8.01E−02 //15 9//92 PBAF_5D.08177.08177.5 4 ACTL6A:238- 7.487 ACTL6A:242 0 1.76289814 JL033017_033117_(—) NP 7.487 0.24608861 3.08E−07 //11 9//46 PBAF_100B.08677.08677.4 −1 0.53403547 JL033017_033117_(—) N 7.308 0.28390505 1//10 15//42 PBAF_85B.10021.10021.4 0 6.24996528 JL033017_033117_(—) N 6.79325 0.21659041 1//11 16//45 PBAF_1.11930.11930.4 −3 6.14457083 JL033017_033117_(—) N 5.64325 0.2861471 1//10 13//51 PBAF_100B.08572.08572.5 0 1.00888877 JL033017_033117_(—) NP 5.05575 0.21873107 2.42E−03 //15 12//92 PBAF_5D.08280.08280.5 0 0.08890443 JL033017_033117_(—) N 4.819 0.25714362 1//10 10//51 PBAF_100B.08720.08720.5 −2 9.53532263 JL033017_033117_(—) NP 4.65175 0.20031651 9.22E−05 //15 13//92 PBAF_5D.08340.08340.5 0 3.33145187 JL033017_033117_(—) N 4.62275 0.14996269 //10 10//42 PBAF_85B.09813.09813.4 −1 10.621461 JL033017_033117_(—) N 3.5675 0.10367023 2//11 10//46 PBAF_85B.09030.09030.4 12 BCL7C 1 BCL7C:15- 4.50125 BCL7C:27 0 0.65919897 JL033017_033117_(—) N 4.50125 0.18419061 //7 5//34 PBAF_85B.06800.06800.4 2 BCL7C:15- 3.612 BCL7C:20 0 1.32953603 JL033017_033117_(—) N 3.612 0.15464646 2//6 7//28 PBAF_70B.06053.06053.4 0 5.42938516 JL033017_033117_(—) N 2.84225 0.13066615 1//10 7//42 PBAF_100B.05699.05699.4 13 BCL7A 1 BCL7A:27- 10.52 BCL7A:47 0 1.19522736 JL033017_033117_(—) N 10.52 0.29805499 8//11 21//43 PBAF_70B.12965.12965.4 0 −0.4621701 JL033017_033117_(—) NP 10.189 0.26711934 1.80E−08 2//13 17//62 PBAF_70B.13932.13932.4 0 4.49369236 JL033017_033117_(—) NP 6.922 0.20944024 3.88E−05 1//13 12//62 PBAF_1.14580.14580.4 2 BCL7A:27- 8.95775 BCL7A:30 0 0.48712013 JL033017_033117_(—) N 8.95775 0.33380224 //5 4//21 PBAF_85B.08371.08371.4 0 6.60503474 JL033017_033117_(—) N 7.8045 0.32510622 //6 4//27 PBAF_100B.07134.07134.4 0 −0.7783841 JL033017_033117_(—) NP 7.5515 0.3383895 8.60E−07 4//11 20//48 PBAF_85B.09685.09685.4 3 BCL7A:19- 7.415 BCL7A:27 −1 2.20639614 JL033017_033117_(—) P 7.415 0.34628497 1.13E−03 //11 15//49 PBAF_100B.08368.08368.4 0 0.74015903 JL033017_033117_(—) N 4.45975 0.19005561 2//9 7//42 PBAF_100B.07150.07150.5 4 BCL7A:15- 12.61 BCL7A:27 0 0.30311588 JL033017_033117_(—) N 12.61 0.46259102 //7 7//36 PBAF_70B.11643.11643.4 −2 2.1192026 JL033017_033117_(—) N 11.87475 0.46572213 //7 7//36 PBAF_1.11864.11864.4 −1 6.1713633 JL033017_033117_(—) N 11.557 0.46161527 //7 7//36 PBAF_1.11860.11860.4 0 −3.1611002 JL033017_033117_(—) NP 9.9325 0.3819825 1.15E−13 4//11 20//59 PBAF_85B.08334.08334.5 −1 0.85338599 JL033017_033117_(—) N 9.19775 0.34587109 1//7 12//36 PBAF_70B.10481.10481.4 0 −4.8803096 JL033017_033117_(—) NP 8.9845 0.32876537 1.45E−09 2//11 19//49 PBAF_85B.08357.08357.4 −1 5.44428755 JL033017_033117_(—) P 6.84975 0.24995439 2.45E−06 2//11 17//49 PBAF_1.08109.08109.4 0 3.1993145 JL033017_033117_(—) N 6.67675 0.28220762 //7 5//41 PBAF_85B.07019.07019.5 0 0.86236575 JL033017_033117_(—) P 6.27475 0.22828479 1.73E−07 1//11 17//49 PBAF_1.08105.08105.4 5 BCL7A:34- 9.24325 BCL7A:47 −2 5.28173455 JL033017_033117_(—) NP 9.24325 0.31814036 3.32E−10 //13 14//60 PBAF_85B.14605.14605.4 14 ARID2 1 ARID2:1760- 4.86975 ARID2:581 −1 8.14251246 JL033017_033117_(—) N 4.86975 0.16522189 //12 8//51 PBAF_85B.10457.10457.4 −1 10.6485629 JL033017_033117_(—) N 4.71825 0.15091156 //12 9//51 PBAF_85B.09964.09964.4 2 ARID2:15- 6.0195 ARID2:35 0 2.97641916 JL033017_033117_(—) NP 6.0195 0.3166075 6.43E−04 //11 12//62 PBAF_100B.13332.13332.4 3 ARID2:1701- 5.98625 ARID2:1716 −2 −2.3291014 JL033017_033117_(—) P 5.98625 0.17530823 2.62E−06 //18 12//108 PBAF_50B.10048.10048.4 −3 15.7833395 JL033017_033117_(—) P 4.16625 0.13027063 2.99E−02 //18 11//108 PBAF_50B.10028.10028.4 4 ARID2:1716- 11.66125 ARID2:1731 −1 1.2064888 JL033017_033117_(—) N 11.66125 0.39300519 4//18 27//112 PBAF_70B.09933.09933.5 −4 10.5306896 JL033017_033117_(—) P 9.27675 0.29594213 5.73E−13 //19 17//128 PBAF_70B.10700.10700.5 −1 2.68224676 JL033017_033117_(—) N 8.80575 0.38725318 //18 15//88 PBAF_70B.09903.09903.4 0 −1.4234908 JL033017_033117_(—) NP 6.45375 0.22424427 7.81E−11 //19 14//128 PBAF_70B.10690.10690.5 −1 −6.1389268 JL033017_033117_(—) P 3.78225 0.15801512 4.90E−02 //19 6//99 PBAF_70B.10711.10711.4 15 SMARCD2 1 SMARCD2:244- 5.6885 SMARCD2:248 0 0.08092438 JL033017_033117_(—) NP 5.6885 0.23465957 1.22E−09 1//12 18//56 PBAF_100B.11081.11081.4 −2 3.72137666 JL033017_033117_(—) NP 5.374 0.27396702 7.22E−07 2//12 16//69 PBAF_100B.11055.11055.5 0 −0.3774177 JL033017_033117_(—) NP 3.65675 0.2002711 1.78E−05 //12 8//69 PBAF_100B.11093.11093.5 2 SMARCD2:246- 8.2945 SMARCD2:248 0 1.73578984 JL033017_033117_(—) N 8.2945 0.32827403 1//8 7//37 PBAF_70B.14036.14036.4 0 −7.7283703 JL033017_033117_(—) P 6.8915 0.27274706 1.99E−04 //12 15//53 PBAF_70B.14036.14036.4 3 SMARCD2:237- 7.01075 SMARCD2:248 −2 4.2994737 JL033017_033117_(—) NP 7.01075 0.31746553 3.15E−12 //13 14//62 PBAF_70B.13512.13512.4 0 −1.5103248 JL033017_033117_(—) NP 5.80775 0.23483684 1.54E−09 //13 13//62 PBAF_70B.13520.13520.4 4 SMARCD2:168- 5.4495 SMARCD2:176 −1 0.2222371 JL033017_033117_(—) N 5.4495 0.22248306 //9 12//44 PBAF_100B.07691.07691.4 5 SMARCD2:143- 5.7785 SMARCD2:451 0 2.99532181 JL033017_033117_(—) N 5.7785 0.20363681 //12 9//51 PBAF_85B.12495.12495.4 6 SMARCD2:185- 7.81575 SMARCD2:191 0 −1.8182007 JL033017_033117_(—) P 7.81575 0.30849006 1.06E−03 //11 21//48 PBAF_70B.11679.11679.4 0 −1.1979587 JL033017_033117_(—) P 5.90675 0.23499165 1.87E−05 //11 16//48 PBAF_70B.10804.10804.4 16 SMARCD1 1 SMARCD1:230- 7.53075 SMARCD1:232 0 6.5147987 JL033017_033117_(—) N 7.53075 0.2927007 //8 10//38 PBAF_85B.12466.12466.4 2 SMARCD1:194- 12.88525 SMARCD1:273 −3 7.6448671 JL033017_033117_(—) P 12.88525 0.36241861 6.69E−07 //7 33//214 PBAF_70B.15122.15122.5 3 SMARCD1:101- 14.511 SMARCD1:498 −3 8.31383028 JL033017_033117_(—) NP 14.511 0.48512303 6.91E−08 //16 31//161 PBAF_85B.09634.09634.5 −2 −4.4191093 JL033017_033117_(—) P 3.13125 0.10815502 1.05E−01 //16 12//161 PBAF_85B.09660.09660.5 4 SMARCD1:101- 20.93225 SMARCD1:156 −1 0.7309585 JL033017_033117_(—) N 20.93225 0.77839652 //9 5//40 PBAF_85B.08387.08387.4 0 −3.5282738 JL033017_033117_(—) P 13.745 0.39687581 4.39E−04 //16 29//163 PBAF_85B.09339.09339.5 5 SMARCD1:173- 6.0915 SMARCD1:177 0 −1.7647276 JL033017_033117_(—) P 6.0915 0.29893998 4.12E−11 //11 16//46 PBAF_70B.12073.12073.4 0 −1.4609506 JL033017_033117_(—) P 5.91125 0.2329878 2.75E−06 //12 16//55 PBAF_100B.10817.10817.4 6 SMARCD1:464- 6.33425 SMARCD1:498 −2 10.7243714 JL033017_033117_(—) N 6.33425 0.20082591 //11 8//45 PBAF_70B.11889.11889.4 7 SMARCD1:131- 3.75375 SMARCD1:156 0 0.12615614 JL033017_033117_(—) N 3.75375 0.1245872 //9 7//46 PBAF_70B.08989.08989.4 Total unique intra crosslinks are: 214 Total counted intra crosslinks are: 778 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 15.905 3.31578947 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 2.14225 0.86363636 K.E[111.03]K[2371.17]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 3.135 1.31818182 K.E[111.03]K[2371.23]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 1.739 0.72727273 K.EK[2371.14]PTDMQNFGLR.T Q8TAQ2:568 1 SMARCC2 7.44675 1.55263158 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 5.59325 1.57894737 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 5.39875 1.52631579 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 3.79375 0.92105263 K.TPQQTSASQQMLNFPDK[1700.86]GK.E Q8TAQ2:564 1 SMARCC2 2.58 1.25 K.SK[2387.18]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.4265 1.0625 K.SK[2387.17]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.563 1.8125 K.SK[1832.93]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.4805 1.75 K.SK[1832.96]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.78475 2.125 K.SK[1848.97]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.8735 2 K.SK[1848.96]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.507 1.8125 K.SK[1848.95]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.2435 1.64285714 R.TDMYTK[1127.63]K.N Q8TAQ2:584 1 SMARCC2 3.635 2 K.SK[1848.97]AAASATR.E Q8TAQ2:592 1 SMARCC2 4.0685 2.0625 K.SK[1167.58]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.323 2 K.SK[1848.96]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.7405 2.0625 K.SK[1167.58]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.1325 1.875 K.SK[1151.57]AAASATR.E Q8TAQ2:592 1 SMARCC2 1.18825 1.07142857 R.TDMYTK[1127.63]K.N Q8TAQ2:584 1 SMARCC2 1.964 0.75 R.VEGQATDEK[1154.62]K.E Q8TAQ2:769 1 SMARCC2 5.2035 1.9 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 4.86575 1.9 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 1.156 1 K.E[111.03]PK[1369.7]EPR.E Q8TAQ2:773 1 SMARCC2 4.0965 1.35 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 4.286 1.4 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 3.81325 1.7 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 3.8115 1.35 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 3.73825 1.25 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 3.27775 1.55 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 0.977 1.125 K.E[111.03]PK[1369.71]EPR.E Q8TAQ2:773 1 SMARCC2 1.0075 0.8 K.EPK[1369.72]EPR.E Q8TAQ2:773 1 SMARCC2 2.30925 0.95 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 0.9995 0.9 K.EPK[1369.73]EPR.E Q8TAQ2:773 1 SMARCC2 2.78425 0.9 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 1.30875 0.83333333 R.K[2211.1]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 8.7285 2.47058824 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 7.9545 2.26470588 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.1755 0.83333333 R.K[2211.09]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 6.3025 1.85294118 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.96875 1.70588235 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.20675 1.16666667 R.K[2211.09]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 7.854 2.11764706 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 0.96675 1.1 R.KTK[2193.06]VER.D Q8TAQ2:848 1 SMARCC2 6.852 2.17647059 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 6.736 1.58823529 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 0.953 1.1 R.KTK[2211.08]VER.D Q8TAQ2:848 1 SMARCC2 6.788 1.85294118 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.7965 1.64705882 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.0775 1 K.EGQEEVLK[897.53]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.13375 1.1 R.KTK[2193.08]VER.D Q8TAQ2:848 1 SMARCC2 0.9115 1 R.KTK[2193.1]VER.D Q8TAQ2:848 1 SMARCC2 3.017 1.05882353 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 0.9465 1 R.KTK[2193.08]VER.D Q8TAQ2:848 1 SMARCC2 2.93175 0.85294118 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 10.251 2.46666667 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 8.1125 2.2 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 5.71575 1.8 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 10.2855 2.66666667 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4.7005 2.10714286 R.VASAAAK[1990.02]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 8.66475 2.3 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 8.08275 2.33333333 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 9.88725 2.93333333 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 9.08025 2.33333333 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 8.228 2.23333333 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 9.773 2.2 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4.25975 1.75 R.VASAAAK[1990.05]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 7.56425 2.03333333 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 5.546 1.5 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 6.24 1.7 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.55625 1.10714286 R.VASAAAK[1974.05]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.20225 0.82142857 R.VASAAAK[1974.07]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.44425 1.10714286 R.VASAAAK[1990.06]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.11925 0.64285714 R.VASAAAK[1974.05]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.0845 0.67857143 R.VASAAAK[1974.1]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.653 0.78571429 R.VASAAAK[1990.06]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 0.59825 0.16666667 K.MK[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4.53625 0.59615385 K.TK[1773.95]VERDIGEGNLSTAAAAALAAAAVK.A Q8TAQ2:848 1 SMARCC2 9.0545 2.66666667 R.VASAAAK[1039.59]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 3.297 1.93333333 R.VASAAAK[1039.59]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.93325 1.6 R.VASAAAK[1039.59]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 5.6025 1.6 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 5.12075 1.6 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.4135 1.66666667 R.K[1773.95]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 5.714 2.55 K.AK[1039.59]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.9735 1.4 K.AK[1039.59]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 8.54625 0.84722222 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 6.62175 0.76388889 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 6.99675 0.56944444 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 3.19 2.07142857 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 2.80275 2.07142857 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 3.807 2.35714286 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 3.132 1.71428571 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 1.525 1.1 R.KTK[2452.34]VER.D Q8TAQ2:848 1 SMARCC2 4.166 1.9 K.AK[897.53]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 3.5125 1.61111111 K.SK[1039.59]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.361 1.55555556 K.SK[1039.59]AAASATR.E Q8TAQ2:592 1 SMARCC2 7.29425 2 K.MK[1127.63]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 6.1155 2 K.MK[1127.63]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 8.74325 2.19230769 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 8.43825 2.07692308 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 5.92375 1.42307692 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 5.01175 1.19230769 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 5.098 1.15384615 R.EGGGAIEEEAK[913.48]EK.T Q8TAQ2:787 1 SMARCC2 1.0405 0.55 K.TSEAPKK[1611.78]DEEK.G Q8TAQ2:796 1 SMARCC2 3.217 0.69230769 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 1.01025 0.55 K.TSEAPKK[1611.8]DEEK.G Q8TAQ2:796 1 SMARCC2 1.0645 1.08333333 K.KDEEK[2225.12]GK.E Q8TAQ2:800 1 SMARCC2 5.6455 1.19230769 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 1.2175 1.375 K.TK[1580.9]VER.D Q8TAQ2:848 1 SMARCC2 1.20525 1.375 K.TK[1580.89]VER.D Q8TAQ2:848 1 SMARCC2 3.92525 1.77272727 R.KVEEAAK[897.53]VTGK.A Q8TAQ2:724 1 SMARCC2 3.10775 1.63636364 R.KVEEAAK[897.53]VTGK.A Q8TAQ2:724 1 SMARCC2 2.0445 1.91666667 R.K[1580.9]TKVER.D Q8TAQ2:846 1 SMARCC2 1.02 1.33333333 K.K[1990.06]NVPSK.S Q8TAQ2:585 1 SMARCC2 3.87875 1.8125 K.SK[1832.95]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.705 2 K.SK[1832.97]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.79175 1.83333333 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.3865 1.55555556 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.346 1.66666667 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 2.38825 0.94444444 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.67475 1.8125 K.SK[1716.83]AAASATR.E Q8TAQ2:592 1 SMARCC2 1.2615 1.33333333 K.K[1716.85]NVPSK.S Q8TAQ2:585 1 SMARCC2 0.91625 1.25 R.TDM[147.04]YTK[1716.84]K.N Q8TAQ2:584 1 SMARCC2 3.56525 1.94444444 K.AK[1990.07]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 13.15 3.43333333 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 3.493 1.72222222 K.AK[1990.05]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 12.2345 3.46666667 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.528 1.22222222 K.AK[1990.05]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 10.47625 2.83333333 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4.302 1.72222222 K.AK[1990.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 3.09675 1.66666667 K.AK[1990.07]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 9.5145 3.03333333 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.6905 1.22222222 K.AK[1990.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 3.94525 1.61111111 K.AK[1990.05]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 8.52975 2.2 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.44475 0.72222222 K.AK[1990.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 1.514 1.44444444 K.AK[2881.46]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 4.2675 1.1 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.226 0.86666667 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.1215 1.125 K.TK[1990.05]VER.D Q8TAQ2:848 1 SMARCC2 1.5 1.57142857 R.K[1990.06]VEEAAK.V Q8TAQ2:718 1 SMARCC2 13.5775 3.06666667 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 13.60575 3.4 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 13.20225 3.56666667 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 5.81875 1.95454546 R.K[1990.04]VEEAAK[284.17]VTGK.A Q8TAQ2:718 1 SMARCC2 5.33825 2.13636364 R.K[1990.08]VEEAAK[284.17]VTGK.A Q8TAQ2:718 1 SMARCC2 4.707 1.95454546 R.K[1974.06]VEEAAK[284.17]VTGK.A Q8TAQ2:718 1 SMARCC2 10.33 3.4 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.3965 1 R.K[1990.05]VEEAAK.V Q8TAQ2:718 1 SMARCC2 9.95225 3.13333333 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4.1465 1.90909091 R.K[1990.07]VEEAAK[284.17]VTGK.A Q8TAQ2:718 1 SMARCC2 9.6625 2.8 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 2.16225 1.31818182 R.K[1974.06]VEEAAK[284.17]VTGK.A Q8TAQ2:718 1 SMARCC2 2.78925 0.63333333 K.SDGDPIVDPEKEK[2193.03]EPK.E Q8TAQ2:825 1 SMARCC2 4.5175 1.13333333 K.SDGDPIVDPEK[2321.16]EKEPK.E Q8TAQ2:823 1 SMARCC2 6.60875 1.875 K.SDGDPIVDPEK[2547.26]EK.E Q8TAQ2:823 1 SMARCC2 5.28725 1.15625 K.ESEKSDGDPIVDPEK[2547.22]EK.E Q8TAQ2:823 1 SMARCC2 5.366 1.1875 K.ESEKSDGDPIVDPEK[2547.28]EK.E Q8TAQ2:823 1 SMARCC2 6.008 1.66666667 K.SDGDPIVDPEK[2547.3]EK.E Q8TAQ2:823 1 SMARCC2 3.95175 1.04166667 K.SDGDPIVDPEK[2547.23]EK.E Q8TAQ2:823 1 SMARCC2 1.715 0.675 K.EPK[1693.84]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 3.66125 0.875 K.EPK[2167.05]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 3.98475 0.825 K.EPK[2167.05]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 2.25975 0.71875 K.ESEKSDGDPIVDPEK[2547.25]EK.E Q8TAQ2:823 1 SMARCC2 2.3355 0.70833333 K.SDGDPIVDPEK[2547.28]EK.E Q8TAQ2:823 1 SMARCC2 1.98825 0.875 K.EPK[1693.84]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 1.10375 0.54166667 K.SDGDPIVDPEK[2565.23]EK.E Q8TAQ2:823 1 SMARCC2 2.5375 0.55 K.EPK[1693.84]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 2.0365 0.475 K.EPK[2167.05]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 1.5825 0.45 K.EPK[1693.84]EGQEEVLKEVVESEGER.K Q8TAQ2:828 1 SMARCC2 2.41975 0.45 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 2.187 0.48333333 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 1.63225 0.21666667 R.GHREEEQEDLTK[1768.96]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 1 SMARCC2 2.35875 0.84615385 K.TVNTK[3712.76]KDSESAPVK.G Q8TAQ2:364 1 SMARCC2 1.72925 0.69230769 K.TVNTK[3728.75]KDSESAPVK.G Q8TAQ2:364 1 SMARCC2 4.43325 1.13636364 K.TSEAPKK[1114.55]DEEK.G Q8TAQ2:796 1 SMARCC2 4.59475 1.36363636 K.TSEAPKK[1114.55]DEEK.G Q8TAQ2:796 1 SMARCC2 2.81675 0.72727273 K.TSEAPKK[1114.55]DEEK.G Q8TAQ2:796 1 SMARCC2 2.78375 0.68181818 K.TSEAPKK[1114.55]DEEK.G Q8TAQ2:796 1 SMARCC2 7.1445 1.15789474 R.EGGGAIEEEAKEK[913.48]TSEAPK.K Q8TAQ2:789 1 SMARCC2 3.2545 1.25 K.EK[913.48]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.8025 1.4375 K.EK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.66025 1.3125 K.EK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.58225 1.4375 K.EK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.4845 1.3125 K.EK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 0.861 0.8125 K.EK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 1.59 1 K.K[853.54]GPSTPYTK.S Q8TAQ2:318 1 SMARCC2 3.14675 1.61111111 K.AK[2881.5]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.26725 1.16666667 K.AK[2881.49]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 0.956 1 R.K[2881.47]VEEAAK.V Q8TAQ2:718 1 SMARCC2 2.40675 1.04166667 K.LLHSGM[147.04]K[2959.51]ILSQER.I Q9NPI1:230 1 BRD7 1.1075 0.30555556 R.DRVENEAEK[1874.08]DLQC[160.03]HAPVR.L Q9NPI1:103 1 BRD7 1.747 1.35714286 R.KLIDQK[939.54]K.D P51532:545 P51531:521 2 SMARCA2 1.3705 0.71428571 R.KLIDQK[939.54]K.D P51532:545 P51531:521 2 SMARCA2 1.31575 0.64285714 R.KLIDQK[939.54]K.D P51532:545 P51531:521 2 SMARCA2 0.914 1.375 R.NHK[1282.75]YR.S P51532:1518 P51531:1460 2 SMARCA2 1.93025 1.16666667 R.K[1251.7]PVDFK.K P51532:1503 P51531:1445 2 SMARCA2 3.1895 2.83333333 R.K[1094.67]PVDFK.K P51532:1503 P51531:1445 2 SMARCA2 1.155 1.7 R.ILPK[1400.76]LR.A P51532:1091 P51531:1061 2 SMARCA2 0.974 1.125 R.NHK[1094.67]YR.S P51532:1518 P51531:1460 2 SMARCA2 3.09225 1.85714286 K.YK[2101.02]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 6.36425 1.53125 K.VIQAGMFDQK[1272.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA2 4.969 1.90625 K.VIQAGMFDQK[1272.71]SSSHER.R P51532:1237 P51531:1207 2 SMARCA2 3.2615 1.42857143 K.YK[2101.02]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 2.9765 1.42857143 K.YK[2101.02]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 2.7225 1.42857143 K.YK[2085.07]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 2.30075 1.5 K.YK[2101.04]LNVDQK.V P51532:1221 P51531:1191 2 SMARCA2 1.089 1.5 K.IK[1282.75]ER.I P51532:1511 P51531:1453 2 SMARCA2 1.261 0.8 R.LHK[2172.21]VLR.P P51532:970 P51531:940 2 SMARCA2 4.6895 1 R.GQPLPETLQLAVQGK[1542.9]R.T P51531:209 1 SMARCA2 3.64825 0.84375 R.GQPLPETLQLAVQGK[1542.9]R.T P51531:209 1 SMARCA2 1.0975 0.58333333 R.LTC[160.03]EEEEEK[2698.29]IFGR.G P51531:1302 1 SMARCA2 1.3575 0.70833333 R.LTC[160.03]EEEEEK[2698.27]IFGR.G P51531:1302 1 SMARCA2 7.232 2.0625 R.LC[160.03]TVNSVEEK[1272.71]ILAAAK.Y P51532:1213 P51531:1183 2 SMARCA2 4.68875 1.25 R.LC[160.03]TVNSVEEK[1272.71]ILAAAK.Y P51532:1213 P51531:1183 2 SMARCA2 1.43725 1.4 R.GSLYK[1024.59]R.Y Q12824:45 1 SMARCB1 1.1225 1.9 R.GSLYK[1180.68]R.Y Q12824:45 1 SMARCB1 1.2585 1.4 R.GSLYK[1024.6]R.Y Q12824:45 1 SMARCB1 7.5695 2.03333333 K.YK[868.5]AVSISTEPPTYLR.E Q12824:108 1 SMARCB1 5.19725 1.88888889 K.IVASSHGK[953.55]K.T Q12824:70 1 SMARCB1 2.804 2.58333333 R.K[1394.79]DGPK[284.17]R.S Q8WUB8:355 1 PHF10 1.592 1.9 R.K[1394.78]DGPK.R Q8WUB8:355 1 PHF10 1.5765 1.8 R.K[1394.77]DGPK.R Q8WUB8:355 1 PHF10 3.644 1.66666667 K.SKDK[809.46]AATPR.K Q8WUB8:349 1 PHF10 3.59425 1.66666667 K.SKDK[809.46]AATPR.K Q8WUB8:349 1 PHF10 2.70175 1.61111111 K.SKDK[809.46]AATPR.K Q8WUB8:349 1 PHF10 1.66475 1.41666667 R.K[1238.71]DGPK[284.17]R.S Q8WUB8:355 1 PHF10 2.89625 1.83333333 K.DK[1121.65]AATPR.K Q8WUB8:349 1 PHF10 1.536 1.8 R.K[1394.78]DGPK.R Q8WUB8:355 1 PHF10 2.649 1.75 K.DK[1121.63]AATPR.K Q8WUB8:349 1 PHF10 0.9985 0.91666667 R.K[1238.72]DGPK[284.17]R.S Q8WUB8:355 1 PHF10 2.6135 1.35714286 K.DK[965.57]AATPR.K Q8WUB8:349 1 PHF10 1.1215 0.83333333 R.K[1238.69]DGPK[284.17]R.S Q8WUB8:355 1 PHF10 2.193 1.44444444 K.SKDK[965.57]AATPR.K Q8WUB8:349 1 PHF10 1.87725 0.94444444 K.SKDK[809.46]AATPR.K Q8WUB8:349 1 PHF10 2.7115 1.5 K.DK[965.57]AATPR.K Q8WUB8:349 1 PHF10 2.0005 1.38888889 K.SKDK[965.57]AATPR.K Q8WUB8:349 1 PHF10 1.46175 1.3 R.K[1238.71]DGPK.R Q8WUB8:355 1 PHF10 2.2435 1.16666667 K.SKDK[965.57]AATPR.K Q8WUB8:349 1 PHF10 1.8565 1.05555556 K.SKDK[965.57]AATPR.K Q8WUB8:349 1 PHF10 1.73175 1 K.SKDK[965.57]AATPR.K Q8WUB8:349 1 PHF10 1.25975 0.77777778 K.SKDK[965.57]AATPR.K Q8WUB8:349 1 PHF10 4.9575 2.04545455 K.VEASK[810.53]VPEYIK.K Q8WUB8:195 1 PHF10 1.5095 1.9 K.K[1527.85]AAK[284.17]K.A Q8WUB8:202 1 PHF10 1.77175 0.95454546 K.VEASK[810.53]VPEYIK.K Q8WUB8:195 1 PHF10 3.84175 1.31818182 K.K[1567.91]AAEFNSNLNR.E Q8WUB8:206 1 PHF10 2.51125 0.95454546 K.VEASKVPEYIK[1955.02]K.A Q8WUB8:201 1 PHF10 2.65575 1.22727273 K.VEASKVPEYIK[1955.03]K.A Q8WUB8:201 1 PHF10 3.64025 1.31818182 K.K[1567.92]AAEFNSNLNR.E Q8WUB8:206 1 PHF10 1.5565 1.16666667 R.K[1429.83]DGPK[284.17]R.S Q8WUB8:355 1 PHF10 4.41075 1.54166667 K.RSVLSK[809.46]SVPGYK.P Q8WUB8:365 1 PHF10 1.9675 0.65384615 R.SVLSK[965.57]SVPGYKPK.V Q8WUB8:365 1 PHF10 1.0545 0.55555556 K.VPEYIKK[3065.45]AAK.K Q8WUB8:202 1 PHF10 1.182 0.55555556 K.VPEYIKK[3065.46]AAK.K Q8WUB8:202 1 PHF10 0.90425 0.8125 R.K[2032.04]YPDLERR.D Q8WUB8:106 1 PHF10 2.031 1.42857143 R.K[2032.03]YPDLER.R Q8WUB8:106 1 PHF10 10.4825 2.8 R.SDEVIDLMIK[1341.74]EYPAK.H Q8WUB8:152 1 PHF10 10.432 2.3 R.SDEVIDLMIK[1341.74]EYPAK.H Q8WUB8:152 1 PHF10 10.1285 2.36666667 R.SDEVIDLMIK[1341.74]EYPAK.H Q8WUB8:152 1 PHF10 2.3125 1.5 R.K[2032.04]YPDLER.R Q8WUB8:106 1 PHF10 1.61 0.85714286 R.K[2032.04]YPDLER.R Q8WUB8:106 1 PHF10 9.6725 2.26666667 R.SDEVIDLMIK[1341.74]EYPAK.H Q8WUB8:152 1 PHF10 9.2115 2.33333333 R.SDEVIDLMIK[1341.74]EYPAK.H Q8WUB8:152 1 PHF10 1.592 0.92857143 R.K[2032.06]YPDLER.R Q8WUB8:106 1 PHF10 1.789 1.57142857 R.K[2032.05]YPDLER.R Q8WUB8:106 1 PHF10 9.40825 2.08333333 K.EYPAK[1185.64]HAEYSVILQEKER.Q Q8WUB8:157 1 PHF10 1.2765 0.71428571 K.RK[2170.11]YPDLER.R Q8WUB8:106 1 PHF10 10.62375 2.53125 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 9.747 2.40625 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.25725 1.57142857 R.K[2611.34]YPDLER.R Q8WUB8:106 1 PHF10 8.694 2.28125 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 4.71375 1.5625 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 5.54925 1.96875 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.0785 1.42857143 R.K[2611.32]YPDLER.R Q8WUB8:106 1 PHF10 6.87725 1.59375 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 5.333 1.65625 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.85975 0.88888889 K.EYPAK[1185.64]HAEYSVILQEKER.Q Q8WUB8:157 1 PHF10 2.184 1.28571429 R.K[2455.23]YPDLER.R Q8WUB8:106 1 PHF10 3.15275 1.28125 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.32425 1.25 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 3.47075 1 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.9235 1.57142857 R.K[2170.14]YPDLER.R Q8WUB8:106 1 PHF10 0.5585 0.75 R.K[1121.61]YPDLERR.D Q8WUB8:106 1 PHF10 0.16725 0.125 R.K[1023.57]YPDLERR.D Q8WUB8:106 1 PHF10 2.325 1.42857143 K.YK[2895.54]VLPTER.T Q8WUB8:241 1 PHF10 12.721 2.64285714 R.TK[1270.73]VSSYPVALIPGQFQEYYKR.Y Q8WUB8:249 1 PHF10 11.974 2.64285714 R.TK[1270.73]VSSYPVALIPGQFQEYYKR.Y Q8WUB8:249 1 PHF10 11.64175 2.125 R.TK[1270.73]VSSYPVALIPGQFQEYYK.R Q8WUB8:249 1 PHF10 6.1245 2.27272727 R.SVLSK[965.57]SVPGYK.P Q8WUB8:365 1 PHF10 1.051 1.5 R.K[1811.04]VGR.R Q8WUB8:487 1 PHF10 2.86925 1.2 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 2.44225 1.13333333 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 2.386 0.93333333 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 2.189 0.96666667 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 1.4215 0.56666667 R.K[1090.62]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 3.2705 1.54545455 R.LC[160.03]GLK[1964.97]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 2.127 0.90909091 R.LC[160.03]GLK[2093.02]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 1.96875 0.90909091 R.LC[160.03]GLK[2093.09]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 1.85425 0.72727273 R.LC[160.03]GLK[1964.98]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 1.55325 0.55555556 R.EK[2495.22]EAAEQAER.S Q969G3:305 1 SMARCE1 9.7365 2.71428571 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 9.188 2.60714286 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 8.246 2.17857143 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 7.9645 2.07142857 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 7.90675 2.21428571 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 7.845 1.92857143 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 7.51625 2.17857143 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 7.0895 1.78571429 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 6.73225 2.64285714 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 6.59325 1.96428571 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 5.6035 1.71428571 R.VTASSGITIPK[1609.84]PPK.P Q969G3:61 1 SMARCE1 2.458 1.16666667 K.AK[2138.28]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC1 1.37575 1.5 K.AK[2138.28]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC1 7.40025 0.69117647 R.ASGK[1785.96]VDPTYGLESSC[160.03]IAGTGPDEPEKLEGAEEEK.M Q92922:750 1 SMARCC1 7.61675 2.1875 R.VREEVPLELVEAHVK[1785.96]K.V Q92922:739 1 SMARCC1 5.12825 2 R.VREEVPLELVEAHVK[1785.96]K.V Q92922:739 1 SMARCC1 7.5775 2.14285714 R.VASAAAK[2140.18]AALEEFSR.V Q92922:716 1 SMARCC1 2.7905 1.66666667 K.AK[1785.92]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC1 2.22375 1.38888889 K.AK[1785.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC1 7.47325 2.5 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 5.83125 1.9 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 3.4245 1.16666667 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 0.943 0.71428571 R.K[1907.01]ASANAR.K Q92922:317 1 SMARCC1 2.2345 0.85714286 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.08625 0.64285714 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 1 SMARCC1 2.19775 1.15 R.ISTK[982.56]NEEPVR.S Q92922:303 1 SMARCC1 1.00175 0.8125 R.DRK[1906.97]ASANAR.K Q92922:317 1 SMARCC1 2.23875 1.57142857 K.SK[1688.98]GASAGR.E Q92922:615 1 SMARCC1 5.6265 2.72222222 K.K[812.51]GQASLYGK.R Q92922:346 1 SMARCC1 1.38825 1.7 R.K[1528.86]K[284.17]SGK.K Q92922:341 1 SMARCC1 5.34125 2.33333333 K.K[812.51]GQASLYGK.R Q92922:346 1 SMARCC1 1.97 1.9 R.K[1216.68]K[284.17]SGK.K Q92922:341 1 SMARCC1 4.81825 2.11111111 K.K[812.51]GQASLYGK.R Q92922:346 1 SMARCC1 4.636 2.05555556 K.K[812.51]GQASLYGK.R Q92922:346 1 SMARCC1 4.3925 2.11111111 K.K[812.51]GQASLYGK.R Q92922:346 1 SMARCC1 1.55275 0.86363636 K.E[111.03]K[2292.19]PVDLQNFGLR.T Q92922:592 1 SMARCC1 2.1345 0.86363636 K.E[111.03]K[2292.21]PVDLQNFGLR.T Q92922:592 1 SMARCC1 1.03125 0.54545455 K.E[111.03]K[2292.16]PVDLQNFGLR.T Q92922:592 1 SMARCC1 6.936 1.58333333 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 2.20775 0.81818182 K.E[111.03]K[2292.18]PVDLQNFGLR.T Q92922:592 1 SMARCC1 1.60275 0.95454546 K.EK[2308.17]PVDLQNFGLR.T Q92922:592 1 SMARCC1 6.2485 1.55555556 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 6.74625 1.52777778 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 1.00975 0.59090909 K.EK[2308.2]PVDLQNFGLR.T Q92922:592 1 SMARCC1 4.83975 1.08333333 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 2.0035 0.52777778 R.SPQVPAAQQMLNFPEK[1680.92]NK.E Q92922:588 1 SMARCC1 1.40875 2 R.K[284.17]K[1216.68]SGK.K Q92922:342 1 SMARCC1 0.956 1.25 R.K[284.17]K[1372.78]SGK.K Q92922:342 1 SMARCC1 3.391 1.35 K.KGQASLYGK[812.51]R.R Q92922:354 1 SMARCC1 2.937 1.4 K.KGQASLYGK[684.42]R.R Q92922:354 1 SMARCC1 2.53875 1 K.KGQASLYGK[812.51]R.R Q92922:354 1 SMARCC1 2.12875 1.08333333 R.RALPEFFNGK[1605.88]NK.S Q8TAQ2:453 Q92922:478 2 SMARCC1 5.651 1.68181818 K.SK[1529.82]TPEIYLAYR.N Q8TAQ2:457 Q92922:482 2 SMARCC1 4.19975 1.83333333 K.EK[825.53]PVDLQNFGLR.T Q92922:592 1 SMARCC1 22.16925 2.13235294 R.ASGK[1066.61]VDPTYGLESSC[160.03]IAGTGPDEPEKLEGAEEEK.M Q92922:750 1 SMARCC1 6.64825 0.57352941 R.ASGK[1066.61]VDPTYGLESSC[160.03]IAGTGPDEPEKLEGAEEEK.M Q92922:750 1 SMARCC1 3.30025 1.92857143 K.K[1066.61]VQEAAR.A Q92922:740 1 SMARCC1 3.161 1.85714286 K.K[1066.61]VQEAAR.A Q92922:740 1 SMARCC1 3.11875 1.57142857 K.K[1066.61]VQEAAR.A Q92922:740 1 SMARCC1 3.057 1.57142857 K.K[1066.61]VQEAAR.A Q92922:740 1 SMARCC1 2.97625 2.5 R.TDIYSK[1567.9]K.T Q92922:608 1 SMARCC1 2.32875 2.85714286 R.TDIYSK[912.56]K.T Q92922:608 1 SMARCC1 1.346 1.07142857 R.TDIYSK[912.56]K.T Q92922:608 1 SMARCC1 2.202 1.71428571 K.SK[1688.95]GASAGR.E Q92922:615 1 SMARCC1 2.62225 1.64285714 R.TDIYSK[998.55]K.T Q92922:608 1 SMARCC1 2.474 1.57142857 K.SK[1119.63]GASAGR.E Q92922:615 1 SMARCC1 2.551 1.42857143 K.SK[1119.6]GASAGR.E Q92922:615 1 SMARCC1 3.50025 1 R.M[147.04]QKEITALAPSTM[147.04]K[2624.3]IK.I P60709:326 1 ACTB 2.288 0.91666667 K.EITALAPSTMK[2624.29]IK.I P60709:326 1 ACTB 1.975 1 K.EITALAPSTMK[2608.27]IK.I P60709:326 1 ACTB 1.3755 0.58333333 K.EITALAPSTMK[2608.3]IK.I P60709:326 1 ACTB 2.77075 0.76666667 R.M[147.04]QKEITALAPSTM[147.04]K[2624.33]IK.I P60709:326 1 ACTB 2.2285 0.875 K.EITALAPSTMK[2624.31]IK.I P60709:326 1 ACTB 7.21725 1.09090909 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 6.7275 1.25 R.K[1667.95]DLYANTVLSGGTTMYPGIADR.M P60709:291 1 ACTB 2.2785 0.91666667 K.EITALAPSTM[147.04]K[2624.31]IK.I P60709:326 1 ACTB 2.20475 0.875 K.EITALAPSTM[147.04]K[2608.33]IK.I P60709:326 1 ACTB 3.056 0.81578947 K.EITALAPSTM[147.04]K[2624.31]IK[284.17]IIAPPER.K P60709:326 1 ACTB 1.08425 0.77272727 K.E[111.03]ITALAPSTM[147.04]K[2608.29]IK.I P60709:326 1 ACTB 2.30225 1.16666667 K.IK[2624.31]IIAPPERK.Y P60709:328 Q562R1:329 2 ACTB 2.4275 1.125 K.IK[2624.32]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 2.206 1.0625 K.IK[2624.31]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 2.372 1.0625 K.IK[2624.34]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 1.654 1 K.IK[2624.34]IIAPPERK.Y P60709:328 Q562R1:329 2 ACTB 2.4025 1.38888889 K.IK[2624.3]IIAPPERK.Y P60709:328 Q562R1:329 2 ACTB 1.4955 1.11111111 K.IK[2624.29]IIAPPERK.Y P60709:328 Q562R1:329 2 ACTB 2.042 1.125 K.IK[2624.3]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 1.96 1.5 K.IK[2624.29]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 1.05025 0.77777778 K.IK[2624.29]IIAPPERK.Y P60709:328 Q562R1:329 2 ACTB 2.262 1 K.IK[2624.3]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 1.781 0.75 K.IK[2624.3]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 1.68975 0.8125 K.IK[2624.31]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 1.9465 1.0625 K.IK[2608.26]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 2.89775 1.04166667 R.DLTDYLM[147.04]K[2560.38]ILTER.G P60709:191 Q562R1:192 2 ACTB 1.0415 1.5 R.K[2560.39]C[160.03]F. P60709:373 Q562R1:374 2 ACTB 1.1795 1.5 R.K[2560.4]C[160.03]F. P60709:373 Q562R1:374 2 ACTB 1.221 1.625 R.K[2560.41]C[160.03]F. P60709:373 Q562R1:374 2 ACTB 1.0165 1.5 R.K[2560.38]C[160.03]F. P60709:373 Q562R1:374 2 ACTB 1.01 1.5 R.K[2560.39]C[160.03]F. P60709:373 Q562R1:374 2 ACTB 3.092 0.64285714 R.VAPEEHPVLLTEAPLNPK[1619.78]ANR.E P60709:113 1 ACTB 2.5505 1.125 K.IK[1829.98]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 5.098 1.10526316 K.EITALAPSTMK[2582.46]IKIIAPPER.K P60709:326 1 ACTB 1.261 0.88888889 K.E[111.03]PIDLK[3177.76]TIAQR.I Q86U86:231 1 PBRM 3.93375 1.61111111 R.AAK[2002.02]VAEQQER.E Q86U86:1434 1 PBRM 1.1755 0.5 R.NLETAK[1394.75]KAEYEER.A Q86U86:1424 1 PBRM 2.7885 1.38461539 R.NLETAK[1394.75]KAEYEER.A Q86U86:1424 1 PBRM 2.8005 1.92307692 R.NLETAK[1394.75]KAEYEER.A Q86U86:1424 1 PBRM 4.1755 1.55 R.AAK[1068.62]VAEQQER.E Q86U86:1434 1 PBRM 0.7135 0.5 R.NLETAK[1394.75]KAEYEER.A Q86U86:1424 1 PBRM 0.89075 0.375 R.AAK[1068.62]VAEQQERER.A Q86U86:1434 1 PBRM 1.03225 0.58333333 R.AAK[1068.62]VAEQQERER.A Q86U86:1434 1 PBRM 2.91775 0.66666667 R.NNQGQLIAEPFYHLPSK[1610.83]K.K Q86U86:414 1 PBRM 2.74125 0.67647059 R.NNQGQLIAEPFYHLPSK[2677.41]K.K Q86U86:414 1 PBRM 1.80875 0.55882353 R.NNQGQLIAEPFYHLPSK[2693.41]K.K Q86U86:414 1 PBRM 6.60625 1.7 R.K[2183.13]INM[147.04]SGYILFSSEM[147.04]R.A Q86U86:1380 1 PBRM 4.73225 1.2 R.K[2183.17]INM[147.04]SGYILFSSEM[147.04]R.A Q86U86:1380 1 PBRM 4.7385 1.26666667 R.K[2183.11]INM[147.04]SGYILFSSEMR.A Q86U86:1380 1 PBRM 3.9595 0.96666667 R.K[2183.08]INM[147.04]SGYILFSSEMR.A Q86U86:1380 1 PBRM 2.27475 1 K.EIEEDK[1007.64]LKR.E Q86U86:918 1 PBRM 1.8625 1.27777778 K.EIEEDK[1007.64]LKR.E Q86U86:918 1 PBRM 2.24375 1.16666667 K.EIEEDK[1007.64]LKR.E Q86U86:918 1 PBRM 1.53675 1 K.EIEEDK[1007.64]LKR.E Q86U86:918 1 PBRM 1.5835 1.16666667 K.EIEEDK[1007.64]LKR.E Q86U86:918 1 PBRM 1.4005 0.94444444 K.EIEEDK[1007.64]LKR.E Q86U86:918 1 PBRM 0.90775 0.61111111 K.EIEEDK[1007.64]LKR.E Q86U86:918 1 PBRM 8.40175 2.5 K.LNEVYEAVK[881.57]NYTDKR.G Q86U86:670 1 PBRM 1.301 1 K.LK[1666.84]LSR.K Q86U86:640 1 PBRM 1.31775 1.375 K.LK[1666.84]LSR.K Q86U86:640 1 PBRM 10.5955 2.5 K.RK[895.57]ELGPLPDDDDMASPK.L Q86U86:623 1 PBRM 10.114 2.32352941 K.RK[895.57]ELGPLPDDDDMASPK.L Q86U86:623 1 PBRM 1.0795 1.1 K.LLK[1992.96]EK[284.17]R.K Q86U86:619 1 PBRM 7.4025 1.97058824 K.RK[895.57]ELGPLPDDDDMASPK.L Q86U86:623 1 PBRM 1.5785 1 R.K[1822.92]SGISPK.K Q86U86:644 1 PBRM 1.03875 0.75 R.K[1538.73]SGISPK[284.17]K.S Q86U86:644 1 PBRM 1.141 0.85714286 R.K[1666.85]SGISPK.K Q86U86:644 1 PBRM 1.34475 1.8 K.K[1851.09]ELAR.R Q86U86:485 1 PBRM 1.89625 1.7 K.K[1354.76]ELAR.R Q86U86:485 1 PBRM 1.838 1.6 K.K[1354.78]ELAR.R Q86U86:485 1 PBRM 14.29825 1.97826087 R.RDDIEDGDSMISSATSDTGSAK[1009.63]R.K Q86U86:511 1 PBRM 12.6995 2 R.RDDIEDGDSMISSATSDTGSAK[881.53]R.K Q86U86:511 1 PBRM 9.30725 1.45652174 R.RDDIEDGDSMISSATSDTGSAK[881.53]R.K Q86U86:511 1 PBRM 0.84575 1.08333333 K.KK[981.59]ELAR.R Q86U86:485 1 PBRM 6.61025 1.73333333 R.K[881.57]PIVPQKEPSPLLEK.K Q86U86:1293 1 PBRM 0.9605 1.125 K.LK[1968.17]LSR.K Q86U86:640 1 PBRM 4.69975 1.56666667 R.K[1207.75]PIVPQKEPSPLLEK.K Q86U86:1293 1 PBRM 3.5255 1.2 R.K[1207.75]PIVPQKEPSPLLEK.K Q86U86:1293 1 PBRM 17.04775 3.02380952 R.NQPDYYEVVSQPIDLMK[892.56]IQQK.L Q86U86:96 1 PBRM 10.867 1.73809524 R.NQPDYYEVVSQPIDLMK[892.56]IQQK.L Q86U86:96 1 PBRM 3.04425 2.44444444 K.EIEEDKLK[875.51]R.E Q86U86:920 1 PBRM 2.274 1.44444444 K.EIEEDKLK[875.51]R.E Q86U86:920 1 PBRM 3.92875 2.33333333 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 3.644 1.85 R.VLK[1589.86]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.4135 1.65 R.VLK[1745.95]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 7.9665 2.85 R.VLK[1745.95]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 4.12425 2 R.YNVPNSAIYK[1851.08]R.V Q86U86:471 1 PBRM 6.26575 2.625 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 3.49275 1.75 R.VLK[1589.85]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.35175 1.65 R.VLK[1745.94]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 6.82075 2.35 R.VLK[1745.94]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 5.77375 2.18181818 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 1.6225 1.08333333 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 3.69175 1.85 R.VLK[1589.83]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.78025 1.625 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 3.42975 1.5 R.VLK[1745.93]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.67325 1.41666667 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 2.81725 1.15 R.YNVPNSAIYK[1851.07]R.V Q86U86:471 1 PBRM 3.90275 1.77272727 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 2.337 0.9 R.YNVPNSAIYK[1851.08]R.V Q86U86:471 1 PBRM 1.892 1.04166667 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 3.45375 1.65 R.VLK[1589.83]LQQVMQAK.K Q86U86:475 1 PBRM 3.5685 1.85 R.VLK[1589.84]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.6395 1.5 R.VLK[1745.92]LQQVMQAK.K Q86U86:475 1 PBRM 3.39675 1.125 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 3.16825 1.7 R.VLK[1589.85]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 1.87875 1 R.YNVPNSAIYK[1851.09]R.V Q86U86:471 1 PBRM 2.31675 0.95 R.YNVPNSAIYK[1851.03]R.V Q86U86:471 1 PBRM 2.90575 1.5 R.VLK[1745.96]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 2.65775 1.20833333 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 2.2465 1.22727273 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 2.16775 1.31818182 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 2.1415 1.3 R.VLK[1589.87]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.49125 1.65 R.VLK[1589.83]LQQVMQAK.K Q86U86:475 1 PBRM 3.104 1.7 R.VLK[1589.82]LQQVMQAK.K Q86U86:475 1 PBRM 2.6615 1.6 R.VLK[1589.83]LQQVMQAK.K Q86U86:475 1 PBRM 2.721 1.3 R.VLK[1589.85]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 1.908 0.95 R.VLK[1589.84]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 2.1695 1.3 R.VLK[1589.83]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.13925 1.5 R.VLK[1589.86]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 1.58725 0.68181818 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 0.94375 0.59090909 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 0.93825 1.6 R.YSAK[2166.07]TK.S Q86U86:1066 1 PBRM 6.99525 1.28947368 R.EAEK[962.54]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 3.9925 0.89473684 R.EAEK[962.54]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 0.94275 1.125 K.E[111.03]K[1669.87]LPK.E Q86U86:909 1 PBRM 2.018 1.2 K.HLHNDVEK[1007.64]ER.K Q86U86:904 1 PBRM 1.64 1.6 K.FK[1535.74]GLKR.F Q86U86:1272 1 PBRM 1.33475 1 K.FK[1551.76]GLK[284.17]R.F Q86U86:1272 1 PBRM 2.8725 2.15 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 2.8935 1.6 R.YNESDKQMK[857.54]K.F Q86U86:1269 1 PBRM 2.69375 1.2 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 1.095 1.4 K.FK[1535.75]GLK[284.17]R.F Q86U86:1272 1 PBRM 1.0195 1.2 K.FK[1535.74]GLKR.F Q86U86:1272 1 PBRM 2.4225 1.5 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 1.18 1.2 K.FK[1551.74]GLKR.F Q86U86:1272 1 PBRM 1.2525 1.2 K.FK[1535.74]GLKR.F Q86U86:1272 1 PBRM 1.1765 1.2 K.FK[1551.74]GLKR.F Q86U86:1272 1 PBRM 1.001 1.2 K.FK[1551.74]GLKR.F Q86U86:1272 1 PBRM 1.1715 1.2 K.FK[1551.74]GLKR.F Q86U86:1272 1 PBRM 0.991 1.2 K.FK[1551.73]GLKR.F Q86U86:1272 1 PBRM 2.06025 0.9 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 1.80825 0.95 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 0.977 1.2 K.FK[1551.73]GLKR.F Q86U86:1272 1 PBRM 1.9975 0.85 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 1.8065 0.9 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 1.91075 1.45 R.YNESDKQMK[857.54]K.F Q86U86:1269 1 PBRM 1.62475 1.05 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 1.1675 0.5 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 0.3575 0.25 R.YNESDKQMK[1013.64]K.F Q86U86:1269 1 PBRM 4.0015 1.6875 R.NPTSK[1009.63]YYR.N Q86U86:329 1 PBRM 3.68025 1.375 R.NPTSK[1009.63]YYR.N Q86U86:329 1 PBRM 1.09 1 K.LK[1293.67]LSR.K Q86U86:640 1 PBRM 4.685 2.1875 R.NPTSK[1009.63]YYR.N Q86U86:329 1 PBRM 12.156 2.27272727 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 8.50625 1.43181818 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 6.09725 1.13636364 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 3.923 0.97727273 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 4.19225 0.97727273 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 4.86375 0.77272727 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 3.77 0.88636364 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 3.37725 0.79545455 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 4.0615 0.63636364 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 3.13725 0.68181818 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 3.03025 1.91666667 R.LISELFQK[1548.89]LPSK.V Q86U86:210 1 PBRM 3.6725 0.5 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 1.811 1.13636364 R.LISELFQK[2902.51]LPSK.V Q86U86:210 1 PBRM 1.9645 0.36363636 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 0.99175 0.34090909 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 1.52575 1.04545455 R.LISELFQK[2902.53]LPSK.V Q86U86:210 1 PBRM 2.12175 1.11111111 R.AAK[1566.9]VAEQQER.E Q86U86:1434 1 PBRM 3.9225 1.9 R.AAK[1009.63]VAEQQER.E Q86U86:1434 1 PBRM 1.40975 1.25 K.LK[1207.75]LSR.K Q86U86:640 1 PBRM 9.11375 2.5 R.K[881.57]ELGPLPDDDDMASPK.L Q86U86:623 1 PBRM 0.30075 0.19444444 R.K[2166.06]ELGPLPDDDDMASPKLK.L Q86U86:623 1 PBRM 6.47 1.86111111 R.EAEK[2224.17]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 6.867 1.61111111 R.EAEK[2224.14]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 6.356 1.625 K.REAEK[2068.09]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 1.905 1.4 K.IFYM[147.04]K[1918.95]K.A Q86U86:283 1 PBRM 0.94475 1.3 K.KFK[1407.65]GLK.R Q86U86:1272 1 PBRM 1.04075 1.3 K.FK[1551.73]GLKR.F Q86U86:1272 1 PBRM 1.011 1.2 K.FK[1551.74]GLKR.F Q86U86:1272 1 PBRM 0.952 1.33333333 K.K[1423.64]FK.G Q86U86:1270 1 PBRM 1.0405 1.33333333 K.K[1423.67]FK.G Q86U86:1270 1 PBRM 2.2215 1.75 K.K[1423.65]IQLLEAK.F Q86U86:1308 1 PBRM 0.969 1 K.K[2695.24]K[284.17]ELAR.R Q86U86:484 1 PBRM 1.21475 1.41666667 K.K[981.59]KELAR.R Q86U86:484 1 PBRM 5.47025 0.94736842 R.EAEK[2107.09]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 5.02125 0.97368421 R.EAEK[2107.09]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 4.1695 1.6 R.AAK[1189.6]VAEQQER.E Q86U86:1434 1 PBRM 1.7285 0.75 R.AAK[1189.6]VAEQQERER.A Q86U86:1434 1 PBRM 2.9125 1.57142857 K.K[1679.86]AEYEER.A Q86U86:1425 1 PBRM 3.97775 1.65 R.AAK[1189.6]VAEQQER.E Q86U86:1434 1 PBRM 2.332 0.70833333 R.AAK[1189.6]VAEQQERER.A Q86U86:1434 1 PBRM 0.98425 1.08333333 K.SAK[2183.15]GSAK.K Q86U86:1369 1 PBRM 1.106 1.16666667 K.SAK[1125.63]GSAK.K Q86U86:1369 1 PBRM 1.5225 2.25 R.EEEK[2148.04]R.E Q86U86:925 1 PBRM 11.51225 2.5 R.EAEK[1111.6]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 11.56875 2.60526316 R.EAEK[1111.6]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 11.39675 2.78947368 R.EAEK[1111.6]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 10.4195 2.18421053 R.EAEK[1111.6]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 8.54925 1.97368421 R.EAEK[955.5]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 8.4865 1.81578947 R.EAEK[955.5]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 8.3885 2.2631579 R.EAEK[1111.6]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 10.91925 1.80434783 R.RDDIEDGDSMISSATSDTGSAK[881.57]R.K Q86U86:511 1 PBRM 7.67525 1.19565217 R.RDDIEDGDSMISSATSDTGSAK[881.57]R.K Q86U86:511 1 PBRM 12.9315 2.02173913 R.RDDIEDGDSMISSATSDTGSAK[795.5]R.K Q86U86:511 1 PBRM 2.079 1.3 R.DVHLSK[1825.92]EQESR.L Q86U86:1642 1 PBRM 2.1695 1.2 R.DVHLSK[1809.91]EQESR.L Q86U86:1642 1 PBRM 3.99875 1.5 R.DVHLSK[1360.79]EQESR.L Q86U86:1642 1 PBRM 4.997 1.4 R.LTGPSHSK[881.53]GSLGEER.N Q86U86:317 1 PBRM 1.979 0.95 R.YNVPNSAIYK[1819.93]R.V Q86U86:471 1 PBRM 4.09025 1.1 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 1.5385 0.92857143 R.NPTSK[1819.95]YYR.N Q86U86:329 1 PBRM 1.14275 0.85714286 R.NPTSK[1819.93]YYR.N Q86U86:329 1 PBRM 4.55625 1.43333333 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 2.05275 0.93333333 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 4.12975 1.43333333 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 4.096 1.71428571 R.NPTSK[1819.94]YYR.N Q86U86:329 1 PBRM 4.038 1.16666667 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 1.254 0.85714286 R.NPTSK[1819.95]YYR.N Q86U86:329 1 PBRM 0.90725 0.71428571 R.NPTSK[1819.94]YYR.N Q86U86:329 1 PBRM 1.6665 1.42857143 R.NPTSK[1819.99]YYR.N Q86U86:329 1 PBRM 1.246 0.71428571 R.NPTSK[1819.93]YYR.N Q86U86:329 1 PBRM 3.1125 1.6 R.VLK[1819.93]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 1.0705 0.76666667 R.LTGPSHSK[1550.92]GSLGEER.N Q86U86:317 1 PBRM 0.95 1.125 K.LK[1819.96]LSR.K Q86U86:640 1 PBRM 4.354 1.77272727 R.VLK[881.57]LQQVMQAK.K Q86U86:475 1 PBRM 5.08425 2.59090909 R.VLK[1009.63]LQQVMQAK.K Q86U86:475 1 PBRM 1.03325 1.08333333 K.K[1566.91]KELAR.R Q86U86:484 1 PBRM 1.38525 1 R.K[1566.91]SGISPK.K Q86U86:644 1 PBRM 3.4495 1.65 R.VLK[2695.26]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.6795 1.65 R.VLK[2695.2]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 2.82475 1.3 R.VLK[2695.22]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.622 1.65 R.VLK[2695.17]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 1.5305 1.1 R.VLK[2695.21]LQQVMQAK.K Q86U86:475 1 PBRM 1.3815 1.6 K.K[1835.09]ELAR.R Q86U86:485 1 PBRM 1.372 1.6 K.K[1851.1]ELAR.R Q86U86:485 1 PBRM 5.1295 2.77272727 R.VLK[1009.63]LQQVMQAK.K Q86U86:475 1 PBRM 1.652 1.25 K.K[1550.92]K[284.17]ELAR.R Q86U86:484 1 PBRM 1.81375 1.7 K.K[284.17]K[1566.9]ELAR.R Q86U86:485 1 PBRM 3.87625 1.54166667 K.RVLK[1009.63]LQQVMQAK.K Q86U86:475 1 PBRM 4.2655 1.95454546 R.VLK[1009.63]LQQVMQAK.K Q86U86:475 1 PBRM 9.70425 2.08823529 R.AVIK[2183.14]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 7.0565 1.625 R.AVIK[2183.11]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 6.57625 1.73529412 R.AVIK[2183.14]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 6.2365 1.47058824 R.AVIK[2183.14]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 6.14575 1.5 R.AVIK[1592.82]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 3.36825 2.58333333 R.NLETAK[2183.1]K.A Q86U86:1424 1 PBRM 9.50125 2.38235294 R.AVIK[1068.62]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 7.5755 2.23529412 R.AVIK[1394.75]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 4.355 1.14705882 R.AVIK[1394.75]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 1.82925 0.58823529 R.AVIK[1394.75]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 7.9 1.97058824 R.AVIK[1189.6]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 4.0345 1.26470588 R.AVIK[1189.6]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 2.93275 1.04545455 R.LC[160.03]DLFMVK[2297.13]PSKK.D Q86U86:549 1 PBRM 2.3635 0.9 R.LC[160.03]DLFMVK[2425.26]PSK.K Q86U86:549 1 PBRM 5.113 2.5 K.K[1618.84]DYPDYYK.I Q86U86:553 1 PBRM 4.944 2.5 K.K[1618.85]DYPDYYK.I Q86U86:553 1 PBRM 7.35225 2.5 R.LC[160.03]DLFMVK[1356.66]PSK.K Q86U86:549 1 PBRM 7.4355 2.72727273 R.LC[160.03]DLFMVK[1356.66]PSK.K Q86U86:549 1 PBRM 2.9305 1.75 K.K[1618.83]DYPDYYK.I Q86U86:553 1 PBRM 2.8045 1.625 K.K[1618.84]DYPDYYK.I Q86U86:553 1 PBRM 1.73625 1.125 K.K[1618.85]DYPDYYK.I Q86U86:553 1 PBRM 6.1795 1.90909091 R.LC[160.03]DLFMVK[1356.66]PSK.K Q86U86:549 1 PBRM 2.04 1.375 K.K[1774.92]DYPDYYK.I Q86U86:553 1 PBRM 1.255 1.125 K.K[1618.88]DYPDYYK.I Q86U86:553 1 PBRM 3.4105 1.59090909 R.LC[160.03]DLFMVK[1356.66]PSK.K Q86U86:549 1 PBRM 3.17625 1.68181818 R.LC[160.03]DLFMVK[1356.66]PSK.K Q86U86:549 1 PBRM 1.5035 1.1875 K.K[1774.95]DYPDYYK.I Q86U86:553 1 PBRM 2.57 1.4375 K.K[2124.25]IQLLEAK.F Q86U86:1308 1 PBRM 2.361 1.6875 K.K[2124.25]IQLLEAK.F Q86U86:1308 1 PBRM 2.00525 1.05555556 R.LDGTTK[1938.89]AEDR.G P51532:1131 1 SMARCA4 3.22125 0.90625 R.K[1370.7]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 3.294 1.8 K.VSYK[1272.71]GSPAAR.R P51532:835 1 SMARCA4 1.1295 0.7 K.VSYK[1272.71]GSPAAR.R P51532:835 1 SMARCA4 4.9205 1.75 R.DTALETALNAK[2086.09]AYKR.S P51532:437 1 SMARCA4 4.66875 2.03571429 R.DTALETALNAK[2086.13]AYKR.S P51532:437 1 SMARCA4 4.05 1.46428571 R.DTALETALNAK[2086.09]AYKR.S P51532:437 1 SMARCA4 3.41725 1.42857143 R.DTALETALNAK[2086.06]AYKR.S P51532:437 1 SMARCA4 3.164 2.5 K.VK[284.17]IK[1295.71]LGR.K P51532:1598 1 SMARCA4 3.19575 2.41666667 K.VK[284.17]IK[1295.73]LGR.K P51532:1598 1 SMARCA4 2.83675 1.83333333 K.VKIK[1295.71]LGR.K P51532:1598 1 SMARCA4 1.77975 1.625 K.IK[1295.7]LGR.K P51532:1598 1 SMARCA4 1.7595 1.875 K.IK[1295.71]LGR.K P51532:1598 1 SMARCA4 1.9325 1.75 K.IK[1139.63]LGR.K P51532:1598 1 SMARCA4 1.2605 1.57142857 R.K[851.56]EKAQDR.L P51532:1602 1 SMARCA4 0.993 1.25 K.IK[1295.68]LGR.K P51532:1598 1 SMARCA4 1.27675 1.57142857 R.K[851.56]EKAQDR.L P51532:1602 1 SMARCA4 1.27025 1.5 R.K[851.56]EKAQDR.L P51532:1602 1 SMARCA4 1.009 1.66666667 R.KEK[1234.8]AQDR.L P51532:1604 1 SMARCA4 1.423 1 K.EK[979.65]AQDR.L P51532:1604 1 SMARCA4 1.2095 1 K.EK[979.65]AQDR.L P51532:1604 1 SMARCA4 1.2185 1.625 R.LK[1295.71]GGR.R P51532:1610 1 SMARCA4 1.0945 1.625 R.LK[1295.71]GGR.R P51532:1610 1 SMARCA4 2.7475 1.91666667 R.ITEK[1434.77]LEK.Q P51532:455 1 SMARCA4 6.85025 2.27272727 R.K[1931.96]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 1.511 1.75 R.LK[1234.8]GGR.R P51532:1610 1 SMARCA4 1.013 2.16666667 K.VK[1295.7]IK.L P51532:1596 P51531:1538 2 SMARCA4 1.67275 1.83333333 R.SVK[284.17]VK[1295.72]IK.L P51532:1596 P51531:1538 2 SMARCA4 0.92875 1.5 K.VK[1295.7]IK.L P51532:1596 P51531:1538 2 SMARCA4 2.3475 0.8125 K.VIHVESGK[2151.02]ILTGTDAPK.A P51532:626 1 SMARCA4 3.08175 0.70588235 K.KK[2030.14]IPDPDSDDVSEVDAR.H P51532:689 1 SMARCA4 1.49675 1.08333333 R.LTC[160.03]EEEEEK[2698.29]M[147.04]FGR.G P51532:1365 1 SMARCA4 0.96725 0.70833333 R.LTC[160.03]EEEEEK[2698.29]MFGR.G P51532:1365 1 SMARCA4 1.1165 0.66666667 R.LTC[160.03]EEEEEK[2698.3]M[147.04]FGR.G P51532:1365 1 SMARCA4 1.46775 0.79166667 R.LTC[160.03]EEEEEK[2698.3]MFGR.G P51532:1365 1 SMARCA4 5.96375 1.04545455 R.HIIENAK[2151.07]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 1.4305 0.72222222 K.VSYK[2736.34]GSPAAR.R P51532:835 1 SMARCA4 7.221 2.59090909 R.K[1300.71]ELPEYYELIR.K P51532:1492 P51531:1434 2 SMARCA4 1.1625 0.92857143 R.K[1717.93]EK[284.17]AQDR.L P51532:1602 1 SMARCA4 1.4975 1 R.SVTGK[1839.97]IQK.L P51532:496 1 SMARCA4 0.98275 0.77777778 R.K[3004.53]EKLPQVTR.S O96019:240 1 ACTL6A 8.888 1.30434783 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 9.18025 1.32608696 R.ELFQEMNIELVPPYMIASK[1363.82]EAVR.E O96019:226 1 ACTL6A 0.908 0.55555556 R.K[3004.55]EK[284.17]LPQVTR.S O96019:240 1 ACTL6A 4.87525 1.68181818 K.Q[111.03]EYEEGGK[2811.36]QC[160.03]VER.K O96019:421 1 ACTL6A 4.93525 1.72727273 K.Q[111.03]EYEEGGK[2811.38]QC[160.03]VER.K O96019:421 1 ACTL6A 4.494 1.45454546 K.Q[111.03]EYEEGGK[2795.38]QC[160.03]VER.K O96019:421 1 ACTL6A 4.202 1.36363636 K.Q[111.03]EYEEGGK[2795.37]QC[160.03]VER.K O96019:421 1 ACTL6A 3.68875 1.36363636 K.Q[111.03]EYEEGGK[2795.39]QC[160.03]VER.K O96019:421 1 ACTL6A 1.88875 0.6 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.428 0.95 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 8.089 4.625 R.EGSPANWK[1519.9]R.K O96019:238 1 ACTL6A 5.15325 1.88888889 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 3.5295 1.61111111 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 4.87775 2.875 R.EGSPANWK[1519.9]R.K O96019:238 1 ACTL6A 5.20275 3.21428571 R.E[111.03]GSPANWK[1363.81]R.K O96019:238 1 ACTL6A 3.5045 2.57142857 R.E[111.03]GSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.755 2.625 R.EGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 2.86925 1.16666667 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 3.19575 1.22222222 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 2.359 1.875 R.EGSPANWK[1363.79]R.K O96019:238 1 ACTL6A 2.86775 2.21428571 R.E[111.03]GSPANWK[1363.82]R.K O96019:238 1 ACTL6A 1.3645 0.9375 R.EGSPANWK[1363.8]R.K O96019:238 1 ACTL6A 1.46725 1.25 R.EGSPANWK[1363.8]R.K O96019:238 1 ACTL6A 3.53975 2 R.EGSPANWK[1519.9]R.K O96019:238 1 ACTL6A 3.2555 1.6875 R.EGSPANWK[1363.8]R.K O96019:238 1 ACTL6A 4.15125 3.1875 R.EGSPANWK[1519.91]R.K O96019:238 1 ACTL6A 2.0295 0.96153846 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.637 1.23076923 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 1.5775 1.4375 R.EGSPANWK[1363.8]R.K O96019:238 1 ACTL6A 3.3965 1.11538462 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 1.8735 1.05555556 R.K[1764.89]EKLPQVTR.S O96019:240 1 ACTL6A 2.38075 1.6875 R.EGSPANWK[1519.87]R.K O96019:238 1 ACTL6A 2.1285 0.65384615 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 2.271 1.38888889 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 5.17525 2.64285714 R.E[111.03]GSPANWK[1363.82]R.K O96019:238 1 ACTL6A 4.62375 2.6875 R.EGSPANWK[1519.88]R.K O96019:238 1 ACTL6A 2.13575 2 R.E[111.03]GSPANWK[1363.81]R.K O96019:238 1 ACTL6A 3.71075 1.07692308 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 1.6935 1.64285714 R.E[111.03]GSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.38825 1.07692308 K.EAVREGSPANWK[1363.82]R.K O96019:238 1 ACTL6A 3.35075 2.07142857 R.E[111.03]GSPANWK[1363.83]R.K O96019:238 1 ACTL6A 1.723 1.3125 R.EGSPANWK[1363.79]R.K O96019:238 1 ACTL6A 1.02025 0.83333333 R.AK[1327.75]DDIKK.V Q8WUZ0:15 1 BCL7C 1.204 1.4 R.AK[1200.68]DDIK.R Q4VC05:15 Q8WUZ0:15 2 BCL7C 1.378 0.85714286 R.SRAK[1200.69]DDIK.R Q4VC05:15 Q8WUZ0:15 2 BCL7C 4.9945 3.1875 R.VM[147.04]AAIEK[1624.93]VR.K Q4VC05:27 1 BCL7A 4.24575 1.68181818 R.IYK[1281.75]WVPVTEPK.V Q4VC05:47 1 BCL7A 3.0315 1.22727273 R.IYK[1281.75]WVPVTEPK.V Q4VC05:47 1 BCL7A 1.704 1.5 R.K[1297.74]WEK.K Q4VC05:30 1 BCL7A 0.9995 1.2 R.K[1297.76]WEKK.W Q4VC05:30 1 BCL7A 6.2315 3.11111111 R.VMAAIEK[855.49]VR.K Q4VC05:27 1 BCL7A 7.062 2.44444444 R.VMAAIEK[1110.64]VR.K Q4VC05:27 1 BCL7A 1.131 1.16666667 R.AKDDIK[1297.74]R.V Q4VC05:19 1 BCL7A 2.5615 1.5 R.AK[1281.75]DDIK[284.17]R.V Q4VC05:15 1 BCL7A 2.337 1.5 R.AK[1281.75]DDIK[284.17]R.V Q4VC05:15 1 BCL7A 2.322 1.5 R.AK[1281.73]DDIK[284.17]R.V Q4VC05:15 1 BCL7A 7.252 3.27777778 R.VMAAIEK[1110.64]VR.K Q4VC05:27 1 BCL7A 2.782 2.5 R.AK[1297.74]DDIK[284.17]R.V Q4VC05:15 1 BCL7A 7.2655 2.88888889 R.VMAAIEK[1110.64]VR.K Q4VC05:27 1 BCL7A 6.06575 2.5 R.VMAAIEK[1110.64]VR.K Q4VC05:27 1 BCL7A 2.1695 1.33333333 R.AK[1297.74]DDIKR.V Q4VC05:15 1 BCL7A 5.54 2.38888889 R.VMAAIEK[1110.64]VR.K Q4VC05:27 1 BCL7A 2.83975 1.22727273 R.IYK[1526.85]WVPVTEPK.V Q4VC05:47 1 BCL7A 2.13775 1 R.TVFPNHTVK[1644.8]R.V Q68CP9:581 1 ARID2 1.5415 1 R.TVFPNHTVK[1644.85]R.V Q68CP9:581 1 ARID2 4.35525 1.40909091 R.RK[928.54]GLAFLDELR.Q Q68CP9:15 1 ARID2 3.36125 0.81578947 K.DALLAGLK[1855.96]QDEPGQAGSQK.S Q68CP9:1701 1 ARID2 2.5105 0.63157895 K.DALLAGLK[1855.96]QDEPGQAGSQK.S Q68CP9:1701 1 ARID2 5.569 1.8 K.SSTK[2072.15]QPTVGGTSSTPR.A Q68CP9:1716 1 ARID2 4.72825 1.35294118 R.AQK[1855.96]AIVNHPSAALMALR.R Q68CP9:1731 1 ARID2 5.9195 1.23333333 K.SSTK[2072.17]QPTVGGTSSTPR.A Q68CP9:1716 1 ARID2 2.6595 0.67647059 R.AQK[1855.96]AIVNHPSAALMALR.R Q68CP9:1731 1 ARID2 0.31575 0.23529412 R.AQK[1855.96]AIVNHPSAALMALR.R Q68CP9:1731 1 ARID2 3.94025 2.15 K.LLDDPSK[1155.63]QKR.K Q6STE5:196 Q92925:244 2 SMARCD2 3.41625 2.05 K.LLDDPSK[1155.63]QKR.K Q6STE5:196 Q92925:244 2 SMARCD2 1.90975 0.8 K.LLDDPSK[1155.63]QKR.K Q6STE5:196 Q92925:244 2 SMARCD2 0.971 1.28571429 R.K[1620.91]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 3 SMARCD2 5.97175 2.25 K.LLDDPSKQK[1311.73]R.K Q6STE5:198 Q92925:246 2 SMARCD2 4.49175 1.72727273 R.VEGK[1155.63]LLDDPSK.Q Q6STE5:189 Q92925:237 2 SMARCD2 3.77225 1.54545455 R.VEGK[1155.63]LLDDPSK.Q Q6STE5:189 Q92925:237 2 SMARCD2 4.31025 2.0625 R.K[1526.85]LDQTIAR.K Q92925:168 1 SMARCD2 2.78025 1.11111111 R.K[284.17]M[147.04]ADK[2075.15]VLPQR.I Q92925:143 1 SMARCD2 7.702 3.55555556 R.MEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 5.8125 2.33333333 R.MEIQEAIK[1007.61]K.P Q92925:185 1 SMARCD2 3.075 2.07142857 R.K[1430.76]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 3 SMARCD1 11.522 1.72222222 R.IFISNTFNPAK[2584.32]SDAEDGEGTVASWELR.V Q96GM5:194 1 SMARCD1 12.62725 2.28947368 R.K[1483.78]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.6645 0.71052632 R.K[1483.78]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 0.9885 0.8125 R.K[2510.38]LDQTIM[147.04]R.K Q6STE5:131 Q96GM5:156 2 SMARCD1 12.9015 2.18421053 R.K[1269.71]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 5.93775 2.38888889 R.LDIQEALK[878.56]R.P Q96GM5:173 1 SMARCD1 5.75225 2.1 K.RLDIQEALK[878.56]R.P Q96GM5:173 1 SMARCD1 1.9255 1.125 R.YFYSK[2113.99]VQQR.R Q96GM5:498 1 SMARCD1 1.42225 1.3125 R.K[1352.75]LDQTIM[147.04]R.K Q6STE5:131 Q96GM5:156 2 SMARCD1 realpep1 position1 immonium2 ion2 dot2 connective2 TPQQTSASQQMLNFPDKGK 564 //12 11//62 2.08975 1 EKPTDMQNFGLR 568 //14 27//111 7.64925 1.77777778 EKPTDMQNFGLR 568 //14 22//111 6.412 1.80555556 EKPTDMQNFGLR 568 //14 24//111 7.479 1.77777778 TPQQTSASQQMLNFPDKGK 564 //12 7//62 1.2695 0.75 TPQQTSASQQMLNFPDKGK 564 //12 11//62 2.80375 1.29166667 TPQQTSASQQMLNFPDKGK 564 1//12 12//62 2.049 1.04166667 TPQQTSASQQMLNFPDKGK 564 1//12 9//62 0.96775 0.58333333 SKAAASATR 592 //14 23//117 6.7275 1.58333333 SKAAASATR 592 1//14 25//117 6.635 1.72222222 SKAAASATR 592 2//14 25//70 6.842 3 SKAAASATR 592 2//14 23//70 4.35675 2.72727273 SKAAASATR 592 //14 17//70 2.7795 1.90909091 SKAAASATR 592 //14 15//70 2.67825 1.63636364 SKAAASATR 592 //14 15//70 2.8705 1.5 TDMYTKK 584 //9 12//45 3.515 1.83333333 SKAAASATR 592 //14 11//70 1.96225 1.31818182 SKAAASATR 592 3//9 9//35 1.47475 1.58333333 SKAAASATR 592 //14 10//70 2.09075 1.09090909 SKAAASATR 592 3//9 8//35 1.244 1.25 SKAAASATR 592 3//9 9//35 1.644 1.33333333 TDMYTKK 584 //9 9//45 3.048 1.55555556 VEGQATDEKK 769 //8 7//40 2.02025 1.3125 VEGQATDEKK 769 //8 5//30 1.02525 0.83333333 VEGQATDEKK 769 //8 4//30 1.04475 0.75 EPKEPR 773 //12 15//55 4.734 2 VEGQATDEKK 769 //8 4//30 1.1265 0.75 VEGQATDEKK 769 //8 4//30 0.92025 0.75 VEGQATDEKK 769 //8 4//30 1.0035 0.75 VEGQATDEKK 769 //8 4//30 0.95675 0.75 VEGQATDEKK 769 //8 3//30 0.55875 0.41666667 VEGQATDEKK 769 //8 4//30 0.784 0.75 EPKEPR 773 //12 9//55 2.53925 1.05555556 EPKEPR 773 //12 12//55 2.06925 1.5 VEGQATDEKK 769 //8 3//30 0.607 0.41666667 EPKEPR 773 //12 7//55 1.87975 0.77777778 VEGQATDEKK 769 //8 1//30 0.06375 0.08333333 KTKVER 846 //17 27//99 8.42425 2.375 EGQEEVLKEVVESEGER 836 //7 5//28 0.78025 1.08333333 EGQEEVLKEVVESEGER 836 //7 4//28 0.7115 1 KTKVER 846 //17 17//99 5.86175 1.34375 EGQEEVLKEVVESEGER 836 //7 3//28 0.2705 0.41666667 EGQEEVLKEVVESEGER 836 //7 6//35 0.57175 1.41666667 KTKVER 846 //17 14//99 2.74425 0.96875 EGQEEVLKEVVESEGER 836 //8 4//26 0.4675 0.5 KTKVER 848 //17 19//96 6.86825 1.7 EGQEEVLKEVVESEGER 836 1//8 6//32 0.54375 0.66666667 EGQEEVLKEVVESEGER 836 //8 4//26 0.59975 0.75 KTKVER 848 //17 22//132 6.11725 1.75 EGQEEVLKEVVESEGER 836 //8 2//26 0.188 0.16666667 EGQEEVLKEVVESEGER 836 //8 5//26 0.71625 0.83333333 EGQEEVLKEVVESEGER 836 //5 2//20 0.204 0.2 KTKVER 848 //17 9//96 3.36 0.83333333 KTKVER 848 //17 8//96 3.1215 0.8 EGQEEVLKEVVESEGER 836 //8 7//32 0.73175 1 KTKVER 848 //17 9//96 2.657 0.83333333 EGQEEVLKEVVESEGER 836 //8 4//32 0.4035 0.33333333 VASAAAKSALEEFSK 694 1//10 10//48 2.58175 1.35 VASAAAKSALEEFSK 694 1//10 11//48 2.827 1.55 VASAAAKSALEEFSK 694 3//10 13//59 2.867 1.65 MKEEVPTALVEAHVR 704 //17 20//84 5.1035 1.66666667 VASAAAKSALEEFSK 694 4//15 30//111 9.53325 2.82142857 MKEEVPTALVEAHVR 704 //17 22//84 5.30575 1.73333333 MKEEVPTALVEAHVR 704 //17 21//84 5.662 1.76666667 MKEEVPTALVEAHVR 704 //17 19//109 3.58275 1.46666667 MKEEVPTALVEAHVR 704 //17 22//109 4.22925 1.86666667 MKEEVPTALVEAHVR 704 //17 20//84 5.0535 1.66666667 MKEEVPTALVEAHVR 704 //17 11//84 2.74875 0.96666667 VASAAAKSALEEFSK 694 4//15 29//111 7.94275 2.57142857 MKEEVPTALVEAHVR 704 //17 20//109 3.835 1.73333333 MKEEVPTALVEAHVR 704 //17 20//84 5.0915 1.66666667 MKEEVPTALVEAHVR 704 //17 16//109 2.741 1.23333333 VASAAAKSALEEFSK 694 //15 21//87 6.31975 2.46428571 VASAAAKSALEEFSK 694 //15 18//87 5.64975 1.64285714 VASAAAKSALEEFSK 694 2//15 19//111 3.82375 1.39285714 VASAAAKSALEEFSK 694 1//15 17//87 3.597 1.39285714 VASAAAKSALEEFSK 694 3//15 12//87 3.51475 1.07142857 VASAAAKSALEEFSK 694 1//15 14//111 2.73925 1 MKEEVPTALVEAHVR 704 //17 10//84 2.118 0.66666667 TKVERDIGEGNLSTAAAAALAAAAVK 848 //17 12//109 2.88925 1.13333333 VASAAAKSALEEFSK 694 //8 11//34 2.38525 2 VASAAAKSALEEFSK 694 //8 5//34 0.38975 0.5 VASAAAKSALEEFSK 694 //8 4//34 0.51525 0.64285714 VASAAAKSALEEFSK 694 //7 5//37 0.709 1 VASAAAKSALEEFSK 694 1//7 7//37 1.04375 1.75 KTKVER 846 //17 19//88 4.4855 1.53571429 AKHLAAVEER 874 //8 10//38 3.1835 2 AKHLAAVEER 874 //8 7//38 2.27275 1.5 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 6//40 1.827 1.42857143 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 5//40 1.163 1.14285714 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 1//40 0.09225 0.07142857 KVEEAAK 718 1//7 8//31 1.497 1.58333333 KVEEAAK 718 //7 6//31 1.37625 1.41666667 KVEEAAK 718 1//8 9//30 1.013 1.5 KVEEAAK 718 1//8 9//30 0.7915 1.33333333 KTKVER 848 //15 8//114 1.954 0.61111111 AKHLAAVEER 874 //5 4//23 1.30325 0.9 SKAAASATR 592 2//8 11//37 2.38775 2.07142857 SKAAASATR 592 //8 9//37 1.84825 1.78571429 MKEEVPTALVEAHVR 704 //9 7//38 2.4075 1.33333333 MKEEVPTALVEAHVR 704 //9 8//47 2.88075 1.38888889 EGGGAIEEEAKEK 787 //13 9//57 1.262 0.86363636 EGGGAIEEEAKEK 787 //13 12//57 1.48225 1 EGGGAIEEEAKEK 787 //13 5//73 0.7955 0.45454546 EGGGAIEEEAKEK 787 //13 7//73 1.4735 0.77272727 EGGGAIEEEAKEK 787 //6 5//27 1.071 1.6 TSEAPKKDEEK 796 //15 9//90 3.5015 0.79166667 EGGGAIEEEAKEK 787 //13 6//73 1.19125 0.59090909 TSEAPKKDEEK 796 //15 9//90 3.29325 0.79166667 KDEEKGK 800 //18 9//110 3.49375 0.80555556 EGGGAIEEEAKEK 787 //13 4//73 0.35125 0.27272727 TKVER 848 2//13 24//66 6.794 2.75 TKVER 848 1//13 22//66 5.4585 2.5 KVEEAAKVTGK 724 //5 6//23 1.43175 1.1 KVEEAAKVTGK 724 //5 7//23 1.37425 1.4 KTKVER 846 2//13 21//80 6.65425 2.85 KNVPSK 585 //15 19//117 5.17625 1.78571429 SKAAASATR 592 3//14 33//69 9.12325 4.04545455 SKAAASATR 592 2//14 24//69 5.24875 2.72727273 SKAAASATR 592 1//7 9//31 1.76325 2.08333333 SKAAASATR 592 2//7 8//31 1.59225 1.75 SKAAASATR 592 2//7 9//31 1.568 2.08333333 SKAAASATR 592 2//7 9//31 1.8185 1.83333333 SKAAASATR 592 1//12 15//69 4.80525 1.68181818 KNVPSK 585 //12 19//69 6.311 2.40909091 TDMYTKK 584 //12 17//69 5.65175 2.04545455 AKHLAAVEER 874 1//15 33//91 13.6745 3.60714286 MKEEVPTALVEAHVR 704 1//10 14//46 3.672 1.8 AKHLAAVEER 874 1//15 35//115 12.358 3.85714286 MKEEVPTALVEAHVR 704 1//10 16//57 3.47925 1.9 AKHLAAVEER 874 //15 30//91 12.2345 3.57142857 MKEEVPTALVEAHVR 704 2//10 13//57 3.8315 1.75 AKHLAAVEER 874 1//15 25//91 9.86375 2.67857143 AKHLAAVEER 874 //15 26//115 9.771 2.82142857 MKEEVPTALVEAHVR 704 //10 10//57 3.28725 1.5 AKHLAAVEER 874 3//15 29//115 9.392 2.78571429 AKHLAAVEER 874 //15 19//91 7.63925 1.92857143 MKEEVPTALVEAHVR 704 1//10 10//57 2.559 1.15 AKHLAAVEER 874 //15 21//91 8.63175 2.14285714 AKHLAAVEER 874 //10 21//175 5.196 1.15909091 MKEEVPTALVEAHVR 704 //10 7//57 1.233 0.6 MKEEVPTALVEAHVR 704 //10 10//57 2.95325 1.5 TKVER 848 2//15 30//115 9.8795 3.14285714 KVEEAAK 718 1//15 40//93 14.62 4.53571429 MKEEVPTALVEAHVR 704 //8 6//33 1.18375 1 MKEEVPTALVEAHVR 704 //8 5//33 1.0175 0.92857143 MKEEVPTALVEAHVR 704 //8 5//33 1.0045 0.92857143 KVEEAAKVTGK 718 3//15 28//113 7.56675 2.67857143 KVEEAAKVTGK 718 2//15 20//113 6.61525 2.10714286 KVEEAAKVTGK 718 2//15 25//113 7.16125 2.60714286 MKEEVPTALVEAHVR 704 2//8 9//41 1.23725 1.35714286 KVEEAAK 718 3//15 29//116 10.143 3.32142857 MKEEVPTALVEAHVR 704 1//8 9//41 1.39275 1.35714286 KVEEAAKVTGK 718 1//15 23//89 7.056 2.07142857 MKEEVPTALVEAHVR 704 //8 7//41 1.3595 1.07142857 KVEEAAKVTGK 718 2//15 20//89 5.2525 1.64285714 SDGDPIVDPEKEKEPK 825 2//17 9//94 1.9315 0.73333333 SDGDPIVDPEKEKEPK 823 //16 7//131 1.7425 0.625 SDGDPIVDPEKEK 823 1//14 9//116 1.449 0.55555556 ESEKSDGDPIVDPEKEK 823 //14 11//153 2.2835 0.66666667 ESEKSDGDPIVDPEKEK 823 1//14 11//153 2.19975 0.58333333 SDGDPIVDPEKEK 823 //14 12//116 1.32325 0.58333333 SDGDPIVDPEKEK 823 //14 11//116 2.9415 0.63888889 EPKEGQEEVLKEVVESEGER 828 //15 16//88 4.9215 1.5 EPKEGQEEVLKEVVESEGER 828 //18 12//130 2.623 0.61764706 EPKEGQEEVLKEVVESEGER 828 //18 13//130 2.171 0.5 ESEKSDGDPIVDPEKEK 823 //14 12//153 3.798 0.80555556 SDGDPIVDPEKEK 823 //14 12//116 3.302 0.69444444 EPKEGQEEVLKEVVESEGER 828 //15 13//88 3.358 0.96153846 SDGDPIVDPEKEK 823 //14 11//160 2.6785 0.71052632 EPKEGQEEVLKEVVESEGER 828 //15 7//88 1.22375 0.46153846 EPKEGQEEVLKEVVESEGER 828 //18 7//130 1.5435 0.41176471 EPKEGQEEVLKEVVESEGER 828 //15 8//88 1.4045 0.57692308 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 //16 7//102 0.939 0.5 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 //16 5//102 0.574 0.25 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 //16 7//102 1.0505 0.5 TVNTKKDSESAPVK 364 //4 17//175 3.846 0.72413793 TVNTKKDSESAPVK 364 //4 13//174 3.9 0.63793103 TSEAPKKDEEK 796 //8 5//38 0.9295 0.75 TSEAPKKDEEK 796 //8 5//38 0.31425 0.4375 TSEAPKKDEEK 796 //8 3//38 0.447 0.3125 TSEAPKKDEEK 796 //8 3//38 0.2075 0.3125 EGGGAIEEEAKEKTSEAPK 789 //6 4//29 0.703 0.9 EKTSEAPK 789 //6 5//26 1.06925 1.3 EKTSEAPK 789 //8 8//38 1.05675 1.07142857 EKTSEAPK 789 //8 6//38 0.8565 0.92857143 EKTSEAPK 789 //8 6//38 0.83225 0.71428571 EKTSEAPK 789 //8 5//38 0.8515 0.64285714 EKTSEAPK 789 //8 4//38 0.6585 0.57142857 KGPSTPYTK 318 //5 4//22 0.6495 0.9 AKHLAAVEER 874 //9 18//131 7.49675 1.20454546 AKHLAAVEER 874 //9 23//131 8.09375 1.5 KVEEAAK 718 //9 34//181 9.818 2 LLHSGMKILSQER 230 1//17 37//204 12.756 1.85416667 DRVENEAEKDLQCHAPVR 103 //17 11//112 2.211 0.7 KLIDQKK 521 2//7 7//23 1.66875 1.5 KLIDQKK 521 1//7 6//23 1.35425 1 KLIDQKK 521 //7 5//23 1.36325 0.9 NHKYR 1460 //8 8//38 2.9815 1.57142857 KPVDFK 1445 3//9 8//37 1.3335 1.41666667 KPVDFK 1445 2//6 7//26 1.88775 1.7 ILPKLR 1061 1//12 10//56 3.18475 1.38888889 NHKYR 1460 //6 4//26 2.0495 1.2 YKLNVDQK 1191 //17 29//92 8.23875 2.66666667 VIQAGMFDQKSSSHER 1207 //8 8//36 2.07475 1.375 VIQAGMFDQKSSSHER 1207 //8 7//45 2.7775 1.3125 YKLNVDQK 1191 //17 26//121 3.7485 1.66666667 YKLNVDQK 1191 //17 26//121 3.972 1.86666667 YKLNVDQK 1191 //17 18//121 2.71975 1.13333333 YKLNVDQK 1191 //17 16//92 2.79375 1 IKER 1453 1//9 16//34 4.6055 3.25 LHKVLR 940 //16 10//96 1.80725 0.53333333 GQPLPETLQLAVQGKR 209 //13 10//57 2.163 1.04545455 GQPLPETLQLAVQGKR 209 1//13 7//57 1.10725 0.5 LTCEEEEEKIFGR 1302 //11 20//114 7.88475 1.2631579 LTCEEEEEKIFGR 1302 //11 18//114 6.52375 1.15789474 LCTVNSVEEKILAAAK 1183 //8 9//36 2.31875 1.5625 LCTVNSVEEKILAAAK 1183 //8 6//36 1.34675 0.8125 GSLYKR 45 //8 4//30 1.10175 0.9 GSLYKR 45 //8 5//30 1.215 1 GSLYKR 45 //8 5//30 1.0195 1 YKAVSISTEPPTYLR 108 1//7 7//20 0.804 1.1 IVASSHGKK 70 //6 4//28 1.1515 1 KDGPKR 355 //9 17//50 3.908 2.375 KDGPK 355 //9 15//48 3.37 2.3125 KDGPK 355 //9 12//48 3.02675 1.75 SKDKAATPR 349 1//6 8//26 2.32925 2.1 SKDKAATPR 349 2//6 8//26 1.822 1.6 SKDKAATPR 349 //6 7//26 2.124 1.8 KDGPKR 355 //11 9//48 2.916 1.25 DKAATPR 349 3//7 9//30 1.65975 2.08333333 KDGPK 355 //11 12//51 2.83225 1.6875 DKAATPR 349 2//7 8//30 1.46175 1.58333333 KDGPKR 355 //11 10//48 2.9965 1.4375 DKAATPR 349 1//7 7//29 0.9415 0.91666667 KDGPKR 355 //11 10//48 2.0285 1.5625 SKDKAATPR 349 //7 7//32 0.926 1.16666667 SKDKAATPR 349 //6 4//26 1.23325 0.9 DKAATPR 349 //7 2//29 0.19375 0.16666667 SKDKAATPR 349 1//7 8//32 0.895 1.58333333 KDGPK 355 //11 6//47 1.183 0.625 SKDKAATPR 349 //7 3//32 0.29875 0.25 SKDKAATPR 349 //7 4//32 0.405 0.33333333 SKDKAATPR 349 //7 3//32 0.304 0.25 SKDKAATPR 349 1//7 5//32 0.3875 0.41666667 VEASKVPEYIK 195 //6 5//26 0.738 1.6 KAAKK 202 2//13 20//66 3.954 2.4 VEASKVPEYIK 195 //6 4//26 0.36325 0.9 KAAEFNSNLNR 206 //12 10//53 1.74925 1.27777778 VEASKVPEYIKK 201 //16 12//80 4.546 1.38461539 VEASKVPEYIKK 201 //16 12//102 3.428 0.92307692 KAAEFNSNLNR 206 5//12 16//54 3.22025 2 KDGPKR 355 //13 19//63 5.271 2.35 RSVLSKSVPGYK 365 //6 3//26 0.22075 0.5 SVLSKSVPGYKPK 365 //7 3//38 0.2215 0.41666667 VPEYIKKAAK 202 //11 24//136 9.23275 1.54545455 VPEYIKKAAK 202 //11 19//186 2.796 0.68181818 KYPDLERR 106 //17 27//87 11.45075 2.92857143 KYPDLER 106 //17 24//88 9.9065 2.42857143 SDEVIDLMIKEYPAK 152 //9 4//40 0.26125 0.375 SDEVIDLMIKEYPAK 152 //9 5//50 0.239 0.3125 SDEVIDLMIKEYPAK 152 1//9 5//50 0.32325 0.4375 KYPDLER 106 //17 23//88 8.07975 2.17857143 KYPDLER 106 //17 18//88 8.279 1.78571429 SDEVIDLMIKEYPAK 152 //9 2//40 0.15075 0.125 SDEVIDLMIKEYPAK 152 //9 4//40 0.25325 0.375 KYPDLER 106 //17 24//88 6.96325 2.28571429 KYPDLER 106 //17 22//88 6.28325 2.35714286 EYPAKHAEYSVILQEKER 157 //8 8//41 2.8595 1.71428571 RKYPDLER 157 //17 29//95 10.368 2.6 EYPAKHAEYSVILQEK 157 //9 8//40 0.99825 0.75 EYPAKHAEYSVILQEK 157 //9 8//40 0.9815 0.625 KYPDLER 106 //12 22//111 8.37475 1.76470588 EYPAKHAEYSVILQEK 157 //9 5//50 0.252 0.4375 EYPAKHAEYSVILQEK 157 //8 9//33 3.46425 1.78571429 EYPAKHAEYSVILQEK 157 //8 8//41 2.473 1.57142857 KYPDLER 106 //12 18//147 5.862 1.23529412 EYPAKHAEYSVILQEK 157 //9 3//50 0.22625 0.3125 EYPAKHAEYSVILQEK 157 //9 5//50 0.321 0.4375 EYPAKHAEYSVILQEKER 157 //8 6//33 2.0415 1.42857143 KYPDLER 106 //14 16//110 1.8365 0.79411765 EYPAKHAEYSVILQEK 157 //8 4//45 0.68375 0.375 EYPAKHAEYSVILQEK 157 //8 7//33 1.43275 1.07142857 EYPAKHAEYSVILQEK 157 //9 2//40 0.26525 0.125 KYPDLER 106 //17 14//97 1.302 0.66666667 KYPDLERR 106 1//9 8//43 0.689 0.92857143 KYPDLERR 106 //7 6//34 2.09625 1.21428571 YKVLPTER 241 1//16 34//134 14.45475 2.6 TKVSSYPVALIPGQFQEYYKR 249 2//8 10//45 1.8715 1.75 TKVSSYPVALIPGQFQEYYKR 249 //8 6//36 2.2925 1.25 TKVSSYPVALIPGQFQEYYK 249 //8 6//36 2.4105 1.25 SVLSKSVPGYK 365 2//8 6//28 0.534 0.83333333 KVGR 487 1//15 16//81 3.07575 1.375 KFLESTDSFNNELKR 258 //8 3//32 0.37625 0.41666667 KFLESTDSFNNELKR 258 1//8 5//32 0.4165 0.58333333 KFLESTDSFNNELKR 258 //8 2//32 0.14975 0.16666667 KFLESTDSFNNELKR 258 //8 3//32 0.31625 0.41666667 KFLESTDSFNNELKR 258 //8 3//32 0.347 0.41666667 LCGLKVEVDMEK 277 //16 13//81 3.64275 1.42307692 LCGLKVEVDMEK 277 //16 12//115 2.62525 1.03571429 LCGLKVEVDMEK 277 //16 14//115 2.657 0.85714286 LCGLKVEVDMEK 277 //16 9//81 2.7305 0.73076923 EKEAAEQAER 305 //14 10//156 2.50725 0.52631579 VTASSGITIPKPPK 61 //13 9//59 1.4425 1 VTASSGITIPKPPK 61 //13 7//59 0.3455 0.40909091 VTASSGITIPKPPK 61 1//13 6//59 0.502 0.36363636 VTASSGITIPKPPK 61 1//13 8//59 0.57175 0.45454546 VTASSGITIPKPPK 61 //13 6//59 0.459 0.27272727 VTASSGITIPKPPK 61 //13 3//59 0.17025 0.13636364 VTASSGITIPKPPK 61 //13 4//59 0.28 0.27272727 VTASSGITIPKPPK 61 //13 5//59 0.42225 0.22727273 VTASSGITIPKPPK 61 //13 5//59 0.64475 0.31818182 VTASSGITIPKPPK 61 //13 5//59 0.36875 0.22727273 VTASSGITIPKPPK 61 //13 5//59 0.2995 0.22727273 AKHLAAVEER 882 //16 24//91 9.05925 2.39285714 AKHLAAVEER 882 //16 24//117 8.241 2.42857143 ASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEK 750 //17 10//109 4.734 1 VREEVPLELVEAHVKK 739 //17 24//109 6.99525 2.13333333 VREEVPLELVEAHVKK 739 //17 19//109 5.94375 1.66666667 VASAAAKAALEEFSR 716 //17 13//95 2.4005 0.9 AKHLAAVEER 882 //17 17//86 6.284 1.78571429 AKHLAAVEER 882 //17 18//86 5.4315 1.71428571 VASAAAKAALEEFSR 716 //8 8//34 3.32225 1.78571429 VASAAAKAALEEFSR 716 //8 7//34 3.1845 1.71428571 VASAAAKAALEEFSR 716 //8 4//34 1.0745 0.85714286 KASANAR 317 //16 13//85 2.86175 1.19230769 ISTKNEEPVRSPER 303 //8 5//41 1.119 0.85714286 ISTKNEEPVRSPER 303 //8 6//33 0.95225 0.71428571 ISTKNEEPVR 303 //8 5//37 0.789 0.92857143 DRKASANAR 317 //16 8//83 1.7375 0.69230769 SKGASAGR 615 2//13 24//66 8.1105 3.45 KGQASLYGK 346 1//6 7//26 1.3415 1.8 KKSGK 341 //11 15//59 5.34275 2.1 KGQASLYGK 346 //6 4//26 1.1795 1.2 KKSGK 341 1//10 15//48 4.45525 2.05555556 KGQASLYGK 346 //6 4//26 0.993 0.9 KGQASLYGK 346 //6 3//26 0.988 0.8 KGQASLYGK 346 //6 5//26 1.1945 1.6 EKPVDLQNFGLR 592 //16 32//106 12.93825 2.82352941 EKPVDLQNFGLR 592 //16 32//106 11.23925 2.52941177 EKPVDLQNFGLR 592 //16 24//106 8.9175 1.79411765 SPQVPAAQQMLNFPEKNK 588 1//12 10//62 1.57425 0.70833333 EKPVDLQNFGLR 592 //16 21//140 6.141 1.52941177 EKPVDLQNFGLR 592 //14 26//105 6.7385 1.58823529 SPQVPAAQQMLNFPEKNK 588 //12 12//62 1.44375 1.08333333 SPQVPAAQQMLNFPEKNK 588 //12 9//62 0.91725 0.45833333 EKPVDLQNFGLR 592 //14 25//105 5.3145 1.32352941 SPQVPAAQQMLNFPEKNK 588 //12 9//62 1.429 0.83333333 SPQVPAAQQMLNFPEKNK 588 //12 6//62 0.543 0.25 KKSGK 342 1//10 15//48 4.54125 2.05555556 KKSGK 342 3//12 15//53 3.34075 2 KGQASLYGKR 354 //5 5//22 0.6185 0.5 KGQASLYGKR 354 //5 2//21 0.378 0.5 KGQASLYGKR 354 //5 4//22 0.493 0.4 RALPEFFNGKNK 478 //11 12//58 5.693 1.68181818 SKTPEIYLAYR 482 //13 6//59 0.42475 0.45454546 EKPVDLQNFGLR 592 //6 5//26 0.846 1.6 ASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEK 750 //8 6//40 1.8965 1.14285714 ASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEK 750 //8 6//32 1.468 1 KVQEAAR 740 2//8 11//36 3.30025 1.92857143 KVQEAAR 740 1//8 10//36 3.161 1.85714286 KVQEAAR 740 1//8 8//36 3.11875 1.57142857 KVQEAAR 740 1//8 8//36 3.057 1.57142857 TDIYSKK 608 //14 18//70 4.70575 1.90909091 TDIYSKK 608 3//8 11//28 1.02875 2.25 TDIYSKK 608 2//8 9//28 0.8595 1.25 SKGASAGR 615 1//13 22//66 7.43475 2.95 TDIYSKK 608 //8 9//38 2.8185 1.4375 SKGASAGR 615 3//9 10//34 2.20025 1.83333333 SKGASAGR 615 1//9 7//34 1.07575 0.91666667 MQKEITALAPSTMKIK 326 //17 27//183 8.84575 1.63636364 EITALAPSTMKIK 326 2//17 28//139 8.60175 1.68181818 EITALAPSTMKIK 326 //17 24//140 8.497 1.40909091 EITALAPSTMKIK 326 //17 23//140 9.0825 1.40909091 MQKEITALAPSTMKIK 326 //17 24//183 7.523 1.38636364 EITALAPSTMKIK 326 //17 22//139 7.85825 1.47727273 KDLYANTVLSGGTTMYPGIADR 291 //15 9//69 2.501 0.96153846 KDLYANTVLSGGTTMYPGIADR 291 //15 9//69 1.409 0.84615385 EITALAPSTMKIK 326 1//17 21//139 5.5475 1.02272727 EITALAPSTMKIK 326 //17 19//140 5.54125 1.06818182 EITALAPSTMKIKIIAPPER 326 //17 14//136 4.21775 0.70454546 EITALAPSTMKIK 326 //17 18//140 5.6555 0.90909091 IKIIAPPERK 328 //17 30//188 11.7845 1.88636364 IKIIAPPER 328 //17 31//190 10.20275 1.93181818 IKIIAPPER 328 2//17 29//143 10.39975 1.81818182 IKIIAPPER 328 1//17 34//143 8.963 2.02272727 IKIIAPPERK 328 1//17 27//141 9.0215 1.63636364 IKIIAPPERK 328 1//17 26//141 8.10675 1.61363636 IKIIAPPERK 328 1//17 27//188 8.88375 1.72727273 IKIIAPPER 328 //17 30//190 7.96 1.79545455 IKIIAPPER 328 //17 27//143 7.35275 1.79545455 IKIIAPPERK 328 //17 20//188 8.13375 1.34090909 IKIIAPPER 328 //17 14//143 4.94425 0.84090909 IKIIAPPER 328 //17 14//143 5.1445 0.79545455 IKIIAPPER 328 //17 18//190 4.0275 0.95454546 IKIIAPPER 328 //17 14//144 3.139 0.61363636 DLTDYLMKILTER 191 //14 17//167 2.31675 0.625 KCF 373 7//14 57//132 16.39325 4.25 KCF 373 4//14 47//132 13.21575 3 KCF 373 5//14 43//132 12.45525 2.7 KCF 373 5//14 46//132 12.25375 3.075 KCF 373 1//14 32//132 8.32925 1.825 VAPEEHPVLLTEAPLNPKANR 113 //14 8//62 1.72775 0.875 IKIIAPPER 328 1//16 16//82 3.20425 1.5 EITALAPSTMKIKIIAPPER 326 2//12 17//107 5.223 1.19444444 EPIDLKTIAQR 231 //8 13//131 3.65525 0.65909091 AAKVAEQQER 1434 //15 19//74 6.24375 2.04166667 NLETAKKAEYEER 1424 //12 13//48 5.30225 1.6 NLETAKKAEYEER 1424 //12 13//60 3.2775 1.15 NLETAKKAEYEER 1424 //12 11//60 2.765 1.05 AAKVAEQQER 1434 3//9 11//34 1.09875 1.57142857 NLETAKKAEYEER 1424 //12 12//48 4.2815 1.25 AAKVAEQQERER 1434 //9 9//32 3.46475 1.57142857 AAKVAEQQERER 1434 //9 9//32 3.11925 1.57142857 NNQGQLIAEPFYHLPSKK 414 //11 11//56 3.6955 1.8 NNQGQLIAEPFYHLPSKK 414 //12 24//143 5.134 1.44444444 NNQGQLIAEPFYHLPSKK 414 //12 22//143 4.65975 1.5 KINMSGYILFSSEMR 1380 //17 11//128 1.72725 0.625 KINMSGYILFSSEMR 1380 //17 20//128 3.183 1.28125 KINMSGYILFSSEMR 1380 //17 14//128 2.84375 1.1875 KINMSGYILFSSEMR 1380 //17 15//128 2.5755 0.9375 EIEEDKLKR 918 //7 6//40 1.903 1.41666667 EIEEDKLKR 918 //7 6//40 1.95425 1.41666667 EIEEDKLKR 918 //7 6//33 1.33675 1.41666667 EIEEDKLKR 918 //7 8//33 1.804 1.66666667 EIEEDKLKR 918 //7 6//40 1.49575 1.41666667 EIEEDKLKR 918 //7 6//33 0.77775 1.08333333 EIEEDKLKR 918 //7 6//33 0.918 1 LNEVYEAVKNYTDKR 670 //5 4//25 1.06125 0.9 LKLSR 640 //13 11//80 2.31425 1.5 LKLSR 640 //13 11//65 2.11825 1.3 RKELGPLPDDDDMASPK 623 //7 3//25 0.3405 0.5 RKELGPLPDDDDMASPK 623 //7 3//25 0.35375 0.5 LLKEKR 619 1//17 23//105 7.09275 1.71875 RKELGPLPDDDDMASPK 623 //7 3//25 0.2205 0.5 KSGISPK 644 //12 16//70 4.0145 1.81818182 KSGISPKK 644 1//10 9//55 2.019 1.05555556 KSGISPK 644 //13 8//64 1.007 0.6 KELAR 485 //14 26//72 8.86225 3.36363636 KELAR 485 //11 15//47 5.045 2.375 KELAR 485 //11 13//47 3.3 2.125 RDDIEDGDSMISSATSDTGSAKR 511 //6 4//30 0.3725 0.5 RDDIEDGDSMISSATSDTGSAKR 511 //6 2//29 0.222 0.2 RDDIEDGDSMISSATSDTGSAKR 511 //6 2//29 0.2325 0.2 KKELAR 485 //8 7//34 2.3325 1.5 KPIVPQKEPSPLLEK 1293 //5 6//25 1.31225 1.4 LKLSR 640 //16 17//120 4.96775 1.33333333 KPIVPQKEPSPLLEK 1293 2//9 14//49 4.12475 2.1875 KPIVPQKEPSPLLEK 1293 //9 11//40 3.49375 1.9375 NQPDYYEVVSQPIDLMKIQQK 96 //7 2//25 0.085 0.2 NQPDYYEVVSQPIDLMKIQQK 96 //7 2//20 0.08575 0.2 EIEEDKLKR 920 //5 3//23 0.9905 0.8 EIEEDKLKR 920 //5 3//23 0.922 0.8 RYNVPNSAIYKR 471 //13 21//58 8.366 2.77272727 VLKLQQVMQAK 475 2//13 20//57 7.794 2.75 VLKLQQVMQAK 475 5//14 30//81 7.17625 3.18181818 VLKLQQVMQAK 475 2//14 16//65 2.50475 1.72727273 YNVPNSAIYKR 471 //14 17//68 6.011 2.40909091 RYNVPNSAIYKR 471 //13 11//73 3.66775 1.40909091 VLKLQQVMQAK 475 2//13 17//57 6.168 2.2 VLKLQQVMQAK 475 3//14 23//81 5.57425 2.5 VLKLQQVMQAK 475 3//14 12//65 1.86775 1.27272727 YNVPNSAIYKR 471 //13 12//59 2.66175 1.54545455 RYNVPNSAIYKR 471 //13 18//58 6.401 2.04545455 VLKLQQVMQAK 475 3//13 16//57 4.05875 1.9 RYNVPNSAIYKR 471 //13 10//73 3.945 1.36363636 VLKLQQVMQAK 475 2//14 20//81 4.16375 1.90909091 RYNVPNSAIYKR 471 //13 11//73 3.8945 1.40909091 YNVPNSAIYKR 471 //14 14//68 4.67975 1.77272727 YNVPNSAIYKR 471 //13 12//59 3.527 1.54545455 YNVPNSAIYKR 471 //14 16//68 5.002 1.86363636 RYNVPNSAIYKR 471 //13 16//58 5.35325 1.72727273 VLKLQQVMQAK 475 //13 12//57 3.76375 1.5 VLKLQQVMQAK 475 2//13 14//57 3.51775 1.65 VLKLQQVMQAK 475 4//14 16//81 3.264 1.63636364 RYNVPNSAIYKR 471 //13 10//73 3.4685 1.36363636 VLKLQQVMQAK 475 //13 13//57 3.63125 1.2 YNVPNSAIYKR 471 //14 17//68 4.88075 2.27272727 YNVPNSAIYKR 471 //14 13//68 4.2835 1.72727273 VLKLQQVMQAK 475 3//14 22//81 3.4725 1.72727273 RYNVPNSAIYKR 471 //13 10//73 3.63875 1.36363636 YNVPNSAIYKR 471 //13 12//59 3.43275 1.54545455 YNVPNSAIYKR 471 //13 12//59 3.425 1.54545455 VLKLQQVMQAK 475 //13 11//57 3.31375 1.1 VLKLQQVMQAK 475 //13 7//57 1.71575 0.65 VLKLQQVMQAK 475 //13 9//57 1.99325 0.9 VLKLQQVMQAK 475 //13 8//57 2.13925 0.85 VLKLQQVMQAK 475 //13 9//57 2.0485 0.95 VLKLQQVMQAK 475 //13 9//57 2.72625 0.95 VLKLQQVMQAK 475 //13 10//57 2.28425 1.1 VLKLQQVMQAK 475 1//13 7//57 1.15825 0.55 YNVPNSAIYKR 471 //13 10//59 2.564 1.13636364 YNVPNSAIYKR 471 //13 7//59 0.5995 0.5 YSAKTK 1066 //20 30//156 12.06025 2.55555556 EAEKSEDSSGAAGLSGLHR 930 1//8 6//24 0.716 0.83333333 EAEKSEDSSGAAGLSGLHR 930 //8 5//24 0.91075 0.75 EKLPK 909 //13 10//85 1.90125 1.1 HLHNDVEKER 904 //7 5//39 1.236 1.33333333 FKGLKR 1272 3//12 17//68 3.523 2.16666667 FKGLKR 1272 //12 16//56 2.736 1.83333333 YNESDKQMKK 1269 //6 4//34 0.752 1 YNESDKQMKK 1269 //5 5//22 0.661 1 YNESDKQMKK 1269 //6 3//34 0.407 0.41666667 FKGLKR 1272 //12 11//56 1.9355 1.11111111 FKGLKR 1272 //12 10//68 1.98525 1.16666667 YNESDKQMKK 1269 //6 3//34 0.54875 0.41666667 FKGLKR 1272 //12 11//68 1.713 1.11111111 FKGLKR 1272 1//12 10//68 1.413 0.94444444 FKGLKR 1272 //12 11//68 1.47875 1.11111111 FKGLKR 1272 //12 9//68 1.49275 0.88888889 FKGLKR 1272 //12 7//68 1.1615 0.77777778 FKGLKR 1272 //12 8//68 1.329 0.83333333 YNESDKQMKK 1269 //6 2//28 0.2485 0.16666667 YNESDKQMKK 1269 //6 3//34 0.46575 0.41666667 FKGLKR 1272 //12 8//68 1.2635 0.83333333 YNESDKQMKK 1269 //6 2//28 0.2395 0.16666667 YNESDKQMKK 1269 //6 4//28 0.43025 0.33333333 YNESDKQMKK 1269 //5 5//22 0.31175 0.5 YNESDKQMKK 1269 //6 3//34 0.50975 0.41666667 YNESDKQMKK 1269 //6 3//34 0.45975 0.41666667 YNESDKQMKK 1269 //6 3//34 0.44575 0.41666667 NPTSKYYR 329 //6 5//28 1.0395 1.08333333 NPTSKYYR 329 //6 5//28 1.007 1.08333333 LKLSR 640 1//10 16//44 3.1585 2.42857143 NPTSKYYR 329 //7 3//32 0.46425 0.41666667 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 17//65 3.67675 1.91666667 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 18//65 3.54575 1.95833333 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 12//65 1.7965 0.875 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 15//84 3.087 1.5 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 15//84 2.767 1.375 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 9//65 1.70875 0.625 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 10//84 1.80575 0.95833333 VQYPDYYAIIKEPIDLKTIAQR 231 //14 12//84 2.055 1 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 11//65 1.36275 0.625 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 12//65 2.1195 0.91666667 LISELFQKLPSK 210 1//13 8//57 2.01025 0.86363636 VQYPDYYAIIKEPIDLKTIAQR 231 //14 4//65 0.639 0.25 LISELFQKLPSK 210 //11 13//177 2.366 0.71428571 VQYPDYYAIIKEPIDLKTIAQR 231 //14 7//84 0.8105 0.375 VQYPDYYAIIKEPIDLKTIAQR 231 //14 7//84 1.263 0.625 LISELFQKLPSK 210 //10 13//124 2.03275 0.66666667 AAKVAEQQER 1434 //13 9//61 1.64175 1.15 AAKVAEQQER 1434 //6 4//28 0.60125 0.5 LKLSR 640 3//8 14//28 3.72025 3.3 KELGPLPDDDDMASPK 623 //5 3//20 0.795 0.8 KELGPLPDDDDMASPKLK 623 //20 29//147 8.9625 2.13157895 EAEKSEDSSGAAGLSGLHR 930 1//14 16//116 4.88625 1.32142857 EAEKSEDSSGAAGLSGLHR 930 //14 16//116 4.32825 1.17857143 REAEKSEDSSGAAGLSGLHR 930 //16 7//114 2.239 0.6 IFYMKK 283 //16 9//83 2.42775 0.76923077 KFKGLK 1272 //11 11//51 2.70075 1.3125 FKGLKR 1272 //12 7//74 1.0765 0.66666667 FKGLKR 1272 //12 6//74 1.04175 0.61111111 KFK 1270 //11 9//51 2.2505 1.3125 KFK 1270 //11 7//51 2.06025 1.0625 KIQLLEAK 1308 //11 10//51 1.54875 1.1875 KKELAR 484 //17 21//196 6.989 1.11363636 KKELAR 484 //8 7//34 2.3195 1.5 EAEKSEDSSGAAGLSGLHR 930 //16 5//114 1.1295 0.33333333 EAEKSEDSSGAAGLSGLHR 930 //16 4//114 0.67825 0.2 AAKVAEQQER 1434 1//8 8//38 2.1535 1.28571429 AAKVAEQQERER 1434 //8 10//36 4.551 2 KAEYEER 1425 //14 8//84 2.42975 0.81818182 AAKVAEQQER 1434 //8 6//38 1.219 0.92857143 AAKVAEQQERER 1434 //8 6//44 1.57425 0.92857143 SAKGSAK 1369 //17 19//105 5.48275 1.25 SAKGSAK 1369 //7 5//29 1.425 0.83333333 EEEKR 925 //19 34//117 11.12275 2.88235294 EAEKSEDSSGAAGLSGLHR 930 //8 3//31 0.2325 0.41666667 EAEKSEDSSGAAGLSGLHR 930 //8 2//31 0.1525 0.16666667 EAEKSEDSSGAAGLSGLHR 930 //8 2//31 0.14425 0.16666667 EAEKSEDSSGAAGLSGLHR 930 //8 3//31 0.2495 0.41666667 EAEKSEDSSGAAGLSGLHR 930 1//7 5//20 0.5735 0.7 EAEKSEDSSGAAGLSGLHR 930 //7 4//20 0.4265 0.4 EAEKSEDSSGAAGLSGLHR 930 //8 2//31 0.14575 0.16666667 RDDIEDGDSMISSATSDTGSAKR 511 //5 4//25 0.89125 0.9 RDDIEDGDSMISSATSDTGSAKR 511 //5 //20 0 0 RDDIEDGDSMISSATSDTGSAKR 511 //5 3//23 0.437 1 DVHLSKEQESR 1642 //14 27//104 9.11025 2.76923077 DVHLSKEQESR 1642 //14 12//82 1.79625 0.88461539 DVHLSKEQESR 1642 //11 11//56 3.3285 1.44444444 LTGPSHSKGSLGEER 317 //6 5//31 1.363 1.3 YNVPNSAIYKR 471 //17 13//107 2.16325 0.96428571 LTGPSHSKGSLGEER 317 //10 10//38 4.458 1.75 NPTSKYYR 329 //17 15//83 4.597 1.17857143 NPTSKYYR 329 //17 17//108 4.8435 1.35714286 LTGPSHSKGSLGEER 317 //10 7//47 1.34925 0.875 LTGPSHSKGSLGEER 317 //10 10//38 3.8135 1.75 LTGPSHSKGSLGEER 317 //10 9//47 1.715 1.1875 NPTSKYYR 329 //17 13//83 1.65425 0.67857143 LTGPSHSKGSLGEER 317 //10 5//47 1.377 0.625 NPTSKYYR 329 //17 11//83 3.33075 0.96428571 NPTSKYYR 329 //17 15//108 3.3255 1 NPTSKYYR 329 //17 12//83 2.16375 0.89285714 NPTSKYYR 329 //17 16//108 2.22 1.07142857 VLKLQQVMQAK 475 //17 18//107 2.7745 1.21428571 LTGPSHSKGSLGEER 317 //13 5//72 0.6625 0.45454546 LKLSR 640 //17 15//91 3.02325 1.07142857 VLKLQQVMQAK 475 1//5 4//23 0.88925 0.9 VLKLQQVMQAK 475 //7 4//32 0.57 0.75 KKELAR 484 //13 11//80 2.623 1.4 KSGISPK 644 //13 11//64 3.034 1.55 VLKLQQVMQAK 475 1//17 30//144 11.936 1.84090909 VLKLQQVMQAK 475 2//17 34//192 9.9425 2.11363636 VLKLQQVMQAK 475 1//17 27//144 10.71 1.52272727 VLKLQQVMQAK 475 1//17 27//192 6.94625 1.56818182 VLKLQQVMQAK 475 //17 19//192 5.003 0.93181818 KELAR 485 //14 22//73 9.55875 3 KELAR 485 //14 21//73 5.18825 2.31818182 VLKLQQVMQAK 475 1//6 7//28 0.8245 1.5 KKELAR 475 //13 16//63 4.06675 1.9 KKELAR 485 //13 14//63 3.6385 1.7 RVLKLQQVMQAK 475 //6 6//26 1.47375 1.16666667 VLKLQQVMQAK 475 //6 5//28 0.355 0.58333333 AVIKAQHPDYSFGELSR 1398 //17 29//128 9.70425 2.08823529 AVIKAQHPDYSFGELSR 1398 //17 20//98 7.0565 1.625 AVIKAQHPDYSFGELSR 1398 //17 26//128 6.57625 1.73529412 AVIKAQHPDYSFGELSR 1398 //17 19//128 6.2365 1.47058824 AVIKAQHPDYSFGELSR 1398 //13 8//73 1.6125 0.95454546 NLETAKK 1424 //17 23//104 7.9625 2.09375 AVIKAQHPDYSFGELSR 1398 1//9 8//36 0.637 0.92857143 AVIKAQHPDYSFGELSR 1398 2//12 12//59 4.20025 1.65 AVIKAQHPDYSFGELSR 1398 //12 10//59 3.06925 1.35 AVIKAQHPDYSFGELSR 1398 //12 9//47 2.81875 1.1 AVIKAQHPDYSFGELSR 1398 1//8 5//41 1.004 0.71428571 AVIKAQHPDYSFGELSR 1398 //8 9//33 1.85775 1.57142857 LCDLFMVKPSKK 549 //15 17//92 5.1205 1.23333333 LCDLFMVKPSK 549 //13 16//95 5.054 1.15625 KDYPDYYK 553 2//13 26//60 9.74275 3.85 KDYPDYYK 553 1//13 22//60 7.29 2.8 LCDLFMVKPSK 549 2//9 13//45 4.63375 2.3125 LCDLFMVKPSK 549 2//9 13//45 4.54425 2.3125 KDYPDYYK 553 1//13 20//60 7.51975 2.65 KDYPDYYK 553 //13 16//60 7.12375 2.3 KDYPDYYK 553 //13 19//60 8.1015 2.85 LCDLFMVKPSK 549 //9 4//45 0.67725 0.5625 KDYPDYYK 553 //14 18//68 4.42025 1.72727273 KDYPDYYK 553 //13 16//60 4.7325 1.8 LCDLFMVKPSK 549 1//9 12//45 2.35025 2 LCDLFMVKPSK 549 //9 8//45 1.05975 1.375 KDYPDYYK 553 //14 10//86 1.61725 0.68181818 KIQLLEAK 1308 2//16 20//86 4.463 1.28571429 KIQLLEAK 1308 1//16 19//86 3.44425 1.25 LDGTTKAEDR 1131 //15 16//74 4.89575 1.5 KRDSDAGSSTPTTSTR 1414 //12 10//49 3.9025 1.45 VSYKGSPAAR 835 1//8 11//41 2.842 1.6875 VSYKGSPAAR 835 //8 6//41 1.546 0.8125 DTALETALNAKAYKR 437 //16 15//87 4.5355 1.53571429 DTALETALNAKAYKR 437 //16 16//87 3.792 1.67857143 DTALETALNAKAYKR 437 //16 13//114 2.87025 0.96428571 DTALETALNAKAYKR 437 //16 11//114 2.306 1 VKIKLGR 1598 //8 13//42 4.1495 2.64285714 VKIKLGR 1598 1//8 12//42 3.3835 2.14285714 VKIKLGR 1598 //8 7//41 2.1635 1.28571429 IKLGR 1598 1//8 11//40 3.019 1.78571429 IKLGR 1598 //8 11//40 2.807 1.78571429 IKLGR 1598 //8 7//35 2.43475 1.5 KEKAQDR 1602 //5 6//22 1.963 1.4 IKLGR 1598 1//8 8//40 1.9295 1.57142857 KEKAQDR 1602 //5 6//22 1.558 1.1 KEKAQDR 1602 //5 5//22 1.52425 1 KEKAQDR 1604 //9 14//37 3.8815 2.5 EKAQDR 1604 //6 4//27 0.7275 1 EKAQDR 1604 //6 3//27 0.39175 0.41666667 LKGGR 1610 //8 11//39 2.94975 1.92857143 LKGGR 1610 //8 11//39 2.87625 1.92857143 ITEKLEK 455 1//8 9//45 1.2745 1.42857143 KELPEYYELIR 1492 1//17 10//99 1.243 0.625 LKGGR 1610 1//7 11//34 3.5965 2.16666667 VKIK 1596 //8 11//38 3.47375 2.07142857 SVKVKIK 1596 //8 6//42 2.525 1.42857143 VKIK 1596 //8 9//38 2.30675 1.64285714 VIHVESGKILTGTDAPK 626 1//16 21//132 5.6515 1.25 KKIPDPDSDDVSEVDAR 689 //19 12//129 2.25125 0.70588235 LTCEEEEEKMFGR 1365 //11 29//114 12.44 2.21052632 LTCEEEEEKMFGR 1365 //11 27//114 11.145 1.89473684 LTCEEEEEKMFGR 1365 //11 19//114 8.663 1.42105263 LTCEEEEEKMFGR 1365 //11 20//114 7.41325 1.31578947 HIIENAKQDVDDEYGVSQALAR 711 //16 11//132 1.9745 0.55882353 VSYKGSPAAR 835 //10 16//173 2.25775 0.54761905 KELPEYYELIR 1492 //12 10//47 1.85525 1.3 KEKAQDR 1602 //12 16//69 4.93325 1.90909091 SVTGKIQK 496 //16 15//85 3.71475 1.26923077 KEKLPQVTR 240 //12 38//190 13.912 2.56818182 ELFQEMNIELVPPYMIASKEAVR 226 //10 7//57 0.97775 0.61111111 ELFQEMNIELVPPYMIASKEAVR 226 //10 6//57 0.65625 0.44444444 KEKLPQVTR 240 //12 26//138 8.68725 1.52272727 QEYEEGGKQCVER 421 //14 21//120 4.058 1.07894737 QEYEEGGKQCVER 421 //14 20//120 3.8865 1.31578947 QEYEEGGKQCVER 421 //14 17//120 3.50125 1 QEYEEGGKQCVER 421 //14 17//120 2.896 0.84210526 QEYEEGGKQCVER 421 //14 15//120 2.03875 0.55263158 EKLTELMFEHYNIPAFFLCK 135 1//15 9//71 3.645 0.96153846 EKLTELMFEHYNIPAFFLCK 135 //15 9//71 2.881 0.92307692 EGSPANWKR 238 //10 14//53 4.6055 2.27777778 KEKLPQVTR 240 4//11 22//56 5.5885 3.05555556 KEKLPQVTR 240 2//11 18//46 6.19975 2.61111111 EGSPANWKR 238 //10 16//53 4.3795 2.38888889 EGSPANWKR 238 //10 11//53 3.95075 1.83333333 EGSPANWKR 238 //10 10//64 5.052 1.77777778 EGSPANWKR 238 //10 11//63 4.2 1.66666667 KEKLPQVTR 240 2//11 15//46 4.6965 2 KEKLPQVTR 240 3//11 19//56 3.78975 2.77777778 EGSPANWKR 238 //10 12//63 4.4205 1.88888889 EGSPANWKR 238 //10 8//64 3.79275 1.38888889 EGSPANWKR 238 //10 13//63 5.136 2.11111111 EGSPANWKR 238 //10 12//63 4.86775 1.88888889 EGSPANWKR 238 //10 10//53 2.7335 1.61111111 EGSPANWKR 238 //10 8//52 2.56525 1.38888889 EGSPANWKR 238 //10 7//53 1.464 0.94444444 EAVREGSPANWKR 238 //10 8//59 3.47275 1.38888889 EAVREGSPANWKR 238 //10 9//59 1.73525 1.22222222 EGSPANWKR 238 //10 10//52 3.481 1.66666667 EAVREGSPANWKR 238 //10 8//59 1.47425 0.77777778 KEKLPQVTR 240 1//15 17//92 2.76575 1.16666667 EGSPANWKR 238 //10 8//53 2.006 1.33333333 EAVREGSPANWKR 238 //10 5//59 1.32325 0.72222222 KEKLPQVTR 242 1//11 16//46 5.216 2.16666667 EGSPANWKR 238 //11 9//47 2.13275 1.5625 EGSPANWKR 238 //11 8//47 2.1695 1.375 EGSPANWKR 238 //11 8//57 3.5075 1.5 EAVREGSPANWKR 238 //11 6//52 1.345 0.88888889 EGSPANWKR 238 //11 8//57 3.1255 1.5 EAVREGSPANWKR 238 //11 6//52 1.2635 0.72222222 EGSPANWKR 238 //11 7//47 1.272 1.25 EGSPANWKR 238 //11 7//46 1.8445 1.25 AKDDIKK 15 //11 11//49 3.481 1.75 AKDDIK 15 2//9 13//43 2.408 1.5625 SRAKDDIK 15 1//9 12//44 1.46425 1.125 VMAAIEKVR 27 //13 15//62 5.5255 2.25 IYKWVPVTEPK 47 6//11 21//43 5.94325 3.05555556 IYKWVPVTEPK 47 4//11 15//43 3.8905 2.11111111 KWEK 30 5//11 21//48 7.25375 3.9375 KWEKK 30 3//11 18//49 6.805 3.0625 VMAAIEKVR 27 //5 4//21 1.32 1.5 VMAAIEKVR 27 //9 4//35 0.353 0.42857143 AKDDIKR 19 1//11 13//59 3.32875 1.875 AKDDIKR 15 6//11 27//49 10.0485 5.1875 AKDDIKR 15 4//11 24//49 9.53775 4.4375 AKDDIKR 15 4//11 24//49 9.235 4.4375 VMAAIEKVR 27 //7 5//41 2.6805 1.14285714 AKDDIKR 15 5//11 24//49 6.41575 4.25 VMAAIEKVR 27 1//7 6//34 1.719 1.21428571 VMAAIEKVR 27 1//7 5//34 0.784 0.64285714 AKDDIKR 15 1//11 14//59 4.50725 2.125 VMAAIEKVR 27 1//7 5//34 0.73475 0.71428571 IYKWVPVTEPK 47 3//12 18//61 6.4035 2 TVFPNHTVKR 581 //14 10//64 2.732 1.45454546 TVFPNHTVKR 581 //14 12//64 3.17675 1.40909091 RKGLAFLDELR 15 1//8 8//29 1.66425 1.25 DALLAGLKQDEPGQAGSQK 1701 //18 11//88 2.625 0.78125 DALLAGLKQDEPGQAGSQK 1701 //18 9//88 1.65575 0.5 SSTKQPTVGGTSSTPR 1716 //18 25//127 6.09225 2.21875 AQKAIVNHPSAALMALR 1731 1//18 16//112 4.5485 1.125 SSTKQPTVGGTSSTPR 1716 //18 14//98 2.88625 1.125 AQKAIVNHPSAALMALR 1731 //18 14//112 3.79425 0.96875 AQKAIVNHPSAALMALR 1731 //18 14//88 3.4665 0.96875 LLDDPSKQKR 244 //8 8//38 1.74825 1.21428571 LLDDPSKQKR 244 //8 6//46 1.95775 0.92857143 LLDDPSKQKR 244 //8 5//46 1.747 0.85714286 KFSSFFK 246 //12 19//57 7.3235 3.05555556 LLDDPSKQKR 246 //8 6//40 0.91975 1.0625 VEGKLLDDPSK 237 1//8 9//38 2.519 1.85714286 VEGKLLDDPSK 237 2//8 8//38 2.0355 1.71428571 KLDQTIAR 168 //11 7//60 1.13925 0.65 KMADKVLPQR 143 //16 13//87 2.99825 0.92857143 MEIQEAIKK 185 //8 1//29 0.11375 0.08333333 MEIQEAIKK 185 //8 2//29 0.09425 0.16666667 KFSSFFK 232 //10 14//44 4.45575 2.21428571 IFISNTFNPAKSDAEDGEGTVASWELR 194 //13 12//159 1.36325 0.38095238 KRPAPQQIQQVQQQAVQNR 101 //11 9//57 1.88375 1.05555556 KRPAPQQIQQVQQQAVQNR 101 //11 3//57 0.46675 0.27777778 KLDQTIMR 156 //16 39//124 19.94375 3.28947368 KRPAPQQIQQVQQQAVQNR 101 //9 6//50 0.8435 0.8125 LDIQEALKR 173 //7 3//23 0.15375 0.5 RLDIQEALKR 173 //7 3//23 0.159 0.5 YFYSKVQQR 498 //17 17//97 4.40875 1.3 KLDQTIMR 156 1//11 12//47 2.3315 1.75 peptide2 protein2 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 K.TPQQTSASQQMLNFPDK[1682.83]GK.E Q8TAQ2:564 K.TPQQTSASQQMLNFPDK[1682.89]GK.E Q8TAQ2:564 K.TPQQTSASQQMLNFPDK[1700.81]GK.E Q8TAQ2:564 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 K.EK[2371.18]PTDMQNFGLR.T Q8TAQ2:568 K.TPQQTSASQQM[147.04]LNFPDK[1127.63]GK.E Q8TAQ2:564 K.TPQQTSASQQM[147.04]LNFPDK[1127.62]GK.E Q8TAQ2:564 R.TDMYTK[1127.61]K[284.17]NVPSK.S Q8TAQ2:584 R.TDMYTK[1127.63]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.65]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.63]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.63]K[284.17]NVPSK.S Q8TAQ2:584 K.SK[1151.59]AAASATR.E Q8TAQ2:592 R.TDM[147.04]YTK[1127.64]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.63]K.N Q8TAQ2:584 R.TDM[147.04]YTK[1127.64]K[284.17]NVPSK.S Q8TAQ2:584 R.TDM[147.04]YTK[1127.63]K.N Q8TAQ2:584 R.TDMYTK[1127.61]K.N Q8TAQ2:584 K.SK[1151.59]AAASATR.E Q8TAQ2:592 K.EK[1369.71]TSEAPK.K Q8TAQ2:789 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 R.VEGQATDEK[1002.54]K.E Q8TAQ2:769 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 R.VEGQATDEK[1002.55]K.E Q8TAQ2:769 R.VEGQATDEK[1020.57]K.E Q8TAQ2:769 K.EPK[1369.71]EPR.E Q8TAQ2:773 R.VEGQATDEK[1020.58]K.E Q8TAQ2:769 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EGQEEVLK[1181.71]EVVESEGER.K Q8TAQ2:836 R.K[2211.09]TKVER.D Q8TAQ2:846 R.K[2211.09]TKVER.D Q8TAQ2:846 K.EGQEEVLK[1181.7]EVVESEGER.K Q8TAQ2:836 R.K[2211.09]TKVER.D Q8TAQ2:846 R.K[2211.09]TKVER.D Q8TAQ2:846 K.EGQEEVLK[1181.7]EVVESEGER.K Q8TAQ2:836 R.KTK[2211.09]VER.D Q8TAQ2:848 K.E[111.03]GQEEVLK[1025.61]EVVESEGER.K Q8TAQ2:836 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 K.EGQEEVLK[1025.61]EVVESEGER.K Q8TAQ2:836 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 K.TK[2211.09]VER.D Q8TAQ2:848 K.E[111.03]GQEEVLK[1025.63]EVVESEGER.K Q8TAQ2:836 K.E[111.03]GQEEVLK[1025.64]EVVESEGER.K Q8TAQ2:836 R.KTK[2211.09]VER.D Q8TAQ2:848 K.E[111.03]GQEEVLK[1025.63]EVVESEGER.K Q8TAQ2:836 R.KTK[2211.09]VER.D Q8TAQ2:848 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 K.M[147.04]K[1773.92]EEVPTALVEAHVR.K Q8TAQ2:704 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 K.M[147.04]K[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 K.MK[1773.94]EEVPTALVEAHVR.K Q8TAQ2:704 K.MK[1773.96]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.96]EEVPTALVEAHVR.K Q8TAQ2:704 K.MK[1773.94]EEVPTALVEAHVR.K Q8TAQ2:704 K.MK[1773.99]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.96]EEVPTALVEAHVR.K Q8TAQ2:704 R.VASAAAK[1974.06]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2763.51]SALEEFSK.M Q8TAQ2:694 R.K[1773.95]VEEAAK.V Q8TAQ2:718 R.K[1773.95]VEEAAK.V Q8TAQ2:718 R.K[1773.95]VEEAAK.V Q8TAQ2:718 R.K[1773.95]TKVER.D Q8TAQ2:846 R.K[1773.95]TKVER.D Q8TAQ2:846 R.VASAAAK[1181.7]SALEEFSK.M Q8TAQ2:694 R.K[1388.78]VEEAAK.V Q8TAQ2:718 R.K[1388.78]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[1039.59]TKVER.D Q8TAQ2:846 R.K[1039.59]TKVER.D Q8TAQ2:846 R.KTK[1039.59]VER.D Q8TAQ2:848 R.KTK[1039.59]VER.D Q8TAQ2:848 K.E[111.03]EVPTALVEAHVRK[1025.63]VEEAAK.V Q8TAQ2:718 K.TK[1388.78]VER.D Q8TAQ2:848 R.K[1127.63]VEEAAK.V Q8TAQ2:718 R.K[1127.63]VEEAAK.V Q8TAQ2:718 K.SK[1974.06]AAASATR.E Q8TAQ2:592 K.SK[1974.06]AAASATR.E Q8TAQ2:592 K.TSEAPKK[1611.8]DEEK.G Q8TAQ2:796 K.TSEAPKK[1611.8]DEEK.G Q8TAQ2:796 K.TSEAPKK[1611.8]DEEK.G Q8TAQ2:796 K.TSEAPKK[1611.8]DEEK.G Q8TAQ2:796 K.K[1611.8]DEEK.G Q8TAQ2:796 R.EGGGAIEEEAK[1526.77]EK.T Q8TAQ2:787 K.TSEAPKK[1611.8]DEEK.G Q8TAQ2:796 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 R.EGGGAIEEEAK[1098.6]EKTSEAPK.K Q8TAQ2:787 K.TSEAPK[1611.8]KDEEK.G Q8TAQ2:795 R.K[284.17]VEEAAK[897.52]VTGK.A Q8TAQ2:724 R.K[284.17]VEEAAK[897.52]VTGK.A Q8TAQ2:724 K.TK[1424.82]VER.D Q8TAQ2:848 K.TK[1424.82]VER.D Q8TAQ2:848 R.K[284.17]VEEAAK[1025.62]VTGK.A Q8TAQ2:724 K.M[147.04]K[937.56]EEVPTALVEAHVR.K Q8TAQ2:704 R.TDMYTK[284.17]K[1127.62]NVPSK.S Q8TAQ2:585 R.TDMYTK[284.17]K[1127.65]NVPSK.S Q8TAQ2:585 K.K[1127.63]NVPSK.S Q8TAQ2:585 K.K[1127.63]NVPSK.S Q8TAQ2:585 K.K[1127.63]NVPSK.S Q8TAQ2:585 K.K[1127.63]NVPSK.S Q8TAQ2:585 K.EK[1127.61]PTDM[147.04]QNFGLR.T Q8TAQ2:568 K.EK[937.56]PTDM[147.04]QNFGLR.T Q8TAQ2:568 K.EK[1167.57]PTDM[147.04]QNFGLR.T Q8TAQ2:568 K.M[147.04]K[1388.79]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.M[147.04]K[1388.77]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.M[147.04]K[1388.77]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.M[147.04]K[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1388.8]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.M[147.04]K[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1388.77]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.M[147.04]K[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.SALEEFSKM[147.04]K[1388.75]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.M[147.04]K[897.52]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[1974.06]VEEAAK.V Q8TAQ2:718 K.M[147.04]K[1580.89]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1580.92]EEVPTALVEAHVR.K Q8TAQ2:704 K.MK[1580.9]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 K.M[147.04]K[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 K.M[147.04]K[1580.92]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 K.MK[1580.9]EEVPTALVEAHVR.K Q8TAQ2:704 K.E[111.03]GQEEVLK[2047.98]EVVESEGER.K Q8TAQ2:836 K.E[111.03]GQEEVLK[2048.01]EVVESEGERK.T Q8TAQ2:836 K.E[111.03]PK[1693.83]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[2167]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[2167.06]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[1693.87]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[1693.8]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.SDGDPIVDPEK[2565.28]EK.E Q8TAQ2:823 K.ESEKSDGDPIVDPEK[2565.28]EK.E Q8TAQ2:823 K.ESEKSDGDPIVDPEK[2565.28]EK.E Q8TAQ2:823 K.E[111.03]PK[2167.03]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[1693.85]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.SDGDPIVDPEK[2565.28]EK.E Q8TAQ2:823 K.EPK[1693.79]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.SDGDPIVDPEK[2565.28]EK.E Q8TAQ2:823 K.ESEKSDGDPIVDPEK[2565.28]EK.E Q8TAQ2:823 K.SDGDPIVDPEK[2565.28]EK.E Q8TAQ2:823 K.TVNTKK[3712.78]DSESAPVK.G Q8TAQ2:365 K.TVNTKK[3712.78]DSESAPVK.G Q8TAQ2:365 K.TVNTKK[3712.78]DSESAPVK.G Q8TAQ2:365 R.GHREEEQEDLTK[1768.94]DMDEPSPVPNVEEVTLPK.T Q8TAQ2:341 R.GHREEEQEDLTK[1768.93]DM[147.04]DEPSPVPNVEEVTLPK.T Q8TAQ2:341 K.GK[1526.78]EGDSEK.E Q8TAQ2:802 K.GK[1526.78]EGDSEK.E Q8TAQ2:802 K.GK[1526.78]EGDSEK.E Q8TAQ2:802 K.GK[1526.78]EGDSEK.E Q8TAQ2:802 K.K[2225.11]DEEK.G Q8TAQ2:796 K.K[1154.62]DEEK.G Q8TAQ2:796 K.K[1154.62]DEEKGK.E Q8TAQ2:796 K.K[1154.62]DEEKGK.E Q8TAQ2:796 K.K[1154.62]DEEKGK.E Q8TAQ2:796 K.K[1154.62]DEEKGK.E Q8TAQ2:796 K.K[1154.62]DEEKGK.E Q8TAQ2:796 K.KK[1243.68]NAK.K Q8TAQ2:314 K.SALEEFSK[1388.79]M[147.04]KEEVPTALVEAHVR.K Q8TAQ2:702 K.SALEEFSK[1388.77]M[147.04]KEEVPTALVEAHVR.K Q8TAQ2:702 K.SALEEFSK[1039.58]M[147.04]KEEVPTALVEAHVR.K Q8TAQ2:702 R.K[1792.99]DPSAFFSFPVTDFIAPGYSM[147.04]IIK.H Q9NPI1:150 R.LDLPPEK[2431.19]PLTSSLAK.Q Q9NPI1:119 R.IEK[1137.71]ER.M P51532:524 P51531:500 R.IEK[1137.71]ER.M P51532:524 P51531:500 R.IEK[1137.71]ER.M P51532:524 P51531:500 R.K[982.53]PVDFK[284.17]K.I P51532:1503 P51531:1445 R.IRNHK[998.56]YR.S P51532:1518 P51531:1460 K.K[998.58]IK[284.17]ER.I P51532:1509 P51531:1451 R.ASGK[1004.67]FELLDR.I P51532:1081 P51531:1051 K.K[982.53]IK[284.17]ER.I P51532:1509 P51531:1451 K.VIQAGM[147.04]FDQK[1272.7]SSSHER.R P51532:1237 P51531:1207 K.YK[2085.03]LNVDQK.V P51532:1221 P51531:1191 K.YK[2085.03]LNVDQK.V P51532:1221 P51531:1191 K.VIQAGM[147.04]FDQK[1272.7]SSSHER.R P51532:1237 P51531:1207 K.VIQAGM[147.04]FDQK[1272.7]SSSHER.R P51532:1237 P51531:1207 K.VIQAGMFDQK[1272.74]SSSHER.R P51532:1237 P51531:1207 K.VIQAGM[147.04]FDQK[1272.73]SSSHER.R P51532:1237 P51531:1207 R.K[284.17]PVDFK[810.49]K.I P51532:1508 P51531:1450 K.GK[284.17]GGAK[1030.72]TLM[147.04]NTIM[147.04]QLR.K P51531:1003 R.AQILAYK[2000.14]MLAR.G P51531:190 R.AQILAYK[2000.14]MLAR.G P51531:190 R.LM[147.04]EEDELPSWIIK[1904.9]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1904.89]DDAEVER.L P51532:1349 P51531:1286 K.YK[2011.1]LNVDQK.V P51532:1221 P51531:1191 K.YK[2011.1]LNVDQK.V P51532:1221 P51531:1191 R.EQK[988.56]AKR.N Q12824:124 R.EQK[988.57]AK[284.17]R.N Q12824:124 R.EQK[988.57]AKR.N Q12824:124 R.EQK[1990.08]AK.R Q12824:124 K.TK[1191.7]PNTK.D Q12824:73 K.SK[1121.66]DK[284.17]AATPR.K Q8WUB8:347 K.SK[809.46]DK[284.17]AATPR.K Q8WUB8:347 K.SK[809.46]DK[284.17]AATPR.K Q8WUB8:347 R.K[1238.7]DGPK.R Q8WUB8:355 R.K[1238.7]DGPK.R Q8WUB8:355 R.K[1238.7]DGPK.R Q8WUB8:355 K.SKDK[1121.66]AATPR.K Q8WUB8:349 R.K[1023.58]DGPK[284.17]R.S Q8WUB8:355 K.SK[284.17]DK[809.47]AATPR.K Q8WUB8:349 R.K[1023.56]DGPK[284.17]R.S Q8WUB8:355 K.SKDK[1121.67]AATPR.K Q8WUB8:349 R.K[1023.57]DGPKR.S Q8WUB8:355 K.SKDK[1121.64]AATPR.K Q8WUB8:349 R.K[1238.7]DGPKR.S Q8WUB8:355 R.K[1238.7]DGPK.R Q8WUB8:355 R.K[1023.57]DGPKR.S Q8WUB8:355 R.K[1238.7]DGPKR.S Q8WUB8:355 K.SKDK[809.47]AATPR.K Q8WUB8:349 R.K[1238.7]DGPKR.S Q8WUB8:355 R.K[1238.7]DGPKR.S Q8WUB8:355 R.K[1238.7]DGPKR.S Q8WUB8:355 R.K[1238.7]DGPKR.S Q8WUB8:355 K.K[1527.85]AAKK.A Q8WUB8:202 K.VEASK[966.61]VPEYIK.K Q8WUB8:195 K.K[1527.85]AAKK.A Q8WUB8:202 K.VPEYIK[1528.79]K[284.17]AAK.K Q8WUB8:201 K.AAK[1655.92]K[284.17]AAEFNSNLNR.E Q8WUB8:205 K.AAK[1655.93]K[284.17]AAEFNSNLNR.E Q8WUB8:205 K.VPEYIK[284.17]K[1528.8]AAK.K Q8WUB8:202 R.SVLSK[1121.66]SVPGYK.P Q8WUB8:365 R.K[1585.92]DGPK.R Q8WUB8:355 R.K[1654.97]DGPKR.S Q8WUB8:355 R.ITDHYKEYSQM[147.04]QQQNTQK[1411.82]VEASK.V Q8WUB8:190 R.ITDHYKEYSQM[147.04]QQQNTQK[1411.83]VEASK.V Q8WUB8:190 R.SDEVIDLM[147.04]IK[1341.73]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.63]EYPAK.H Q8WUB8:152 R.K[2016.05]YPDLERR.D Q8WUB8:106 R.K[2016.05]YPDLERR.D Q8WUB8:106 R.K[2016.05]YPDLERR.D Q8WUB8:106 R.SDEVIDLM[147.04]IK[1185.64]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.63]EYPAK.H Q8WUB8:152 R.K[2016.05]YPDLERR.D Q8WUB8:106 R.K[2016.05]YPDLERR.D Q8WUB8:106 R.SDEVIDLM[147.04]IK[1185.65]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.65]EYPAK.H Q8WUB8:152 R.K[2455.27]YPDLER.R Q8WUB8:106 K.EYPAK[1341.72]HAEYSVILQEK.E Q8WUB8:157 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 K.EYPAK[1185.62]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 K.EYPAK[1185.61]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2455.27]YPDLER.R Q8WUB8:106 K.EYPAK[1185.59]HAEYSVILQEKER.Q Q8WUB8:157 K.RK[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 K.EYPAK[1185.65]HAEYSVILQEK.E Q8WUB8:157 R.DLSHK[1341.74]EK.L Q8WUB8:118 K.DK[1341.74]AATPR.K Q8WUB8:349 R.TK[1270.73]VSSYPVALIPGQFQEYYK[284.17]R.Y Q8WUB8:249 K.YK[2739.46]VLPTER.T Q8WUB8:241 K.YK[2739.46]VLPTER.T Q8WUB8:241 K.YK[2583.36]VLPTER.T Q8WUB8:241 R.KDGPK[1429.82]R.S Q8WUB8:359 R.SVLSK[724.46]SVPGYK[284.17]PK.V Q8WUB8:365 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 R.HQEK[2093.08]KR.K Q969G3:255 K.FLESTDSFNNELK[1701.86]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.81]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.88]R.L Q969G3:271 K.FLESTDSFNNELK[1701.86]R.L Q969G3:271 K.VEVDMEK[1425.67]IAAEIAQAEEQAR.K Q969G3:284 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 K.PPDK[1660.98]PLMPYMR.Y Q969G3:68 R.K[284.17]IK[1388.79]SLVALLVETQM[147.04]K.K Q8TAQ2:885 Q92922:893 R.K[284.17]IK[1388.8]SLVALLVETQM[147.04]K.K Q8TAQ2:885 Q92922:893 R.VASAAAK[3815.79]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VREEVPLELVEAHVK[1785.91]K.V Q92922:739 R.VASAAAK[1388.73]AALEEFSR.V Q92922:716 R.VASAAAK[1388.77]AALEEFSR.V Q92922:716 K.K[1785.96]VQEAAR.A Q92922:740 K.K[1785.96]VQEAAR.A Q92922:740 K.K[1785.96]VQEAAR.A Q92922:740 R.ISTK[982.56]NEEPVRSPER.R Q92922:303 R.K[1907.01]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 R.K[1437.78]ASANAR.K Q92922:317 R.ISTK[1253.65]NEEPVRSPER.R Q92922:303 R.TDIYSK[284.17]K[998.57]TLAK.S Q92922:609 R.K[1216.68]KSGK.K Q92922:341 K.K[968.59]GQASLYGK[284.17]R.R Q92922:346 R.K[1216.68]KSGK.K Q92922:341 K.K[968.59]GQASLYGK.R Q92922:346 R.K[1216.68]KSGK.K Q92922:341 R.K[1216.68]KSGK.K Q92922:341 R.K[1216.68]KSGK.K Q92922:341 R.SPQVPAAQQMLNFPEK[1662.91]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.92]NK.E Q92922:588 R.SPQVPAAQQMLNFPEK[1662.87]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 R.SPQVPAAQQMLNFPEK[1662.89]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1680.9]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 R.SPQVPAAQQM[147.04]LNFPEK[1680.94]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.K[968.59]GQASLYGK.R Q92922:346 K.KGQASLYGK[968.59]R.R Q92922:354 R.KK[1372.78]SGK.K Q92922:342 K.K[1372.78]SGK.K Q92922:342 R.KK[1372.78]SGK.K Q92922:342 K.SK[1685.93]TPEIYLAYR.N Q8TAQ2:457 Q92922:482 R.ALPEFFNGK[1605.88]NK.S Q8TAQ2:453 Q92922:478 K.K[1680.92]TLAK.S Q92922:609 K.K[3815.79]VQEAAR.A Q92922:740 K.K[3815.79]VQEAAR.A Q92922:740 K.K[1066.61]VQEAAR.A Q92922:740 K.K[1066.61]VQEAAR.A Q92922:740 K.K[1066.61]VQEAAR.A Q92922:740 K.K[1066.61]VQEAAR.A Q92922:740 K.TLAK[1119.62]SK[284.17]GASAGR.E Q92922:613 K.TLAK[1119.62]SK.G Q92922:613 K.TLAK[1119.62]SK.G Q92922:613 R.TDIYSK[998.54]K[284.17]TLAK.S Q92922:608 K.SK[1119.62]GASAGR.E Q92922:615 R.TDIYSK[998.56]K.T Q92922:608 R.TDIYSK[998.53]K.T Q92922:608 R.K[2087.13]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1667.93]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1667.9]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1667.93]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2087.15]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1667.94]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 K.EITALAPSTMK[2608.32]IK.I P60709:326 K.EITALAPSTMK[2608.32]IK.I P60709:326 R.K[1683.94]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1683.96]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[2616.47]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1665.91]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.K[1429.9]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.81]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.8]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.83]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1429.93]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1429.89]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1429.87]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.79]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.78]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1429.87]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.79]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.8]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.8]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.75]DLYANTVLSGGTTMYPGIADR.M P60709:291 R.VAPEEHPVLLTEAPLNPK[1891.98]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.36]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.37]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.38]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.34]ANR.E P60709:113 R.VAPEEHPVLLTEAPLNPK[719.35]ANR.E P60709:113 K.DSYVGDEAQSK[2560.4]R.G P60709:61 R.MQK[1301.82]EITALAPSTM[147.04]K.I P60709:315 K.E[111.03]ITALAPSTMK[284.17]IK[2444.39]IIAPPER.K P60709:328 R.LISELFQK[284.17]LPSK[1530.88]VQYPDYYAIIK.E Q86U86:214 R.NLETAK[1394.75]K[284.17]AEYEER.A Q86U86:1424 R.AAK[1845.95]VAEQQER.E Q86U86:1434 R.AAK[1845.95]VAEQQER.E Q86U86:1434 R.AAK[1845.95]VAEQQER.E Q86U86:1434 R.NLETAK[1394.75]K.A Q86U86:1424 R.AAK[1845.95]VAEQQER.E Q86U86:1434 R.NLETAK[1679.9]K.A Q86U86:1424 R.NLETAK[1679.9]K.A Q86U86:1424 K.K[2349.25]YPDYYQQIK.M Q86U86:416 K.KYPDYYQQIK[2349.23]MPISLQQIR.T Q86U86:425 K.KYPDYYQQIK[2349.23]M[147.04]PISLQQIR.T Q86U86:425 R.AVIK[2073.02]AQHPDYSFGELSR.L Q86U86:1398 R.AVIK[2073.06]AQHPDYSFGELSR.L Q86U86:1398 R.AVIK[2057.01]AQHPDYSFGELSR.L Q86U86:1398 R.AVIK[2056.98]AQHPDYSFGELSR.L Q86U86:1398 R.K[1424.79]EKLPK.E Q86U86:907 R.K[1424.79]EKLPK.E Q86U86:907 R.K[1424.79]EKLPK.E Q86U86:907 R.K[1424.79]EKLPK.E Q86U86:907 R.K[1424.79]EKLPK.E Q86U86:907 R.K[1424.79]EKLPK.E Q86U86:907 R.K[1424.79]EKLPK.E Q86U86:907 K.LK[2107.09]LSR.K Q86U86:640 K.KSK[881.56]YM[147.04]TPM[147.04]QQK.L Q86U86:653 K.KSK[881.57]YM[147.04]TPM[147.04]QQK.L Q86U86:653 K.LLK[2149.07]EK.R Q86U86:619 K.LLK[2149.07]EK.R Q86U86:619 R.K[1207.74]ELGPLPDDDDMASPK.L Q86U86:623 K.LLK[2149.07]EK.R Q86U86:619 K.K[981.58]SK[284.17]YM[147.04]TPM[147.04]QQK.L Q86U86:651 K.SK[1265.74]YM[147.04]TPM[147.04]QQK.L Q86U86:653 K.KSK[981.6]YM[147.04]TPM[147.04]QQK.L Q86U86:653 R.VLK[284.17]LQQVM[147.04]QAK[881.53]K.K Q86U86:483 K.LQQVM[147.04]QAK[881.53]K.K Q86U86:483 K.LQQVM[147.04]QAK[881.54]K.K Q86U86:483 K.KK[2679.23]ELAR.R Q86U86:485 K.K[2679.23]ELAR.R Q86U86:485 K.K[2679.23]ELAR.R Q86U86:485 R.K[1009.63]SGISPK.K Q86U86:644 K.LK[1968.17]LSR.K Q86U86:640 R.K[881.57]PIVPQKEPSPLLEK.K Q86U86:1293 K.K[1968.17]IQLLEAK.F Q86U86:1308 K.K[1968.17]IQLLEAK.F Q86U86:1308 R.APK[2801.43]RR.N Q86U86:77 R.APK[2801.43]RR.N Q86U86:77 K.TK[1424.79]SFK.K Q86U86:1068 K.TK[1424.79]SFK.K Q86U86:1068 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 R.YNVPNSAIYK[1566.92]R.V Q86U86:471 K.RYNVPNSAIYK[1566.91]R.V Q86U86:471 K.RYNVPNSAIYK[1566.91]R.V Q86U86:471 R.VLK[1589.84]LQQVM[147.04]QAK[284.17]K.K Q86U86:475 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 R.YNVPNSAIYK[1566.91]R.V Q86U86:471 K.RYNVPNSAIYK[1566.89]R.V Q86U86:471 K.RYNVPNSAIYK[1566.9]R.V Q86U86:471 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 R.YNVPNSAIYK[1566.89]R.V Q86U86:471 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 K.RYNVPNSAIYK[1566.89]R.V Q86U86:471 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 R.VLK[1589.83]LQQVM[147.04]QAK[284.17]K.K Q86U86:475 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.VLK[1589.85]LQQVM[147.04]QAK[284.17]K.K Q86U86:475 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 R.YNVPNSAIYK[1550.9]R.V Q86U86:471 R.YNVPNSAIYK[1566.9]R.V Q86U86:471 K.RYNVPNSAIYK[1550.89]R.V Q86U86:471 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 R.YNVPNSAIYK[1566.91]R.V Q86U86:471 R.VLK[1589.85]LQQVM[147.04]QAK[284.17]K.K Q86U86:475 R.VLK[1589.8]LQQVM[147.04]QAK[284.17]K.K Q86U86:475 K.RYNVPNSAIYK[1566.92]R.V Q86U86:471 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.YNVPNSAIYK[1566.93]R.V Q86U86:471 R.YNVPNSAIYK[1550.89]R.V Q86U86:471 R.YNVPNSAIYK[1550.89]R.V Q86U86:471 R.YNVPNSAIYK[1550.89]R.V Q86U86:471 R.YNVPNSAIYK[1566.91]R.V Q86U86:471 R.YNVPNSAIYK[1566.9]R.V Q86U86:471 R.YNVPNSAIYK[1566.89]R.V Q86U86:471 R.YNVPNSAIYK[1566.92]R.V Q86U86:471 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.EAEK[962.56]SEDSSGAAGLSGLHR.T Q86U86:930 R.YSAK[2166.06]TK.S Q86U86:1066 R.YSAK[2166.06]TK.S Q86U86:1066 K.HLHNDVEK[861.51]ERK.E Q86U86:904 R.K[1541.8]EKLPK.E Q86U86:907 R.YNESDKQMK[1013.62]K.F Q86U86:1269 R.YNESDKQM[147.04]K[1169.72]K.F Q86U86:1269 K.FK[1535.77]GLKR.F Q86U86:1272 K.FK[1535.77]GLK.R Q86U86:1272 K.FK[1535.77]GLKR.F Q86U86:1272 R.YNESDKQMK[1169.71]K.F Q86U86:1269 R.YNESDKQMK[1013.62]K.F Q86U86:1269 K.FK[1535.77]GLKR.F Q86U86:1272 R.YNESDKQM[147.04]K[1013.62]K.F Q86U86:1269 R.YNESDKQMK[1013.62]K.F Q86U86:1269 R.YNESDKQM[147.04]K[1013.62]K.F Q86U86:1269 R.YNESDKQM[147.04]K[1013.62]K.F Q86U86:1269 R.YNESDKQM[147.04]K[1013.61]K.F Q86U86:1269 R.YNESDKQM[147.04]K[1013.61]K.F Q86U86:1269 K.FK[1535.77]GLKR.F Q86U86:1272 K.FK[1535.77]GLKR.F Q86U86:1272 R.YNESDKQM[147.04]K[1013.61]K.F Q86U86:1269 K.FK[1535.77]GLKR.F Q86U86:1272 K.FK[1535.77]GLKR.F Q86U86:1272 K.FK[1535.77]GLK.R Q86U86:1272 K.FK[1535.77]GLKR.F Q86U86:1272 K.FK[1535.77]GLKR.F Q86U86:1272 K.FK[1535.77]GLKR.F Q86U86:1272 K.KK[1293.67]ELAR.R Q86U86:485 K.KK[1293.67]ELAR.R Q86U86:485 R.NPTSK[881.57]YYR.N Q86U86:329 K.K[1293.67]KELAR.R Q86U86:484 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 K.EPIDLK[1667.99]TIAQR.I Q86U86:231 R.LISELFQK[2902.58]LPSK.V Q86U86:210 K.VQYPDYYAIIKEPIDLK[1667.91]TIAQR.I Q86U86:231 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 K.VQYPDYYAIIK[1667.94]EPIDLKTIAQR.I Q86U86:225 R.VLK[1394.74]LQQVM[147.04]QAK.K Q86U86:475 K.KK[1394.75]ELAR.R Q86U86:485 K.LLK[284.17]EK[881.57]R.K Q86U86:621 K.LK[1992.97]LSR.K Q86U86:640 R.EAEK[2234.15]SEDSSGAAGLSGLHR.T Q86U86:930 K.EVFK[2166.06]SDYYNK[284.17]VPVSK.I Q86U86:1019 K.EVFK[2166.03]SDYYNK[284.17]VPVSK.I Q86U86:1019 K.EVFK[2322.16]SDYYNKVPVSK.I Q86U86:1019 K.AEIEHHEM[147.04]AK[1110.6]SSLR.M Q86U86:294 R.YNESDK[985.61]QMK.K Q86U86:1266 R.YNESDK[1013.61]QM[147.04]KK.F Q86U86:1266 R.YNESDK[1013.62]QM[147.04]KK.F Q86U86:1266 R.YNESDK[687.41]QM[147.04]K.K Q86U86:1266 R.YNESDK[687.44]QM[147.04]K.K Q86U86:1266 R.YNESDK[1207.74]QM[147.04]K.K Q86U86:1266 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1165.73]R.K Q86U86:511 R.K[1009.63]SGISPK.K Q86U86:644 K.LNEVYEAVK[2166.06]NYTDKR.G Q86U86:670 K.LNEVYEAVK[2166.06]NYTDKR.G Q86U86:670 K.K[1394.75]AEYEER.A Q86U86:1425 K.K[1679.9]AEYEER.A Q86U86:1425 R.AAK[1189.57]VAEQQERER.A Q86U86:1434 K.K[1394.75]AEYEER.A Q86U86:1425 K.K[1679.9]AEYEER.A Q86U86:1425 R.AVIK[913.54]AQHPDYSFGELSR.L Q86U86:1398 K.K[913.52]EGSK[284.17]R.K Q86U86:1374 R.E[111.03]AEK[955.5]SEDSSGAAGLSGLHR.T Q86U86:930 K.REEEK[2166.06]R.E Q86U86:925 K.REEEK[2166.06]R.E Q86U86:925 K.REEEK[2166.06]R.E Q86U86:925 K.REEEK[2166.06]R.E Q86U86:925 R.EEEK[2166.06]R.E Q86U86:925 R.EEEK[2166.06]R.E Q86U86:925 K.REEEK[2166.06]R.E Q86U86:925 K.LK[2679.23]LSR.K Q86U86:640 K.LK[2679.23]LSR.K Q86U86:640 K.K[2679.23]NIR.K Q86U86:516 K.SK[1592.82]GAHTTM[147.04]ADALWR.L Q86U86:1656 K.SK[1592.81]GAHTTMADALWR.L Q86U86:1656 R.LPSHWLK[1592.82]SK.G Q86U86:1654 K.K[1819.94]ELAR.R Q86U86:485 R.LTGPSHSK[1589.84]GSLGEER.N Q86U86:317 R.NPTSK[1819.94]YYR.N Q86U86:329 R.LTGPSHSK[1293.68]GSLGEER.N Q86U86:317 R.LTGPSHSK[1293.66]GSLGEER.N Q86U86:317 R.NPTSK[1819.94]YYR.N Q86U86:329 R.NPTSK[1819.94]YYR.N Q86U86:329 R.NPTSK[1819.94]YYR.N Q86U86:329 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 R.NPTSK[1819.94]YYR.N Q86U86:329 R.LTGPSHSK[1293.68]GSLGEER.N Q86U86:317 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 R.LTGPSHSK[1293.72]GSLGEER.N Q86U86:317 R.LTGPSHSK[1293.66]GSLGEER.N Q86U86:317 R.LTGPSHSK[1566.91]GSLGEER.N Q86U86:317 R.VLK[1819.94]LQQVMQAK.K Q86U86:475 R.LTGPSHSK[881.59]GSLGEER.N Q86U86:317 K.LK[1550.92]LSR.K Q86U86:640 K.K[1550.92]KELAR.R Q86U86:484 R.VLK[1009.62]LQQVM[147.04]QAK.K Q86U86:475 R.VLK[981.58]LQQVM[147.04]QAK.K Q86U86:475 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1566.95]R.K Q86U86:511 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1566.9]R.K Q86U86:511 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1566.92]R.K Q86U86:511 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1566.87]R.K Q86U86:511 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1550.91]R.K Q86U86:511 R.VLK[881.53]LQQVMQAK[284.17]K.K Q86U86:475 R.VLK[881.54]LQQVM[147.04]QAK[284.17]K.K Q86U86:475 K.KK[1550.92]ELAR.R Q86U86:485 R.VLK[1165.71]LQQVMQAK.K Q86U86:475 R.VLK[1165.69]LQQVM[147.04]QAK.K Q86U86:475 K.KK[1707.02]ELAR.R Q86U86:485 K.KK[1550.92]ELAR.R Q86U86:485 R.AVIK[2183.14]AQHPDYSFGELSR.L Q86U86:1398 R.AVIK[2183.11]AQHPDYSFGELSR.L Q86U86:1398 R.AVIK[2183.14]AQHPDYSFGELSR.L Q86U86:1398 R.AVIK[2183.14]AQHPDYSFGELSR.L Q86U86:1398 R.DVHLSK[2183.14]EQESR.L Q86U86:1642 R.AVIK[1068.58]AQHPDYSFGELSR.L Q86U86:1398 R.NLETAK[2183.14]K.A Q86U86:1424 R.AAK[2183.14]VAEQQER.E Q86U86:1434 R.AAK[2183.14]VAEQQER.E Q86U86:1434 R.AAK[2183.14]VAEQQER.E Q86U86:1434 K.K[2183.14]AEYEER.A Q86U86:1425 K.K[2183.14]AEYEER.A Q86U86:1425 K.DYPDYYK[1730.92]IILEPM[147.04]DLK.I Q86U86:560 K.KDYPDYYK[1602.87]IILEPM[147.04]DLK.I Q86U86:560 R.LC[160.03]DLFM[147.04]VK[1356.66]PSK.K Q86U86:549 R.LC[160.03]DLFM[147.04]VK[1356.66]PSK.K Q86U86:549 K.K[1602.85]DYPDYYK.I Q86U86:553 K.K[1602.85]DYPDYYK.I Q86U86:553 R.LC[160.03]DLFM[147.04]VK[1356.65]PSK.K Q86U86:549 R.LC[160.03]DLFM[147.04]VK[1356.66]PSK.K Q86U86:549 R.LC[160.03]DLFM[147.04]VK[1356.66]PSK.K Q86U86:549 K.K[1602.85]DYPDYYK.I Q86U86:553 R.RLC[160.03]DLFM[147.04]VK[1356.63]PSK.K Q86U86:549 R.LC[160.03]DLFM[147.04]VK[1356.69]PSK.K Q86U86:549 K.K[1602.85]DYPDYYK.I Q86U86:553 K.K[1602.85]DYPDYYK.I Q86U86:553 R.RLC[160.03]DLFM[147.04]VK[1356.66]PSK.K Q86U86:549 R.K[284.17]PIVPQK[1207.76]EPSPLLEK.K Q86U86:1299 R.K[284.17]PIVPQK[1207.76]EPSPLLEK.K Q86U86:1299 R.LTC[160.03]EEEEEK[1370.72]M[147.04]FGR.G P51532:1365 R.LDGTTK[1931.95]AEDR.G P51532:1131 K.YK[1300.71]LNVDQK.V P51532:1221 P51531:1191 K.YK[1300.71]LNVDQK.V P51532:1221 P51531:1191 R.DTALETALNAK[284.17]AYK[1930.01]R.S P51532:440 R.DTALETALNAK[284.17]AYK[1930.05]R.S P51532:440 R.DTALETALNAK[284.17]AYK[1930.01]R.S P51532:440 R.DTALETALNAK[284.17]AYK[1929.98]R.S P51532:440 R.K[1234.8]EK[284.17]AQDR.L P51532:1602 R.K[1234.83]EK[284.17]AQDR.L P51532:1602 R.K[1078.72]EK[284.17]AQDR.L P51532:1602 R.K[851.56]EK[284.17]AQDR.L P51532:1602 R.K[851.56]EK[284.17]AQDR.L P51532:1602 R.K[851.56]EKAQDR.L P51532:1602 K.IK[1139.63]LGR.K P51532:1598 R.K[851.53]EK[284.17]AQDR.L P51532:1602 K.IK[1139.63]LGR.K P51532:1598 K.IK[1139.63]LGR.K P51532:1598 K.VK[284.17]IK[1139.63]LGR.K P51532:1598 K.IK[1011.53]LGRK.E P51532:1598 K.IK[1011.53]LGRK.E P51532:1598 R.K[795.5]EK[284.17]AQDR.L P51532:1602 R.K[795.5]EK[284.17]AQDR.L P51532:1602 K.Q[111.03]QK[1125.65]IEQERK.R P51532:461 P51531:437 R.K[1717.94]RDSDAGSSTPTTSTR.S P51532:1414 K.VK[795.49]IK[284.17]LGR.K P51532:1596 R.K[752.51]EK[284.17]AQDR.L P51532:1602 R.K[1222.8]EK[284.17]AQDR.L P51532:1602 R.K[752.51]EK[284.17]AQDR.L P51532:1602 K.KK[2030.09]IPDPDSDDVSEVDAR.H P51532:689 K.VIHVESGK[2151.07]ILTGTDAPK.A P51532:626 R.LM[147.04]EEDELPSWIIK[1938.86]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.86]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1938.87]DDAEVER.L P51532:1349 P51531:1286 R.LM[147.04]EEDELPSWIIK[1922.87]DDAEVER.L P51532:1349 P51531:1286 K.KK[2736.37]IPDPDSDDVSEVDAR.H P51532:689 R.HIIENAK[1300.68]QDVDDEYGVSQALAR.G P51532:711 K.VSYK[1717.93]GSPAAR.R P51532:835 R.K[1295.71]ELPEYYELIR.K P51532:1492 P51531:1434 K.LTK[1125.66]AVATYHANTER.E P51532:502 R.ELFQEM[147.04]NIELVPPYM[147.04]IASK[1363.82]EAVR.E O96019:226 R.K[2972.54]EKLPQVTR.S O96019:240 R.K[2972.54]EKLPQVTR.S O96019:240 R.ELFQEM[147.04]NIELVPPYM[147.04]IASK[1519.92]EAVR.E O96019:226 R.EK[1859.8]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.81]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.81]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.8]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.82]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.K[1309.68]EK[284.17]LPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1309.68]EK[284.17]LPQVTR.S O96019:240 R.K[1291.66]EKLPQVTR.S O96019:240 R.K[1291.67]EKLPQVTR.S O96019:240 R.K[1309.68]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1309.65]EKLPQVTR.S O96019:240 R.K[1291.66]EKLPQVTR.S O96019:240 R.K[1309.66]EKLPQVTR.S O96019:240 R.K[1309.66]EKLPQVTR.S O96019:240 R.K[1309.68]EK[284.17]LPQVTR.S O96019:240 R.K[1309.66]EKLPQVTR.S O96019:240 R.K[1309.69]EK[284.17]LPQVTR.S O96019:240 R.K[1764.93]EKLPQVTR.S O96019:240 R.K[1764.93]EKLPQVTR.S O96019:240 R.K[1309.65]EKLPQVTR.S O96019:240 R.K[1764.93]EKLPQVTR.S O96019:240 K.EAVREGSPANWK[1363.78]R.K O96019:238 R.K[1309.65]EK[284.17]LPQVTR.S O96019:240 R.K[1764.93]EKLPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.KEK[1291.67]LPQVTR.S O96019:242 R.K[284.17]EK[1309.66]LPQVTR.S O96019:242 R.KEK[1291.65]LPQVTR.S O96019:242 R.KEK[1764.93]LPQVTR.S O96019:242 R.KEK[1291.67]LPQVTR.S O96019:242 R.KEK[1764.93]LPQVTR.S O96019:242 R.KEK[1291.67]LPQVTR.S O96019:242 R.KEK[1309.65]LPQVTR.S O96019:242 K.VM[147.04]ATIEK[1082.63]VR.R Q8WUZ0:27 K.K[954.54]VM[147.04]ATIEK.V Q8WUZ0:20 K.K[1197.68]VM[147.04]ATIEK.V Q8WUZ0:20 R.IYK[1297.75]WVPVTEPK.V Q4VC05:47 R.VMAAIEK[1624.92]VR.K Q4VC05:27 R.VMAAIEK[1624.92]VR.K Q4VC05:27 R.VM[147.04]AAIEK[855.49]VR.K Q4VC05:27 R.VM[147.04]AAIEK[983.59]VR.K Q4VC05:27 R.K[1281.75]WEK.K Q4VC05:30 R.AKDDIK[1281.75]R.V Q4VC05:19 R.VM[147.04]AAIEK[1110.64]VR.K Q4VC05:27 R.VMAAIEK[1266.72]VR.K Q4VC05:27 R.VMAAIEK[1266.72]VR.K Q4VC05:27 R.VMAAIEK[1266.7]VR.K Q4VC05:27 R.AK[1281.75]DDIKR.V Q4VC05:15 R.VM[147.04]AAIEK[1266.72]VR.K Q4VC05:27 R.AK[1281.75]DDIKR.V Q4VC05:15 R.AK[1281.75]DDIKR.V Q4VC05:15 R.VM[147.04]AAIEK[1110.63]VR.K Q4VC05:27 R.AK[1281.75]DDIKR.V Q4VC05:15 K.K[1624.92]WVTVGDTSLR.I Q4VC05:34 R.DFTDEK[1463.8]EGPITK.H Q68CP9:1760 R.DFTDEK[1463.85]EGPITK.H Q68CP9:1760 R.GSPFK[1582.92]K.I Q68CP9:35 K.SSTK[2191.15]QPTVGGTSSTPR.A Q68CP9:1716 K.SSTK[2191.15]QPTVGGTSSTPR.A Q68CP9:1716 R.AQK[1855.96]AIVNHPSAALM[147.04]ALR.R Q68CP9:1731 K.SSTK[2056.16]QPTVGGTSSTPR.A Q68CP9:1716 R.AQK[1855.97]AIVNHPSAALM[147.04]ALR.R Q68CP9:1731 K.SSTK[2056.16]QPTVGGTSSTPR.A Q68CP9:1716 K.SSTK[2056.16]QPTVGGTSSTPR.A Q68CP9:1716 R.K[1464.83]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 R.K[1464.83]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 R.K[1464.83]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 K.LLDDPSK[284.17]QK[1155.64]R.K Q6STE5:198 Q92925:246 K.RK[1464.83]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 R.K[1465.8]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 R.K[1465.8]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 R.K[1209.71]RM[147.04]EIQEAIK.K Q92925:176 K.IHETIESINQLK[1622.92]TQR.D Q92925:451 K.PLTQK[1354.75]R.K Q92925:191 K.PLTQK[1354.75]R.K Q92925:191 K.YDATK[284.17]QK[1155.62]R.K Q96GM5:230 R.TATTQETDGFQVK[3219.57]RPGDVNVR.C Q96GM5:273 R.YFYSK[2510.38]VQQR.R Q96GM5:498 R.YFYSK[2510.38]VQQR.R Q96GM5:498 R.K[1285.7]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[2510.38]LDQTIMR.K Q6STE5:131 Q96GM5:156 R.PIK[1350.79]QK.R Q96GM5:177 R.PIK[1506.89]QK.R Q96GM5:177 R.DLK[1483.75]TM[147.04]TDVVGNPEEER.R Q96GM5:464 K.M[147.04]ADK[1285.71]ILPQR.I Q6STE5:106 Q96GM5:131 Unique_(—) protein2 subunit2 realpep2 position2 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 SKAAASATR 592 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKKNVPSK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 TDMYTKK 584 1 SMARCC2 SKAAASATR 592 1 SMARCC2 EKTSEAPK 789 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 EPKEPR 773 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 EPKEPR 773 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 848 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 848 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 848 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 846 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 EEVPTALVEAHVRKVEEAAK 718 1 SMARCC2 TKVER 848 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 SKAAASATR 592 1 SMARCC2 SKAAASATR 592 1 SMARCC2 TSEAPKKDEEK 796 1 SMARCC2 TSEAPKKDEEK 796 1 SMARCC2 TSEAPKKDEEK 796 1 SMARCC2 TSEAPKKDEEK 796 1 SMARCC2 KDEEK 796 1 SMARCC2 EGGGAIEEEAKEK 787 1 SMARCC2 TSEAPKKDEEK 796 1 SMARCC2 EGGGAIEEEAKEK 787 1 SMARCC2 EGGGAIEEEAKEKTSEAPK 787 1 SMARCC2 TSEAPKKDEEK 795 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 TKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 KVEEAAKVTGK 724 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 TDMYTKKNVPSK 585 1 SMARCC2 TDMYTKKNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 EKPTDMQNFGLR 568 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGERK 836 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 SDGDPIVDPEKEK 823 1 SMARCC2 ESEKSDGDPIVDPEKEK 823 1 SMARCC2 ESEKSDGDPIVDPEKEK 823 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 SDGDPIVDPEKEK 823 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 SDGDPIVDPEKEK 823 1 SMARCC2 ESEKSDGDPIVDPEKEK 823 1 SMARCC2 SDGDPIVDPEKEK 823 1 SMARCC2 TVNTKKDSESAPVK 365 1 SMARCC2 TVNTKKDSESAPVK 365 1 SMARCC2 TVNTKKDSESAPVK 365 1 SMARCC2 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1 SMARCC2 GHREEEQEDLTKDMDEPSPVPNVEEVTLPK 341 1 SMARCC2 GKEGDSEK 802 1 SMARCC2 GKEGDSEK 802 1 SMARCC2 GKEGDSEK 802 1 SMARCC2 GKEGDSEK 802 1 SMARCC2 KDEEK 796 1 SMARCC2 KDEEK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KKNAK 314 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 SMARCC2 SALEEFSKMKEEVPTALVEAHVR 702 1 BRD7 KDPSAFFSFPVTDFIAPGYSMIIK 150 1 BRD7 LDLPPEKPLTSSLAK 119 2 SMARCA2 IEKER 500 2 SMARCA2 IEKER 500 2 SMARCA2 IEKER 500 2 SMARCA2 KPVDFKK 1445 2 SMARCA2 IRNHKYR 1460 2 SMARCA2 KIKER 1451 2 SMARCA2 ASGKFELLDR 1051 2 SMARCA2 KIKER 1451 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 VIQAGMFDQKSSSHER 1207 2 SMARCA2 KPVDFKK 1450 1 SMARCA2 GKGGAKTLMNTIMQLR 1003 1 SMARCA2 AQILAYKMLAR 190 1 SMARCA2 AQILAYKMLAR 190 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 LMEEDELPSWIIKDDAEVER 1286 2 SMARCA2 YKLNVDQK 1191 2 SMARCA2 YKLNVDQK 1191 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAKR 124 1 SMARCB1 EQKAK 124 1 SMARCB1 TKPNTK 73 1 PHF10 SKDKAATPR 347 1 PHF10 SKDKAATPR 347 1 PHF10 SKDKAATPR 347 1 PHF10 KDGPK 355 1 PHF10 KDGPK 355 1 PHF10 KDGPK 355 1 PHF10 SKDKAATPR 349 1 PHF10 KDGPKR 355 1 PHF10 SKDKAATPR 349 1 PHF10 KDGPKR 355 1 PHF10 SKDKAATPR 349 1 PHF10 KDGPKR 355 1 PHF10 SKDKAATPR 349 1 PHF10 KDGPKR 355 1 PHF10 KDGPK 355 1 PHF10 KDGPKR 355 1 PHF10 KDGPKR 355 1 PHF10 SKDKAATPR 349 1 PHF10 KDGPKR 355 1 PHF10 KDGPKR 355 1 PHF10 KDGPKR 355 1 PHF10 KDGPKR 355 1 PHF10 KAAKK 202 1 PHF10 VEASKVPEYIK 195 1 PHF10 KAAKK 202 1 PHF10 VPEYIKKAAK 201 1 PHF10 AAKKAAEFNSNLNR 205 1 PHF10 AAKKAAEFNSNLNR 205 1 PHF10 VPEYIKKAAK 202 1 PHF10 SVLSKSVPGYK 365 1 PHF10 KDGPK 355 1 PHF10 KDGPKR 355 1 PHF10 ITDHYKEYSQMQQQNTQKVEASK 190 1 PHF10 ITDHYKEYSQMQQQNTQKVEASK 190 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLERR 106 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLERR 106 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEK 106 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLERR 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 RKYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLERR 106 1 PHF10 EYPAKHAEYSVILQEK 157 1 PHF10 DLSHKEK 118 1 PHF10 DKAATPR 349 1 PHF10 TKVSSYPVALIPGQFQEYYKR 249 1 PHF10 YKVLPTER 241 1 PHF10 YKVLPTER 241 1 PHF10 YKVLPTER 241 1 PHF10 KDGPKR 359 1 PHF10 SVLSKSVPGYKPK 365 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 VEVDMEKIAAEIAQAEEQAR 284 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 1 SMARCE1 PPDKPLMPYMR 68 2 SMARCC1 KIKSLVALLVETQMK 893 2 SMARCC1 KIKSLVALLVETQMK 893 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VREEVPLELVEAHVKK 739 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 ISTKNEEPVRSPER 303 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 ISTKNEEPVRSPER 303 1 SMARCC1 TDIYSKKTLAK 609 1 SMARCC1 KKSGK 341 1 SMARCC1 KGQASLYGKR 346 1 SMARCC1 KKSGK 341 1 SMARCC1 KGQASLYGK 346 1 SMARCC1 KKSGK 341 1 SMARCC1 KKSGK 341 1 SMARCC1 KKSGK 341 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 KGQASLYGK 346 1 SMARCC1 KGQASLYGKR 354 1 SMARCC1 KKSGK 342 1 SMARCC1 KSGK 342 1 SMARCC1 KKSGK 342 2 SMARCC1 SKTPEIYLAYR 482 2 SMARCC1 ALPEFFNGKNK 478 1 SMARCC1 KTLAK 609 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 TLAKSKGASAGR 613 1 SMARCC1 TLAKSK 613 1 SMARCC1 TLAKSK 613 1 SMARCC1 TDIYSKKTLAK 608 1 SMARCC1 SKGASAGR 615 1 SMARCC1 TDIYSKK 608 1 SMARCC1 TDIYSKK 608 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB EITALAPSTMKIK 326 1 ACTB EITALAPSTMKIK 326 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB VAPEEHPVLLTEAPLNPKANR 113 1 ACTB DSYVGDEAQSKR 61 1 ACTB MQKEITALAPSTMK 315 1 ACTB EITALAPSTMKIKIIAPPER 328 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM NLETAKKAEYEER 1424 1 PBRM AAKVAEQQER 1434 1 PBRM AAKVAEQQER 1434 1 PBRM AAKVAEQQER 1434 1 PBRM NLETAKK 1424 1 PBRM AAKVAEQQER 1434 1 PBRM NLETAKK 1424 1 PBRM NLETAKK 1424 1 PBRM KYPDYYQQIK 416 1 PBRM KYPDYYQQIKMPISLQQIR 425 1 PBRM KYPDYYQQIKMPISLQQIR 425 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM KEKLPK 907 1 PBRM KEKLPK 907 1 PBRM KEKLPK 907 1 PBRM KEKLPK 907 1 PBRM KEKLPK 907 1 PBRM KEKLPK 907 1 PBRM KEKLPK 907 1 PBRM LKLSR 640 1 PBRM KSKYMTPMQQK 653 1 PBRM KSKYMTPMQQK 653 1 PBRM LLKEK 619 1 PBRM LLKEK 619 1 PBRM KELGPLPDDDDMASPK 623 1 PBRM LLKEK 619 1 PBRM KSKYMTPMQQK 651 1 PBRM SKYMTPMQQK 653 1 PBRM KSKYMTPMQQK 653 1 PBRM VLKLQQVMQAKK 483 1 PBRM LQQVMQAKK 483 1 PBRM LQQVMQAKK 483 1 PBRM KKELAR 485 1 PBRM KELAR 485 1 PBRM KELAR 485 1 PBRM KSGISPK 644 1 PBRM LKLSR 640 1 PBRM KPIVPQKEPSPLLEK 1293 1 PBRM KIQLLEAK 1308 1 PBRM KIQLLEAK 1308 1 PBRM APKRR 77 1 PBRM APKRR 77 1 PBRM TKSFK 1068 1 PBRM TKSFK 1068 1 PBRM VLKLQQVMQAK 475 1 PBRM YNVPNSAIYKR 471 1 PBRM RYNVPNSAIYKR 471 1 PBRM RYNVPNSAIYKR 471 1 PBRM VLKLQQVMQAKK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM YNVPNSAIYKR 471 1 PBRM RYNVPNSAIYKR 471 1 PBRM RYNVPNSAIYKR 471 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM YNVPNSAIYKR 471 1 PBRM VLKLQQVMQAK 475 1 PBRM RYNVPNSAIYKR 471 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAKK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAKK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM RYNVPNSAIYKR 471 1 PBRM VLKLQQVMQAK 475 1 PBRM YNVPNSAIYKR 471 1 PBRM VLKLQQVMQAKK 475 1 PBRM VLKLQQVMQAKK 475 1 PBRM RYNVPNSAIYKR 471 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM EAEKSEDSSGAAGLSGLHR 930 1 PBRM YSAKTK 1066 1 PBRM YSAKTK 1066 1 PBRM HLHNDVEKERK 904 1 PBRM KEKLPK 907 1 PBRM YNESDKQMKK 1269 1 PBRM YNESDKQMKK 1269 1 PBRM FKGLKR 1272 1 PBRM FKGLK 1272 1 PBRM FKGLKR 1272 1 PBRM YNESDKQMKK 1269 1 PBRM YNESDKQMKK 1269 1 PBRM FKGLKR 1272 1 PBRM YNESDKQMKK 1269 1 PBRM YNESDKQMKK 1269 1 PBRM YNESDKQMKK 1269 1 PBRM YNESDKQMKK 1269 1 PBRM YNESDKQMKK 1269 1 PBRM YNESDKQMKK 1269 1 PBRM FKGLKR 1272 1 PBRM FKGLKR 1272 1 PBRM YNESDKQMKK 1269 1 PBRM FKGLKR 1272 1 PBRM FKGLKR 1272 1 PBRM FKGLK 1272 1 PBRM FKGLKR 1272 1 PBRM FKGLKR 1272 1 PBRM FKGLKR 1272 1 PBRM KKELAR 485 1 PBRM KKELAR 485 1 PBRM NPTSKYYR 329 1 PBRM KKELAR 484 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM EPIDLKTIAQR 231 1 PBRM LISELFQKLPSK 210 1 PBRM VQYPDYYAIIKEPIDLKTIAQR 231 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM VQYPDYYAIIKEPIDLKTIAQR 225 1 PBRM VLKLQQVMQAK 475 1 PBRM KKELAR 485 1 PBRM LLKEKR 621 1 PBRM LKLSR 640 1 PBRM EAEKSEDSSGAAGLSGLHR 930 1 PBRM EVFKSDYYNKVPVSK 1019 1 PBRM EVFKSDYYNKVPVSK 1019 1 PBRM EVFKSDYYNKVPVSK 1019 1 PBRM AEIEHHEMAKSSLR 294 1 PBRM YNESDKQMK 1266 1 PBRM YNESDKQMKK 1266 1 PBRM YNESDKQMKK 1266 1 PBRM YNESDKQMK 1266 1 PBRM YNESDKQMK 1266 1 PBRM YNESDKQMK 1266 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM KSGISPK 644 1 PBRM LNEVYEAVKNYTDKR 670 1 PBRM LNEVYEAVKNYTDKR 670 1 PBRM KAEYEER 1425 1 PBRM KAEYEER 1425 1 PBRM AAKVAEQQERER 1434 1 PBRM KAEYEER 1425 1 PBRM KAEYEER 1425 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM KEGSKR 1374 1 PBRM EAEKSEDSSGAAGLSGLHR 930 1 PBRM REEEKR 925 1 PBRM REEEKR 925 1 PBRM REEEKR 925 1 PBRM REEEKR 925 1 PBRM EEEKR 925 1 PBRM EEEKR 925 1 PBRM REEEKR 925 1 PBRM LKLSR 640 1 PBRM LKLSR 640 1 PBRM KNIR 516 1 PBRM SKGAHTTMADALWR 1656 1 PBRM SKGAHTTMADALWR 1656 1 PBRM LPSHWLKSK 1654 1 PBRM KELAR 485 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM NPTSKYYR 329 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM NPTSKYYR 329 1 PBRM NPTSKYYR 329 1 PBRM NPTSKYYR 329 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM NPTSKYYR 329 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM VLKLQQVMQAK 475 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM LKLSR 640 1 PBRM KKELAR 484 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM VLKLQQVMQAKK 475 1 PBRM VLKLQQVMQAKK 475 1 PBRM KKELAR 485 1 PBRM VLKLQQVMQAK 485 1 PBRM VLKLQQVMQAK 475 1 PBRM KKELAR 485 1 PBRM KKELAR 485 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM DVHLSKEQESR 1642 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM NLETAKK 1424 1 PBRM AAKVAEQQER 1434 1 PBRM AAKVAEQQER 1434 1 PBRM AAKVAEQQER 1434 1 PBRM KAEYEER 1425 1 PBRM KAEYEER 1425 1 PBRM DYPDYYKIILEPMDLK 560 1 PBRM KDYPDYYKIILEPMDLK 560 1 PBRM LCDLFMVKPSK 549 1 PBRM LCDLFMVKPSK 549 1 PBRM KDYPDYYK 553 1 PBRM KDYPDYYK 553 1 PBRM LCDLFMVKPSK 549 1 PBRM LCDLFMVKPSK 549 1 PBRM LCDLFMVKPSK 549 1 PBRM KDYPDYYK 553 1 PBRM RLCDLFMVKPSK 549 1 PBRM LCDLFMVKPSK 549 1 PBRM KDYPDYYK 553 1 PBRM KDYPDYYK 553 1 PBRM RLCDLFMVKPSK 549 1 PBRM KPIVPQKEPSPLLEK 1299 1 PBRM KPIVPQKEPSPLLEK 1299 1 SMARCA4 LTCEEEEEKMFGR 1365 1 SMARCA4 LDGTTKAEDR 1131 2 SMARCA4 YKLNVDQK 1221 2 SMARCA4 YKLNVDQK 1221 1 SMARCA4 DTALETALNAKAYKR 440 1 SMARCA4 DTALETALNAKAYKR 440 1 SMARCA4 DTALETALNAKAYKR 440 1 SMARCA4 DTALETALNAKAYKR 440 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 IKLGR 1598 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 IKLGR 1598 1 SMARCA4 IKLGR 1598 1 SMARCA4 VKIKLGR 1598 1 SMARCA4 IKLGRK 1598 1 SMARCA4 IKLGRK 1598 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 2 SMARCA4 QQKIEQERK 461 1 SMARCA4 KRDSDAGSSTPTTSTR 1414 1 SMARCA4 VKIKLGR 1596 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 1 SMARCA4 VIHVESGKILTGTDAPK 626 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 2 SMARCA4 LMEEDELPSWIIKDDAEVER 1349 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 1 SMARCA4 HIIENAKQDVDDEYGVSQALAR 711 1 SMARCA4 VSYKGSPAAR 835 2 SMARCA4 KELPEYYELIR 1492 1 SMARCA4 LTKAVATYHANTER 502 1 ACTL6A ELFQEMNIELVPPYMIASKEAVR 226 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A ELFQEMNIELVPPYMIASKEAVR 226 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EAVREGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 BCL7C VMATIEKVR 27 1 BCL7C KVMATIEK 20 1 BCL7C KVMATIEK 20 1 BCL7A IYKWVPVTEPK 47 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 BCL7A KWEK 30 1 BCL7A AKDDIKR 19 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 BCL7A AKDDIKR 15 1 BCL7A VMAAIEKVR 27 1 BCL7A AKDDIKR 15 1 BCL7A AKDDIKR 15 1 BCL7A VMAAIEKVR 27 1 BCL7A AKDDIKR 15 1 BCL7A KWVTVGDTSLR 34 1 ARID2 DFTDEKEGPITK 1760 1 ARID2 DFTDEKEGPITK 1760 1 ARID2 GSPFKK 35 1 ARID2 SSTKQPTVGGTSSTPR 1716 1 ARID2 SSTKQPTVGGTSSTPR 1716 1 ARID2 AQKAIVNHPSAALMALR 1731 1 ARID2 SSTKQPTVGGTSSTPR 1716 1 ARID2 AQKAIVNHPSAALMALR 1731 1 ARID2 SSTKQPTVGGTSSTPR 1716 1 ARID2 SSTKQPTVGGTSSTPR 1716 3 SMARCD2 KFSSFFK 248 3 SMARCD2 KFSSFFK 248 3 SMARCD2 KFSSFFK 248 2 SMARCD2 LLDDPSKQKR 248 3 SMARCD2 RKFSSFFK 248 3 SMARCD2 KFSSFFK 248 3 SMARCD2 KFSSFFK 248 1 SMARCD2 KRMEIQEAIK 176 1 SMARCD2 IHETIESINQLKTQR 451 1 SMARCD2 PLTQKR 191 1 SMARCD2 PLTQKR 191 1 SMARCD1 YDATKQKR 230 1 SMARCD1 TATTQETDGFQVKRPGDVNVR 273 1 SMARCD1 YFYSKVQQR 498 1 SMARCD1 YFYSKVQQR 498 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 2 SMARCD1 KLDQTIMR 156 1 SMARCD1 PIKQK 177 1 SMARCD1 PIKQK 177 1 SMARCD1 DLKTMTDVVGNPEEER 464 2 SMARCD1 MADKILPQR 131

TABLE 10C HEK-293T PHF10 Inter Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 BRD7- SMARCC1 1 BRD7:344- 10.06825 SMARCC1:592 −3 6.86144258 CW090817_092017_PHF10_(—) NP 10.06825 0.40064664 3.62E−12 //16 19//232 70B.19416.19416.6 −2 −5.758168 CW090817_092017_PHF10_(—) NP 8.3575 0.37143619 2.13E−09 //16 22//230 100B.18006.18006.6 −2 2.68149241 CW090817_092017_PHF10_(—) NP 8.279 0.3154746 2.16E−12 //16 25//232 70B.19432.19432.5 −3 3.04663972 CW090817_092017_PHF10_(—) P 5.613 0.21267406 3.53E−07 //16 18//230 100B.17982.17982.6 −2 −3.8138758 CW090817_092017_PHF10_(—) P 3.979 0.1481578 1.26E−04 //18 16//232 50B.21490.21490.5 2 BRD7:344- 7.19375 SMARCC1:590 −1 6.09930945 CW090817_092017_PHF10_(—) P 7.19375 0.30654749 1.81E−12 1//16 22//230 100B.18013.18013.6 3 BRD7- SMARCA4 1 BRD7:392- 5.6185 SMARCA4:437 0 0.24439758 CW090817_092017_PHF10_(—) P 5.6185 0.23917671 1.73E−02 //16 17//87 50B.14985.14985.4 −2 0.41559468 CW090817_092017_PHF10_(—) P 5.367 0.21372678 3.75E−02 //17 15//121 100B.15054.15054.5 0 1.98322817 CW090817_092017_PHF10_(—) NP 3.784 0.14735203 2.51E−01 //17 11//121 100B.15016.15016.5 2 BRD7:389- 7.781 SMARCA4:437 0 5.6073271 CW090817_092017_PHF10_(—) NP 7.781 0.35558094 9.33E−05 //17 13//120 100B.15776.15776.5 0 2.65747913 CW090817_092017_PHF10_(—) NP 6.07175 0.21354588 5.03E−03 //17 12//120 100B.16429.16429.5 0 0.38188213 CW090817_092017_PHF10_(—) P 5.31375 0.27595295 1.32E−01 //17 9//120 100B.15812.15812.5 0 1.82985771 CW090817_092017_PHF10_(—) N 4.31175 0.18616022 //17 9//120 100B.16413.16413.5 8 ACTL6A- SMARCA2 1 ACTL6A:379- 9.51575 SMARCA2:463 0 −1.8031677 CW090817_092017_PHF10_(—) NP 9.51575 0.38086614 2.39E−06 //12 24//68 70B.13054.13054.4 0 −0.534815 CW090817_092017_PHF10_(—) NP 8.5835 0.36796416 1.54E−11 //12 17//68 70B.13120.13120.4 −1 −4.5403126 CW090817_092017_PHF10_(—) NP 5.3345 0.26928999 8.04E−07 //12 10//83 70B.13450.13450.5 −1 −6.6814472 CW090817_092017_PHF10_(—) P 3.4255 0.15170505 9.42E−08 //12 9//68 70B.13454.13454.4 2 ACTL6A:379- 10.7735 SMARCA2:460 0 3.84426984 CW090817_092017_PHF10_(—) N 10.7735 0.39817056 //12 17//139 70B.19993.19993.5 0 4.15532161 CW090817_092017_PHF10_(—) NP 9.64425 0.32827578 1.88E−08 //15 15//124 100B.17579.17579.5 0 3.84426984 CW090817_092017_PHF10_(—) N 9.5795 0.38613003 //12 14//139 70B.19999.19999.5 −1 1.92955322 CW090817_092017_PHF10_(—) N 8.843 0.33757707 //12 16//136 100B.17635.17635.5 0 −2.9502411 CW090817_092017_PHF10_(—) P 7.6595 0.45215466 1.41E−10 //15 8//124 D.18572.18572.5 −1 0.26839843 CW090817_092017_PHF10_(—) N 7.54525 0.33841272 //12 13//102 100B.17665.17665.6 −1 −1.1782366 CW090817_092017_PHF10_(—) NP 6.98525 0.30051841 1.58E−12 //15 12//124 D.18624.18624.5 0 3.33987096 CW090817_092017_PHF10_(—) P 6.939 0.31156411 9.63E−13 //11 14//156 D.17506.17506.6 −3 3.06755646 CW090817_092017_PHF10_(—) P 6.36025 0.22633134 3.80E−03 //15 7//124 100B.16531.16531.5 −1 0.91021724 CW090817_092017_PHF10_(—) P 6.309 0.35142738 4.23E−06 //11 9//156 D.17524.17524.5 −3 0.26042057 CW090817_092017_PHF10_(—) P 6.23875 0.2240005 3.64E−03 //15 7//124 100B.16486.16486.5 −2 −1.5993069 CW090817_092017_PHF10_(—) NP 5.62875 0.17738123 8.65E−08 //15 11//124 100B.17927.17927.5 −1 4.73981691 CW090817_092017_PHF10_(—) P 5.4695 0.32328516 2.96E−02 //11 7//156 D.17513.17513.5 −1 6.01635014 CW090817_092017_PHF10_(—) P 5.1665 0.26752796 3.85E−05 //11 8//156 D.17511.17511.5 0 −0.8136183 CW090817_092017_PHF10_(—) NP 5.14575 0.23825674 1.29E−06 //15 12//124 100B.17619.17619.6 −2 1.58400309 CW090817_092017_PHF10_(—) N 4.97775 0.31090534 //11 10//115 D.17509.17509.7 −1 3.90969722 CW090817_092017_PHF10_(—) P 4.86825 0.20667587 2.92E−05 //15 8//124 1ug.18672.18672.5 0 3.12400855 CW090817_092017_PHF10_(—) P 4.46175 0.15761724 1.42E−03 //15 7//94 100B.17595.17595.4 −3 1.5377064 CW090817_092017_PHF10_(—) P 4.32875 0.23525815 1.66E−02 //11 10//156 D.17571.17571.6 0 1.08501674 CW090817_092017_PHF10_(—) P 3.64575 0.14595552 1.84E−06 //15 6//124 1ug.18701.18701.5 −2 −1.1209732 CW090817_092017_PHF10_(—) P 1.59525 0.09155738 8.04E−01 //15 8//124 D.17824.17824.5 9 SMARCC1- SMARCE1 1 SMARCC1:925- 15.73525 SMARCE1:258 0 0.00832441 CW090817_092017_PHF10_(—) NP 15.73525 0.55542711 2.87E−15 1//15 26//125 70B.13479.13479.5 −1 1.11283425 CW090817_092017_PHF10_(—) NP 10.578 0.55683942 2.22E−17 //15 16//125 D.13691.13691.5 −1 0.8169834 CW090817_092017_PHF10_(—) NP 8.263 0.40641369 2.61E−13 //15 12//125 D.13682.13682.5 3 SMARCC1:906- 12.62375 SMARCE1:240 0 2.96279582 CW090817_092017_PHF10_(—) NP 12.62375 0.55022229 1.36E−08 1//13 23//75 70B.16746.16746.4 0 2.30805509 CW090817_092017_PHF10_(—) NP 12.224 0.55687668 2.01E−09 1//13 23//75 100B.16424.16424.4 −1 1.10769707 CW090817_092017_PHF10_(—) P 8.39075 0.55876869 6.43E−07 //13 16//75 D.17306.17306.4 11 SMARCC1- SMARCD2 1 SMARCC1:716- 10.036 SMARCD2:480 −1 3.99294524 CW090817_092017_PHF10_(—) NP 10.036 0.57253694 3.59E−09 1//16 11//132 70B.20544.20544.5 −1 0.06750724 CW090817_092017_PHF10_(—) NP 8.75375 0.47267745 8.43E−10 //16 11//132 70B.20535.20535.5 −1 −3.8579308 CW090817_092017_PHF10_(—) NP 6.3665 0.47188971 1.36E−10 //16 9//132 100B.20650.20650.5 −4 11.8939332 CW090817_092017_PHF10_(—) P 6.33925 0.3855757 3.13E−07 //16 9//132 100B.20624.20624.5 12 SMARCC1- SMARCC2 1 SMARCC1:716- 4.258 SMARCC2:848 0 −1.1702726 CW090817_092017_PHF10_(—) P 4.258 0.2006503 6.59E−03 //17 17//93 50B.15350.15350.4 2 SMARCC1:716- 8.1185 SMARCC2:694 −1 −3.7917849 CW090817_092017_PHF10_(—) NP 8.1185 0.40342377 3.30E−06 //17 13//84 D.20159.20159.4 −1 5.84842256 CW090817_092017_PHF10_(—) NP 7.4215 0.34121839 4.95E−06 //17 12//84 D.20120.20120.4 −1 −0.8611618 CW090817_092017_PHF10_(—) NP 7.24775 0.39690863 8.41E−08 //17 12//84 D.20175.20175.4 3 SMARCC1:716- 7.343 SMARCC2:704 −2 1.00078221 CW090817_092017_PHF10_(—) N 7.343 0.31858906 2//15 18//111 70B.17525.17525.5 13 SMARCC1- SMARCD1 2 SMARCC1:882- 6.13725 SMARCD1:101 −1 −2.4171317 CW090817_092017_PHF10_(—) P 6.13725 0.42138419 1.76E−06 //16 14//162 100B.10235.10235.5 14 ACTB- ACTL6A 1 ACTB:191- 8.37375 ACTL6A:242 −1 3.08287814 CW090817_092017_PHF10_(—) N 8.37375 0.53514939 //15 15//74 100B.21597.21597.4 −3 1.23114912 CW090817_092017_PHF10_(—) N 6.90025 0.28629367 //15 18//74 50B.24281.24281.4 0 1.20324423 CW090817_092017_PHF10_(—) N 6.28375 0.36824602 //15 13//97 70B.21513.21513.5 −1 4.00067864 CW090817_092017_PHF10_(—) N 5.0045 0.22032182 //15 14//74 50B.24269.24269.4 −1 9.57035663 CW090817_092017_PHF10_(—) N 4.8465 0.1995512 //15 14//74 50B.24439.24439.4 −1 1.67934345 CW090817_092017_PHF10_(—) N 3.7875 0.36848762 //15 9//74 1ug.24145.24145.4 2 ACTB:191- 6.5905 ACTL6A:240 −1 0.9209971 CW090817_092017_PHF10_(—) N 6.5905 0.41872359 //15 14//97 100B.21675.21675.5 18 BCL7A- SMARCA4 1 BCL7A:15- 3.9405 SMARCA4:499 0 0.93908221 CW090817_092017_PHF10_(—) N 3.9405 0.20354348 //7 5//32 100B.07612.07612.4 2 BCL7A:15- 2.47625 SMARCA4:496 0 −3.186497 CW090817_092017_PHF10_(—) NP 2.47625 0.16825208 2.48E−03 //10 7//42 100B.07536.07536.4 21 BCL7A- SMARCA2 1 BCL7A:1- 11.46075 SMARCA2:862 0 7.56033714 CW090817_092017_PHF10_(—) P 11.46075 0.47820871 1.29E−01 //13 20//146 100B.14709.14709.5 2 BCL7A:15- 2.71725 SMARCA2:475 0 3.35188223 CW090817_092017_PHF10_(—) N 2.71725 0.14433496 //7 6//32 100B.07448.07448.4 23 ARID2- SMARCC1 1 ARID2:275- 11.688 SMARCC1:716 0 −2.2221029 CW090817_092017_PHF10_(—) NP 11.688 0.45493646 6.13E−12 //17 18//85 50B.18741.18741.4 0 4.09287979 CW090817_092017_PHF10_(—) NP 8.8775 0.34269446 3.59E−07 //17 18//85 50B.18731.18731.4 0 18.9554137 CW090817_092017_PHF10_(—) N 6.319 0.36530235 //17 12//85 D.18677.18677.4 0 −9.0422841 CW090817_092017_PHF10_(—) NP 5.53975 0.29998105 3.99E−07 //17 13//85 1ug.18778.18778.4 24 ARID2- SMARCD2 1 ARID2:275- 5.18475 SMARCD2:451 −2 −0.8814543 CW090817_092017_PHF10_(—) NP 5.18475 0.27734093 2.99E−03 //16 11//114 70B.15886.15886.5 2 ARID2:275- 13.287 SMARCD2:480 0 −0.3581517 CW090817_092017_PHF10_(—) NP 13.287 0.52334719 4.10E−20 1//16 20//135 70B.18853.18853.5 0 0.35091118 CW090817_092017_PHF10_(—) NP 13.28325 0.52908667 6.77E−16 2//16 21//104 70B.18837.18837.4 0 2.7374984 CW090817_092017_PHF10_(—) NP 13.07025 0.48322427 2.21E−16 2//16 18//104 70B.18996.18996.4 0 0.63625962 CW090817_092017_PHF10_(—) NP 12.787 0.5534779 7.09E−17 1//16 22//135 100B.18909.18909.5 0 −3.6267342 CW090817_092017_PHF10_(—) NP 12.45975 0.38685265 1.69E−12 3//16 20//104 50B.19952.19952.4 −4 2.06459591 CW090817_092017_PHF10_(—) P 11.964 0.43257706 9.86E−15 1//16 19//135 50B.19842.19842.5 0 3.0267817 CW090817_092017_PHF10_(—) NP 11.9175 0.51253656 3.87E−16 1//16 13//104 100B.18838.18838.4 0 6.74883889 CW090817_092017_PHF10_(—) NP 11.65 0.39507596 4.54E−07 2//17 25//97 50B.21100.21100.4 0 −1.171761 CW090817_092017_PHF10_(—) NP 11.495 0.58145123 3.99E−14 1//16 18//135 1ug.19830.19830.5 0 2.1589318 CW090817_092017_PHF10_(—) NP 11.4805 0.41342864 8.81E−14 1//16 15//104 50B.19820.19820.4 −1 5.91474006 CW090817_092017_PHF10_(—) NP 10.783 0.69186103 1.54E−09 1//17 22//97 D.20828.20828.4 −2 1.97172745 CW090817_092017_PHF10_(—) NP 10.6155 0.30788306 3.59E−08 2//17 23//97 50B.21067.21067.4 0 2.08267612 CW090817_092017_PHF10_(—) NP 10.168 0.44472631 3.32E−11 2//16 20//135 70B.19015.19015.5 0 5.96992045 CW090817_092017_PHF10_(—) NP 10.059 0.43782372 1.59E−12 2//16 16//135 100B.18827.18827.5 −3 −2.8312051 CW090817_092017_PHF10_(—) NP 9.84 0.31527346 1.75E−10 2//16 20//104 50B.19963.19963.4 0 6.44553022 CW090817_092017_PHF10_(—) NP 9.78425 0.42820412 1.40E−06 1//17 21//97 1ug.20966.20966.4 −1 1.43572355 CW090817_092017_PHF10_(—) P 9.399 0.46199219 3.21E−08 //16 8//104 1ug.19828.19828.4 −1 −2.7808994 CW090817_092017_PHF10_(—) NP 9.06275 0.36172867 5.10E−10 1//16 18//135 50B.19975.19975.5 −3 5.68725857 CW090817_092017_PHF10_(—) NP 9.00275 0.53001001 6.10E−08 1//17 16//97 100B.19947.19947.4 0 −1.171761 CW090817_092017_PHF10_(—) NP 8.734 0.43896065 2.68E−16 1//16 13//135 1ug.19833.19833.5 0 3.43869158 CW090817_092017_PHF10_(—) NP 8.589 0.38405473 3.10E−12 //16 15//135 D.19775.19775.5 −1 0.00022114 CW090817_092017_PHF10_(—) NP 8.53875 0.50628502 4.75E−11 //17 14//97 100B.19950.19950.4 0 −3.9427915 CW090817_092017_PHF10_(—) NP 8.4695 0.54246461 4.69E−12 1//17 15//97 70B.19897.19897.4 −2 −0.1411892 CW090817_092017_PHF10_(—) NP 8.3525 0.43114128 2.48E−09 1//16 13//135 100B.18969.18969.5 −3 3.0267817 CW090817_092017_PHF10_(—) NP 8.25775 0.3597051 1.31E−07 1//16 11//104 D.19790.19790.4 0 −5.535162 CW090817_092017_PHF10_(—) NP 8.1525 0.3238782 2.05E−08 1//17 17//97 1ug.20947.20947.4 −1 −0.8824777 CW090817_092017_PHF10_(—) NP 7.9045 0.41256296 1.20E−11 1//16 13//135 1ug.20007.20007.5 0 0.00022114 CW090817_092017_PHF10_(—) NP 7.77225 0.52327813 1.26E−07 //17 15//97 D.20816.20816.4 −1 4.32855654 CW090817_092017_PHF10_(—) P 6.78875 0.39717712 2.46E−06 //16 8//104 D.19762.19762.4 −1 −4.13298 CW090817_092017_PHF10_(—) P 6.5755 0.2570965 1.27E−06 1//16 10//104 70B.19253.19253.4 −2 −1.9492099 CW090817_092017_PHF10_(—) NP 6.4775 0.36727809 2.70E−06 1//16 13//135 1ug.20017.20017.5 −1 −2.350421 CW090817_092017_PHF10_(—) NP 6.32425 0.36659131 5.05E−04 1//17 12//97 D.20973.20973.4 −1 11.0602452 CW090817_092017_PHF10_(—) N 5.74275 0.22131764 1//16 15//135 50B.20026.20026.5 −2 1.72500685 CW090817_092017_PHF10_(—) NP 5.26125 0.35292638 6.41E−08 1//16 8//104 1ug.20263.20263.4 −1 −5.362434 CW090817_092017_PHF10_(—) NP 4.933 0.14528266 2.28E−07 //16 10//104 50B.20229.20229.4 −2 6.20889799 CW090817_092017_PHF10_(—) P 4.8245 0.19903463 2.17E−06 1//16 8//104 1ug.20027.20027.4 −1 −5.8686798 CW090817_092017_PHF10_(—) P 4.8005 0.28407847 2.83E−04 //16 5//104 1ug.20259.20259.4 −2 −4.0284336 CW090817_092017_PHF10_(—) NP 4.458 0.28242897 2.32E−02 1//16 10//135 1ug.20264.20264.5 25 ARID2- SMARCB1 1 ARID2:90- 9.1765 SMARCB1:364 0 1.20771226 CW090817_092017_PHF10_(—) N 9.1765 0.46709254 //17 21//96 70B.16896.16896.4 2 ARID2:119- 13.577 SMARCB1:199 −2 1.57160355 CW090817_092017_PHF10_(—) N 13.577 0.42932583 // 35//241 100B.17308.17308.6 27 ARID2- PBRM 1 ARID2:581- 5.229 PBRM:1642 0 1.51893641 CW090817_092017_PHF10_(—) N 5.229 0.26203959 //13 7//73 100B.10080.10080.5 −1 4.85738991 CW090817_092017_PHF10_(—) N 4.7785 0.23330241 //13 7//73 100B.10112.10112.5 28 ARID2- SMARCD3 1 ARID2:275- 9.9465 SMARCD3:432 0 0.68096001 CW090817_092017_PHF10_(—) N 9.9465 0.30089848 2//17 26//97 50B.15435.15435.4 0 0.07014746 CW090817_092017_PHF10_(—) N 9.535 0.26964354 3//17 23//97 50B.15473.15473.4 −2 4.85082869 CW090817_092017_PHF10_(—) N 9.4755 0.29667956 1//16 16//104 50B.14443.14443.4 0 3.28930822 CW090817_092017_PHF10_(—) N 6.5365 0.62993302 //17 11//97 D.15319.15319.4 0 1.38791115 CW090817_092017_PHF10_(—) N 6.4825 0.21459192 //16 12//104 50B.14453.14453.4 −1 3.1083047 CW090817_092017_PHF10_(—) N 6.155 0.22568521 //17 12//97 1ug.15358.15358.4 −2 2.40566704 CW090817_092017_PHF10_(—) N 4.95675 0.40645757 //17 9//97 D.15304.15304.4 −1 1.8529869 CW090817_092017_PHF10_(—) N 4.8015 0.4996358 //17 10//97 D.15332.15332.4 29 ARID2- PHF10 1 ARID2:43- 4.73 PHF10:239 −2 9.92176724 CW090817_092017_PHF10_(—) N 4.73 0.18611789 //14 13//140 100B.18556.18556.5 0 7.07876568 CW090817_092017_PHF10_(—) P 4.57325 0.20446874 2.11E−01 //14 8//140 100B.18535.18535.5 0 −1.9053036 CW090817_092017_PHF10_(—) P 3.47325 0.16022373 2.23E−02 //14 9//140 100B.18520.18520.5 2 ARID2:581- 5.01175 PHF10:487 0 −1.0835749 CW090817_092017_PHF10_(—) P 5.01175 0.28435461 6.72E−06 //12 12//54 100B.07938.07938.4 30 ARID2- SMARCC2 1 ARID2:275- 3.831 SMARCC2:694 −1 14.4469949 CW090817_092017_PHF10_(—) N 3.831 0.14361493 //17 14//85 50B.17914.17914.4 31 ARID2- SMARCD1 1 ARID2:275- 12.47925 SMARCD1:464 0 4.47902037 CW090817_092017_PHF10_(—) N 12.47925 0.39552002 1//17 24//97 50B.15835.15835.4 −1 0.6035921 CW090817_092017_PHF10_(—) N 8.57575 0.36173915 //17 18//97 1ug.15929.15929.4 −1 5.21901979 CW090817_092017_PHF10_(—) N 8.4455 0.31518352 4//17 23//97 1ug.15917.15917.4 0 1.49668277 CW090817_092017_PHF10_(—) N 7.4485 0.24475076 1//17 17//97 50B.16013.16013.4 0 2.13411569 CW090817_092017_PHF10_(—) N 4.18075 0.2041332 //17 10//97 1ug.15965.15965.4 0 0.01614672 CW090817_092017_PHF10_(—) N 3.83475 0.11841313 2//17 12//97 50B.16039.16039.4 2 ARID2:1760- 13.0095 SMARCD1:101 −1 0.25987897 CW090817_092017_PHF10_(—) NP 13.0095 0.37846919 2.98E−07 //16 27//160 50B.12737.12737.5 −1 0.25987897 CW090817_092017_PHF10_(—) NP 10.6685 0.32504608 3.16E−07 //16 24//160 50B.12734.12734.5 0 1.70422931 CW090817_092017_PHF10_(—) P 5.5395 0.33257287 2.93E−04 //16 16//160 1ug.12717.12717.5 32 PBRM- SMARCC1 5 PBRM:1642- 7.202 SMARCC1:716 −2 5.52198899 CW090817_092017_PHF10_(—) NP 7.202 0.27851577 4.68E−05 //17 13//109 70B.15937.15937.5 −2 1.84088551 CW090817_092017_PHF10_(—) P 5.7975 0.25205426 1.23E−01 //17 13//109 70B.15960.15960.5 33 PBRM- SMARCA4 2 PBRM:1642- 7.6765 SMARCA4:207 −2 3.91210114 CW090817_092017_PHF10_(—) N 7.6765 0.27807864 //18 15//125 100B.11978.11978.5 0 0.44927032 CW090817_092017_PHF10_(—) N 5.42975 0.25612632 //18 10//97 100B.11989.11989.6 34 PBRM- PHF10 2 PBRM:135- 4.14025 PHF10:120 −1 13.4497259 CW090817_092017_PHF10_(—) N 4.14025 0.14793476 //13 9//106 50B.20323.20323.4 3 PBRM:471- 6.845 PHF10:487 0 1.426484 CW090817_092017_PHF10_(—) P 6.845 0.39651277 9.15E−07 1//13 16//61 70B.10809.10809.4 −1 6.63974579 CW090817_092017_PHF10_(—) P 5.721 0.26264806 2.80E−06 //13 12//61 70B.10923.10923.4 0 −0.0993487 CW090817_092017_PHF10_(—) P 5.607 0.27235634 1.92E−06 //13 11//61 70B.10909.10909.4 6 PBRM:317- 5.564 PHF10:487 0 1.87510876 CW090817_092017_PHF10_(—) NP 5.564 0.30524468 2.96E−02 //17 15//120 100B.07297.07297.5 0 2.58477223 CW090817_092017_PHF10_(—) NP 5.45075 0.35945331 1.44E−04 //17 13//120 D.05653.05653.5 0 2.58477223 CW090817_092017_PHF10_(—) NP 4.856 0.31203213 2.57E−03 //17 14//120 D.05650.05650.5 35 PBRM- SMARCD2 1 PBRM:1074- 3.687 SMARCD2:176 0 18.8289074 CW090817_092017_PHF10_(—) N 3.687 0.20954817 //15 8//75 50B.13792.13792.6 36 PBRM- SMARCC2 1 PBRM:1642- 2.81375 SMARCC2:848 0 −2.007621 CW090817_092017_PHF10_(—) NP 2.81375 0.11447315 4.82E−02 //13 9//66 70B.07949.07949.4 2 PBRM:1642- 8.47975 SMARCC2:694 0 −0.306681 CW090817_092017_PHF10_(—) NP 8.47975 0.32417425 5.25E−09 //17 14//109 70B.15121.15121.5 0 1.33597592 CW090817_092017_PHF10_(—) NP 5.47875 0.19718728 8.02E−06 //17 12//109 70B.15077.15077.5 3 PBRM:1642- 5.8955 SMARCC2:704 −2 5.33838091 CW090817_092017_PHF10_(—) N 5.8955 0.20289082 //15 17//113 100B.13080.13080.5 45 PHF10- SMARCC1 3 PHF10:168- 6.8325 SMARCC1:317 0 −7.853998 CW090817_092017_PHF10_(—) NP 6.8325 0.35175556 7.24E−05 1//15 15//78 100B.10952.10952.4 4 PHF10:347- 2.97725 SMARCC1:925 −4 22.6275085 CW090817_092017_PHF10_(—) P 2.97725 0.28302201 3.00E−03 //9 4//47 100B.08446.08446.4 48 PHF10- SMARCB1 1 PHF10:168- 7.588 SMARCB1:45 0 7.5647221 CW090817_092017_PHF10_(—) P 7.588 0.36127312 3.49E−03 //15 18//78 100B.13063.13063.4 2 PHF10:106- 2.951 SMARCB1:45 0 2.16340241 CW090817_092017_PHF10_(—) N 2.951 0.15565577 //8 5//41 100B.10008.10008.4 3 PHF10:239- 5.80825 SMARCB1:292 0 5.30330865 CW090817_092017_PHF10_(—) N 5.80825 0.28557205 //14 9//155 100B.16232.16232.5 49 PHF10- SMARCA2 1 PHF10:487- 2.91275 SMARCA2:437 0 3.76343662 CW090817_092017_PHF10_(—) P 2.91275 0.22154402 3.49E−04 //10 9//41 100B.04172.04172.4 3 PHF10:106- 3.35025 SMARCA2:500 0 5.09181583 CW090817_092017_PHF10_(—) N 3.35025 0.20720205 //8 5//36 70B.09895.09895.4 50 SMARCC2- SMARCE1 1 SMARCC2:718- 3.256 SMARCE1:228 −1 2.85241662 CW090817_092017_PHF10_(—) N 3.256 0.15306146 3//8 11//29 50B.06646.06646.4 51 SMARCC2- SMARCD3 1 SMARCC2:694- 10.3595 SMARCD3:417 −1 −0.90598 CW090817_092017_PHF10_(—) NP 10.3595 0.38854196 2.89E−11 1//17 21//84 50B.21519.21519.4 −1 3.39963286 CW090817_092017_PHF10_(—) NP 8.98425 0.31803218 6.06E−12 1//17 18//84 50B.21545.21545.4 0 −1.4027814 CW090817_092017_PHF10_(—) NP 8.65025 0.3191091 2.10E−13 1//17 19//84 50B.21531.21531.4 −1 −7.0331982 CW090817_092017_PHF10_(—) NP 5.5715 0.20891689 8.73E−06 1//17 15//84 50B.21491.21491.4 52 SMARCC2- SMARCD2 1 SMARCC2:694- 8.427 SMARCD2:480 −1 2.78350276 CW090817_092017_PHF10_(—) NP 8.427 0.43336505 2.72E−13 //16 11//132 70B.19940.19940.5 −2 −4.3223481 CW090817_092017_PHF10_(—) NP 6.746 0.40155957 6.05E−10 //16 9//132 70B.19903.19903.5 −1 3.70525228 CW090817_092017_PHF10_(—) NP 6.57775 0.27417002 1.78E−06 //16 12//132 50B.21051.21051.5 −1 6.80568248 CW090817_092017_PHF10_(—) P 5.461 0.30388693 1.47E−04 //16 9//132 70B.19889.19889.5 −1 2.28073029 CW090817_092017_PHF10_(—) NP 4.974 0.24398499 1.31E−07 //16 10//132 70B.19981.19981.5 0 −5.529002 CW090817_092017_PHF10_(—) P 3.555 0.22755641 1.59E−01 //16 8//132 1ug.21028.21028.5 53 SMARCD1- SMARCE1 1 SMARCD1:101- 6.7255 SMARCE1:240 −3 6.02272449 CW090817_092017_PHF10_(—) NP 6.7255 0.38607922 3.11E−08 //16 10//159 70B.14859.14859.5 2 SMARCD1:223- 4.605 SMARCE1:258 −2 −1.431177 CW090817_092017_PHF10_(—) NP 4.605 0.1902028 2.61E−06 //15 9//121 50B.17212.17212.5 Total counted inter crosslinks are: 170 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 5.69425 0.69642857 R.RK[1680.92]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 5.40125 0.73214286 R.RK[1923.06]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 3.98425 0.83928571 R.RK[1680.92]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 3.87875 0.51785714 R.RK[1923.06]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 2.5565 0.53703704 R.K[1680.92]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 4.4255 0.625 R.RK[1923.06]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 5.5435 1.57142857 R.DTALETALNAK[812.44]AYK.R P51532:437 1 SMARCA4 4.70225 1 R.LQSGVNTLQGFKEDK[1930.05]R.N Q9NPI1:392 1 BRD7 2.3105 0.53125 R.LQSGVNTLQGFKEDK[1930.05]R.N Q9NPI1:392 1 BRD7 4.72875 1.15625 R.LQSGVNTLQGFK[1930.05]EDKR.N Q9NPI1:389 1 BRD7 3.01125 0.84375 R.LQSGVNTLQGFK[1930.05]EDKR.N Q9NPI1:389 1 BRD7 3.389 0.6875 R.LQSGVNTLQGFK[1930.05]EDKR.N Q9NPI1:389 1 BRD7 1.833 0.53333333 R.LQSGVNTLQGFK[1930.06]EDKR.N Q9NPI1:389 1 BRD7 7.95625 3.04166667 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 7.1105 2.33333333 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 4.183 1.33333333 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 2.87375 1.04166667 R.LK[1259.63]LIANNTTVER.R O96019:379 1 ACTL6A 3.9545 1 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.97]DFK.E P51531:460 P51532:484 2 SMARCA2 2.1765 0.78125 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 2.58725 0.8125 R.Q[111.03]K[284.17]HQEYLNSILQHAK[1636.97]DFK.E P51531:460 P51532:484 2 SMARCA2 1.82775 0.90625 R.Q[111.03]KHQEYLNSILQHAK[1636.96]DFK.E P51531:460 P51532:484 2 SMARCA2 0.72125 0.375 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 2.33125 0.875 R.Q[111.03]KHQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 2.16825 0.75 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 1.47325 0.5 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.23025 0.4375 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 1.192 0.325 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.472 0.4375 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 1.7905 0.5625 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 0.567 0.175 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.6415 0.2 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 2.497 0.75 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 2.61775 0.55263158 K.HQEYLNSILQHAK[1636.96]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 1.33275 0.46875 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 0.72225 0.34375 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 0.85525 0.3 K.HQEYLNSILQHAK[1636.95]DFKEYHR.S P51531:460 P51532:484 2 SMARCA2 0.63675 0.25 K.HQEYLNSILQHAK[1636.95]DFK.E P51531:460 P51532:484 2 SMARCA2 1.156 0.375 K.HQEYLNSILQHAK[1793.05]DFK.E P51531:460 P51532:484 2 SMARCA2 10.95325 2.66666667 R.K[1395.74]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 6.08275 1.4 R.K[1395.74]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 4.932 0.93333333 R.K[1395.74]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 10.94225 2.91666667 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 10.57225 2.91666667 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 7.73725 2.04166667 R.K[895.57]LEAELLQIEER.H Q969G3:240 1 SMARCE1 5.1865 0.85294118 R.DLK[1785.96]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.781 0.82352941 R.DLK[1785.96]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.3975 0.67647059 R.DLK[1785.96]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.80725 0.67647059 R.DLK[1785.96]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.0985 1.46666667 R.VASAAAK[897.53]AALEEFSR.V Q92922:716 1 SMARCC1 3.6365 1.06666667 R.VASAAAK[1773.95]AALEEFSR.V Q92922:716 1 SMARCC1 3.3915 1 R.VASAAAK[1773.95]AALEEFSR.V Q92922:716 1 SMARCC1 4.63825 1.23333333 R.VASAAAK[1773.95]AALEEFSR.V Q92922:716 1 SMARCC1 2.827 1.17857143 K.M[147.04]K[1785.96]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 5.64525 1.02631579 R.K[1388.78]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 7.3995 2 R.DLTDYLM[147.04]K[1363.81]ILTER.G P60709:191 Q562R1:192 2 ACTB 4.45575 1.95833333 R.DLTDYLM[147.04]K[1235.72]ILTER.G P60709:191 Q562R1:192 2 ACTB 4.85825 1.54166667 R.DLTDYLM[147.04]K[1363.82]ILTER.G P60709:191 Q562R1:192 2 ACTB 3.3135 1.45833333 R.DLTDYLM[147.04]K[1235.74]ILTER.G P60709:191 Q562R1:192 2 ACTB 3.1335 1.41666667 R.DLTDYLM[147.04]K[1235.7]ILTER.G P60709:191 Q562R1:192 2 ACTB 2.203 0.91666667 R.DLTDYLM[147.04]K[1235.73]ILTER.G P60709:191 Q562R1:192 2 ACTB 5.317 1.83333333 R.DLTDYLM[147.04]K[1363.82]ILTER.G P60709:191 Q562R1:192 2 ACTB 1.8865 1.33333333 R.AK[995.64]DDIKR.V Q4VC05:15 1 BCL7A 1.42075 0.875 R.SVTGK[1110.64]IQK.L P51532:496 1 SMARCA4 10.87475 1.80555556 K.NHHC[160.03]K[715.37]LTQVLNTHYVAPR.R P51531:862 P51532:892 2 SMARCA2 1.5645 1.41666667 R.AK[981.62]DDIKR.V Q4VC05:15 1 BCL7A 6.08225 1.6 R.VASAAAK[1507.84]AALEEFSR.V Q92922:716 1 SMARCC1 5.19775 1.6 R.VASAAAK[1507.84]AALEEFSR.V Q92922:716 1 SMARCC1 4.09925 1.21428571 R.VASAAAK[1507.78]AALEEFSR.V Q92922:716 1 SMARCC1 2.32025 0.86666667 R.VASAAAK[1507.84]AALEEFSR.V Q92922:716 1 SMARCC1 2.28625 0.8 K.IHETIESINQLK[1507.84]TQR.D Q92925:451 1 SMARCD2 6.739 1.67647059 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.0925 1.41176471 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.5545 1.29411765 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 7.457 1.88235294 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.4355 1.52941177 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.4745 1.47058824 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.33275 0.91176471 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 8.84975 2.28125 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 6.641 1.44117647 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 2.366 0.82352941 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 8.127 1.90625 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 6.58475 1.8125 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 6.7535 1.44117647 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.41375 1.20588235 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.06725 1.5 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 7.06925 1.6875 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 1.7425 0.44117647 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.05675 1.47058824 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.489 1.375 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 5.9455 1.02941177 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 5.78575 1.05882353 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 5.931 1.1875 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 5.8575 1.15625 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 5.64625 0.97058824 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 2.0935 0.52941177 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.2405 1.4375 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 4.8615 0.97058824 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 6.034 1.15625 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 1.36275 0.38235294 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 1.758 0.47058824 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.4385 0.97058824 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.9275 0.875 R.DLK[1507.84]IITDVIGNPEEER.R Q92925:480 1 SMARCD2 4.48425 1.0625 R.DLK[1507.8]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 2.0205 0.55882353 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 2.5435 0.76470588 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 1.56425 0.44117647 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 1.26575 0.29411765 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.306 0.64705882 R.DLK[1507.84]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 8.011 2.10714286 R.SC[160.03]SNAAFALK[681.46]QYYLR.Y Q68CP9:90 1 ARID2 11.9045 1.1125 K.VHHFGEDDDEVPPGNPK[1598.84]PQLPIGAIPSSYNYQQHSVSDYLR.Q Q68CP9:119 1 ARID2 1.5 0.7 R.DVHLSK[1463.83]EQESR.L Q86U86:1642 1 PBRM 1.66725 0.85 R.DVHLSK[1463.81]EQESR.L Q86U86:1642 1 PBRM 6.32975 1.96666667 R.DLK[1507.83]VM[147.04]TDVAGNPEEER.R Q6STE5:432 1 SMARCD3 6.37025 2.03333333 R.DLK[1507.84]VM[147.04]TDVAGNPEEER.R Q6STE5:432 1 SMARCD3 2.11475 0.875 R.DLK[1507.82]VM[147.04]TDVAGNPEEERR.A Q6STE5:432 1 SMARCD3 3.8805 0.93333333 R.DLK[1507.85]VM[147.04]TDVAGNPEEER.R Q6STE5:432 1 SMARCD3 2.00075 0.71875 R.DLK[1507.83]VM[147.04]TDVAGNPEEERR.A Q6STE5:432 1 SMARCD3 3.8305 1 R.DLK[1507.83]VM[147.04]TDVAGNPEEER.R Q6STE5:432 1 SMARCD3 2.77575 0.6 R.DLK[1507.83]VM[147.04]TDVAGNPEEER.R Q6STE5:432 1 SMARCD3 3.18375 0.76666667 R.DLK[1507.84]VM[147.04]TDVAGNPEEER.R Q6STE5:432 1 SMARCD3 1.77225 0.64705882 R.AYFDLQTHVIQVPQGK[2104.13]YK.V Q8WUB8:239 1 PHF10 0.9945 0.27777778 R.AYFDLQTHVIQVPQGK[2104.17]YK.V Q8WUB8:239 1 PHF10 1.447 0.36111111 R.AYFDLQTHVIQVPQGK[2104.17]YK.V Q8WUB8:239 1 PHF10 4.73125 1.55 R.TVFPNHTVK[724.46]R.V Q68CP9:581 1 ARID2 1.32675 0.96428571 R.VASAAAK[1507.79]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 8.04375 2.03333333 R.DLK[1507.82]TM[147.04]TDVVGNPEEER.R Q96GM5:464 1 SMARCD1 5.3305 1.5 R.DLK[1507.84]TM[147.04]TDVVGNPEEER.R Q96GM5:464 1 SMARCD1 5.26025 1.73333333 R.DLK[1507.82]TM[147.04]TDVVGNPEEER.R Q96GM5:464 1 SMARCD1 4.6255 1.4 R.DLK[1507.84]TM[147.04]TDVVGNPEEER.R Q96GM5:464 1 SMARCD1 2.48225 0.76666667 R.DLK[1507.83]TM[147.04]TDVVGNPEEER.R Q96GM5:464 1 SMARCD1 1.8385 0.93333333 R.DLK[1507.84]TM[147.04]TDVVGNPEEER.R Q96GM5:464 1 SMARCD1 11.2545 1.94736842 R.K[1644.82]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 8.87225 1.63157895 R.K[1644.82]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 4.91325 0.97368421 R.K[1644.82]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 5.6365 1.36666667 R.VASAAAK[1592.82]AALEEFSR.V Q92922:716 1 SMARCC1 4.971 1.16666667 R.VASAAAK[1592.82]AALEEFSR.V Q92922:716 1 SMARCC1 4.291 1 R.GQPLPDHLQM[147.04]AVQGK[1592.83]R.P P51532:207 1 SMARCA4 2.72575 0.7 R.GQPLPDHLQM[147.04]AVQGK[1592.82]R.P P51532:207 1 SMARCA4 2.44325 0.58823529 K.PDSPEYK[1068.59]AAC[160.03]KLWDLYLR.T Q86U86:135 1 PBRM 6.3795 1.77272727 R.YNVPNSAIYK[724.46]R.V Q86U86:471 1 PBRM 5.331 1.40909091 R.YNVPNSAIYK[724.46]R.V Q86U86:471 1 PBRM 5.2195 1.31818182 R.YNVPNSAIYK[724.46]R.V Q86U86:471 1 PBRM 4.43325 1.16666667 R.LTGPSHSK[724.46]GSLGEER.N Q86U86:317 1 PBRM 3.915 1 R.LTGPSHSK[724.46]GSLGEER.N Q86U86:317 1 PBRM 3.83825 1.03333333 R.LTGPSHSK[724.46]GSLGEER.N Q86U86:317 1 PBRM 1.9885 1 K.KIK[1510.8]LWTM[147.04]PISSVR.F Q86U86:1074 1 PBRM 1.80825 1 R.DVHLSK[897.53]EQESR.L Q86U86:1642 1 PBRM 5.9605 1.5 R.VASAAAK[1592.82]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 3.777 1.13333333 R.VASAAAK[1592.82]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.2855 1.25 K.M[147.04]K[1592.83]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 5.95675 1.46153846 K.HAEYSVILQEK[982.56]ER.Q Q8WUB8:168 1 PHF10 0.69325 0.33333333 R.EK[1238.7]EALEQQR.Q Q92922:925 1 SMARCC1 6.89925 1.76923077 K.HAEYSVILQEK[988.57]ER.Q Q8WUB8:168 1 PHF10 1.19425 0.71428571 K.RK[988.58]YPDLER.R Q8WUB8:106 1 PHF10 3.693 0.55555556 R.RAYFDLQTHVIQVPQGK[1427.75]YK.V Q8WUB8:239 1 PHF10 2.30225 1.375 K.QQK[724.46]IEQER.K P51531:437 P51532:461 2 SMARCA2 2.425 1.14285714 R.K[939.53]YPDLER.R Q8WUB8:106 1 PHF10 1.1675 2.2 R.M[147.04]QVLK[1039.59]R.Q Q969G3:228 1 SMARCE1 6.65125 2.03333333 R.VASAAAK[1568.86]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 5.841 1.43333333 R.VASAAAK[1568.86]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.88025 1.46666667 R.VASAAAK[1568.86]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.1655 1.3 R.VASAAAK[1568.86]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 5.34175 0.88235294 R.DLK[1773.95]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.02625 0.58823529 R.DLK[1773.95]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 5.01125 0.91176471 R.DLK[1773.95]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.14875 0.58823529 R.DLK[1773.95]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.95525 0.67647059 R.DLK[1773.95]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 3.28475 0.55882353 R.DLK[1773.95]IITDVIGNPEEERR.A Q92925:480 1 SMARCD2 4.36 0.71052632 R.K[1735.97]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.822 0.83333333 R.K[1818.96]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 realpep1 position1 immonium2 ion2 dot2 connective2 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //12 11//78 4.374 1.54166667 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //16 10//101 2.95625 0.85714286 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //12 13//78 4.29475 1.45833333 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //16 7//101 1.73425 0.5 KPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //12 8//78 1.4225 0.5 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //14 11//101 2.76825 0.96428571 DTALETALNAKAYK 437 //6 1//16 0.075 0.125 LQSGVNTLQGFKEDKR 392 //17 7//107 0.66475 0.3 LQSGVNTLQGFKEDKR 392 //17 8//107 1.4735 0.56666667 LQSGVNTLQGFKEDKR 389 //17 14//107 3.05225 1.06666667 LQSGVNTLQGFKEDKR 389 //17 12//110 3.0605 0.93333333 LQSGVNTLQGFKEDKR 389 //17 6//107 1.92475 0.43333333 LQSGVNTLQGFKEDKR 389 //17 10//110 2.47875 0.92857143 LKLIANNTTVER 379 1//9 9//32 1.5595 1.21428571 LKLIANNTTVER 379 1//9 7//32 1.473 1.07142857 LKLIANNTTVER 379 //9 6//39 1.1515 1 LKLIANNTTVER 379 //9 3//32 0.55175 0.35714286 QKHQEYLNSILQHAKDFK 460 //12 13//76 6.819 1.77272727 HQEYLNSILQHAKDFK 460 //12 17//76 7.46775 2.08333333 QKHQEYLNSILQHAKDFK 460 //12 16//76 6.99225 2 QKHQEYLNSILQHAKDFK 460 //12 13//76 7.01525 1.86363636 HQEYLNSILQHAKDFK 460 //12 13//76 6.93825 1.70833333 QKHQEYLNSILQHAKDFK 460 //12 10//61 5.214 1.45454546 HQEYLNSILQHAKDFK 460 //12 10//76 4.817 1.16666667 HQEYLNSILQHAKDFKEYHR 460 //12 14//76 5.46575 1.70833333 HQEYLNSILQHAKDFK 460 //12 10//76 5.13 1.5 HQEYLNSILQHAKDFKEYHR 460 //12 14//76 5.117 1.29166667 HQEYLNSILQHAKDFK 460 //12 11//76 4.76675 1.54166667 HQEYLNSILQHAKDFK 460 //12 10//76 3.83825 1.08333333 HQEYLNSILQHAKDFKEYHR 460 //12 12//76 4.9025 1.29166667 HQEYLNSILQHAKDFKEYHR 460 //12 11//76 4.525 1.25 HQEYLNSILQHAKDFK 460 //12 6//76 2.64875 0.70833333 HQEYLNSILQHAKDFKEYHR 460 //12 6//61 2.36 0.77272727 HQEYLNSILQHAKDFK 460 //12 10//76 3.5355 1.04166667 HQEYLNSILQHAKDFK 460 //12 11//61 3.7395 1.08333333 HQEYLNSILQHAKDFKEYHR 460 //12 8//76 3.4735 1 HQEYLNSILQHAKDFK 460 //12 9//76 3.009 0.83333333 HQEYLNSILQHAKDFK 460 //13 3//87 0.43925 0.11538462 KFLESTDSFNNELKR 258 3//9 14//51 4.782 1.94444444 KFLESTDSFNNELKR 258 2//9 10//51 4.49525 1.5 KFLESTDSFNNELKR 258 1//9 8//51 3.331 1.05555556 KLEAELLQIEER 240 //6 5//26 1.6815 1.6 KLEAELLQIEER 240 1//6 6//26 1.65175 1.7 KLEAELLQIEER 240 //6 3//26 0.6535 0.5 DLKIITDVIGNPEEERR 480 //17 14//109 4.8495 1.3 DLKIITDVIGNPEEERR 480 //17 15//109 3.97275 1.23333333 DLKIITDVIGNPEEERR 480 //17 7//109 1.969 0.56666667 DLKIITDVIGNPEEERR 480 //17 10//109 2.532 0.76666667 VASAAAKAALEEFSR 716 //5 2//22 0.1595 0.2 VASAAAKAALEEFSR 716 //17 16//84 4.482 1.56666667 VASAAAKAALEEFSR 716 //17 16//84 4.03 1.4 VASAAAKAALEEFSR 716 //17 12//84 2.6095 0.8 MKEEVPTALVEAHVR 704 //17 10//109 4.516 1.14285714 KRPAPQQIQQVQQQAVQNR 101 //10 4//57 0.492 0.3 DLTDYLMKILTER 191 //11 6//42 0.97425 0.625 DLTDYLMKILTER 191 1//8 8//35 2.4445 1.57142857 DLTDYLMKILTER 191 1//11 7//52 1.4255 1.125 DLTDYLMKILTER 191 //8 5//35 1.691 0.92857143 DLTDYLMKILTER 191 //8 6//35 1.713 1.42857143 DLTDYLMKILTER 191 //8 5//35 1.5845 0.85714286 DLTDYLMKILTER 191 //10 6//58 1.2735 0.72222222 AKDDIKR 15 //8 8//30 2.054 1.5 SVTGKIQK 496 //7 5//33 1.0555 1.14285714 NHHCKLTQVLNTHYVAPR 862 //5 3//23 0.586 1 AKDDIKR 15 //8 6//29 1.15275 1.3 VASAAAKAALEEFSR 716 //12 14//61 5.60575 2.04545455 VASAAAKAALEEFSR 716 //12 13//61 3.67975 1.40909091 VASAAAKAALEEFSR 716 //12 9//61 2.21975 1 VASAAAKAALEEFSR 716 //12 10//61 3.2195 1.36363636 IHETIESINQLKTQR 451 //12 7//72 2.8985 1.09090909 DLKIITDVIGNPEEERR 480 4//12 23//72 6.548 2.63636364 DLKIITDVIGNPEEERR 480 //12 22//58 9.19075 2.81818182 DLKIITDVIGNPEEERR 480 1//12 23//58 8.51575 3.04545455 DLKIITDVIGNPEEERR 480 4//12 18//72 5.33 1.95454546 DLKIITDVIGNPEEERR 480 1//12 24//58 8.02425 3.36363636 DLKIITDVIGNPEEERR 480 2//12 16//72 5.4895 2 DLKIITDVIGNPEEERR 480 //12 19//58 8.58475 2.40909091 DLKIITDVIGNPEEER 480 //12 8//58 2.80025 0.81818182 DLKIITDVIGNPEEERR 480 2//12 14//72 4.854 1.54545455 DLKIITDVIGNPEEERR 480 //12 21//58 9.1145 2.77272727 DLKIITDVIGNPEEER 480 1//12 9//58 2.656 0.86363636 DLKIITDVIGNPEEER 480 1//12 11//58 4.03075 1.36363636 DLKIITDVIGNPEEERR 480 3//12 14//72 3.4145 1.45454546 DLKIITDVIGNPEEERR 480 2//12 12//72 3.64525 1.22727273 DLKIITDVIGNPEEERR 480 //12 17//58 5.77275 2 DLKIITDVIGNPEEER 480 //12 8//58 2.715 0.81818182 DLKIITDVIGNPEEERR 480 //12 15//58 7.6565 2 DLKIITDVIGNPEEERR 480 2//12 13//72 3.006 1.5 DLKIITDVIGNPEEER 480 //12 7//58 2.51375 0.77272727 DLKIITDVIGNPEEERR 480 1//12 10//72 2.7885 0.77272727 DLKIITDVIGNPEEERR 480 //12 10//72 2.80325 0.77272727 DLKIITDVIGNPEEER 480 //12 8//58 2.60775 0.81818182 DLKIITDVIGNPEEER 480 //12 9//58 2.612 0.86363636 DLKIITDVIGNPEEERR 480 1//12 11//72 2.70625 1 DLKIITDVIGNPEEERR 480 //12 16//58 6.16425 1.72727273 DLKIITDVIGNPEEER 480 //12 7//58 1.912 0.63636364 DLKIITDVIGNPEEERR 480 1//12 10//72 3.043 1.04545455 DLKIITDVIGNPEEER 480 //12 6//58 1.73825 0.63636364 DLKIITDVIGNPEEERR 480 //12 13//58 5.426 1.54545455 DLKIITDVIGNPEEERR 480 //12 13//58 4.8175 1.81818182 DLKIITDVIGNPEEERR 480 //12 9//72 2.039 1 DLKIITDVIGNPEEER 480 //12 6//58 1.39675 0.63636364 DLKIITDVIGNPEEERR 480 2//12 11//72 1.2585 0.77272727 DLKIITDVIGNPEEERR 480 //12 10//58 3.24075 1.13636364 DLKIITDVIGNPEEERR 480 //12 10//58 2.3895 0.86363636 DLKIITDVIGNPEEERR 480 //12 11//58 3.26025 1.18181818 DLKIITDVIGNPEEERR 480 //12 11//58 3.53475 1.18181818 DLKIITDVIGNPEEERR 480 //12 6//72 1.152 0.63636364 SCSNAAFALKQYYLR 90 //4 4//14 1.1655 1.5 VHHFGEDDDEVPPGNPKPQLPIGAIPSSYNYQQHSVSDYLR 119 //13 7//56 1.6725 1 DVHLSKEQESR 1642 //12 10//65 3.729 1.44444444 DVHLSKEQESR 1642 //12 9//65 3.11125 1.05555556 DLKVMTDVAGNPEEER 432 2//12 13//58 3.61675 1.36363636 DLKVMTDVAGNPEEER 432 //12 10//58 3.16475 1.04545455 DLKVMTDVAGNPEEERR 432 //12 17//58 7.36075 2.09090909 DLKVMTDVAGNPEEER 432 //12 8//58 2.656 0.95454546 DLKVMTDVAGNPEEERR 432 //12 13//58 4.48175 1.36363636 DLKVMTDVAGNPEEER 432 //12 7//58 2.3245 0.77272727 DLKVMTDVAGNPEEER 432 //12 7//58 2.181 0.77272727 DLKVMTDVAGNPEEER 432 //12 6//58 1.61775 0.59090909 AYFDLQTHVIQVPQGKYK 239 //18 14//130 2.95775 0.90625 AYFDLQTHVIQVPQGKYK 239 //18 16//130 3.57875 1 AYFDLQTHVIQVPQGKYK 239 //18 14//130 2.02625 0.79411765 TVFPNHTVKR 581 //5 3//21 0.2805 1 VASAAAKSALEEFSK 694 //12 13//61 2.50425 1.59090909 DLKTMTDVVGNPEEER 464 //12 13//58 4.4355 1.81818182 DLKTMTDVVGNPEEER 464 //12 11//58 3.24525 1.31818182 DLKTMTDVVGNPEEER 464 //12 10//58 3.18525 1.04545455 DLKTMTDVVGNPEEER 464 //12 12//58 2.823 1.13636364 DLKTMTDVVGNPEEER 464 //12 7//58 1.6985 0.77272727 DLKTMTDVVGNPEEER 464 //12 7//58 1.99625 0.77272727 KRPAPQQIQQVQQQAVQNR 101 //14 8//83 1.755 0.70833333 KRPAPQQIQQVQQQAVQNR 101 //14 10//83 1.79625 0.79166667 KRPAPQQIQQVQQQAVQNR 101 //14 5//83 0.62625 0.41666667 VASAAAKAALEEFSR 716 1//13 9//73 1.5655 0.77272727 VASAAAKAALEEFSR 716 //13 5//73 0.8265 0.40909091 GQPLPDHLQMAVQGKR 207 //13 13//73 3.3855 1.6 GQPLPDHLQMAVQGKR 207 //13 8//57 2.704 1.2 PDSPEYKAACKLWDLYLR 135 //6 4//25 1.697 1.2 YNVPNSAIYKR 471 //5 3//21 0.4655 1 YNVPNSAIYKR 471 //5 3//21 0.39 1 YNVPNSAIYKR 471 //5 3//21 0.3875 1 LTGPSHSKGSLGEER 317 //5 4//26 1.13075 1.125 LTGPSHSKGSLGEER 317 //5 5//26 1.53575 1.625 LTGPSHSKGSLGEER 317 //5 4//26 1.01775 1.125 KIKLWTMPISSVR 1074 //11 7//56 1.6985 1.05 DVHLSKEQESR 1642 //5 4//23 1.0055 0.9 VASAAAKSALEEFSK 694 1//13 9//73 2.51925 1 VASAAAKSALEEFSK 694 1//13 9//73 1.70175 1 MKEEVPTALVEAHVR 704 //13 9//73 1.61 1.25 HAEYSVILQEKER 168 //8 5//33 0.87575 0.71428571 EKEALEQQR 925 //9 5//45 2.284 0.88888889 HAEYSVILQEKER 168 //8 7//25 0.68875 1.16666667 RKYPDLER 106 1//8 6//29 1.75675 1.1 RAYFDLQTHVIQVPQGKYK 239 //12 9//63 2.11525 1.05555556 QQKIEQER 437 //5 4//21 0.6105 1.125 KYPDLER 106 2//7 5//23 0.92525 1.375 MQVLKR 228 //8 6//36 2.0885 1.42857143 VASAAAKSALEEFSK 694 1//13 10//57 3.70825 1.36363636 VASAAAKSALEEFSK 694 //13 9//57 3.14325 1.04545455 VASAAAKSALEEFSK 694 1//13 11//57 3.77 1.18181818 VASAAAKSALEEFSK 694 //13 8//57 1.406 0.72727273 DLKIITDVIGNPEEERR 480 //17 16//109 3.08525 1.3 DLKIITDVIGNPEEERR 480 //17 12//109 2.71975 0.96666667 DLKIITDVIGNPEEERR 480 //17 9//109 1.5665 0.76666667 DLKIITDVIGNPEEERR 480 //17 6//109 1.31225 0.43333333 DLKIITDVIGNPEEERR 480 //17 8//109 1.01875 0.5 DLKIITDVIGNPEEERR 480 //17 2//109 0.27025 0.06666667 KRPAPQQIQQVQQQAVQNR 101 //13 7//87 2.3655 0.70833333 KFLESTDSFNNELKR 258 1//16 12//102 1.783 0.57142857 peptide2 protein2 K.EK[3309.75]PVDLQNFGLR.T Q92922:592 K.NKEK[3309.75]PVDLQNFGLR.T Q92922:592 K.EK[3309.75]PVDLQNFGLR.T Q92922:592 K.NKEK[3309.75]PVDLQNFGLR.T Q92922:592 K.EK[3153.65]PVDLQNFGLR.T Q92922:592 K.NK[3309.75]EKPVDLQNFGLR.T Q92922:590 K.EDK[1773.95]R.N Q9NPI1:392 R.RDTALETALNAK[2085.12]AYK.R P51532:437 R.RDTALETALNAK[2085.12]AYK.R P51532:437 R.RDTALETALNAK[2085.12]AYK.R P51532:437 R.DTALETALNAK[2085.12]AYKR.S P51532:437 R.RDTALETALNAK[2085.12]AYK.R P51532:437 R.DTALETALNAK[2085.13]AYKR.S P51532:437 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 K.DFK[1636.95]EYHR.S P51531:463 P51532:487 R.LK[2631.38]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2631.38]LIANNTTVER.R O96019:379 R.LK[2475.3]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2475.29]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2821.44]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2821.43]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVER.R O96019:379 R.LK[2236.16]LIANNTTVERR.F O96019:379 R.EK[2093.08]EALEQQR.Q Q92922:925 R.EK[2093.08]EALEQQR.Q Q92922:925 R.EK[2093.08]EALEQQR.Q Q92922:925 K.K[1735.97]LEIK.L Q92922:906 Q8TAQ2:898 K.K[1735.97]LEIK.L Q92922:906 Q8TAQ2:898 K.K[1735.97]LEIK.L Q92922:906 Q8TAQ2:898 R.VASAAAK[2262.22]AALEEFSR.V Q92922:716 R.VASAAAK[2262.22]AALEEFSR.V Q92922:716 R.VASAAAK[2262.22]AALEEFSR.V Q92922:716 R.VASAAAK[2262.22]AALEEFSR.V Q92922:716 K.TK[1785.96]VER.D Q8TAQ2:848 R.VASAAAK[1785.96]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1785.96]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1785.96]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[1990.05]AALEEFSR.V Q92922:716 K.AK[2510.38]HLAAVEER.K Q92922:882 Q8TAQ2:874 R.KEK[1891.99]LPQVTR.S O96019:242 K.EK[1891.99]LPQVTR.S O96019:242 R.KEK[1892]LPQVTR.S O96019:242 K.EK[1892.01]LPQVTR.S O96019:242 K.EK[1891.97]LPQVTR.S O96019:242 K.EK[1892]LPQVTR.S O96019:242 R.K[1892]EKLPQVTR.S O96019:240 K.IQK[1110.64]LTK.A P51532:499 R.AK[1125.68]DDIKR.V Q4VC05:15 -.M[2456.22]SGR.G Q4VC05:1 Q92925:1 K.IQK[1110.63]LSK.A P51531:475 R.K[1785.96]LGINDIEGQR.V Q68CP9:275 R.K[1785.96]LGINDIEGQR.V Q68CP9:275 R.K[1785.91]LGINDIEGQR.V Q68CP9:275 R.K[1785.96]LGINDIEGQR.V Q68CP9:275 R.K[2075.14]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2106.12]LGINDIEGQR.V Q68CP9:275 R.K[2262.18]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 R.K[2262.22]LGINDIEGQR.V Q68CP9:275 K.K[2057.04]IR.D Q12824:364 R.LDM[147.04]EIDGQK[4868.36]LR.D Q12824:199 R.TVFPNHTVK[1592.82]R.V Q68CP9:581 R.TVFPNHTVK[1592.8]R.V Q68CP9:581 R.K[2084.01]LGINDIEGQR.V Q68CP9:275 R.K[2084.01]LGINDIEGQR.V Q68CP9:275 R.K[2240.09]LGINDIEGQR.V Q68CP9:275 R.K[2084.02]LGINDIEGQR.V Q68CP9:275 R.K[2240.11]LGINDIEGQR.V Q68CP9:275 R.K[2084]LGINDIEGQR.V Q68CP9:275 R.K[2084]LGINDIEGQR.V Q68CP9:275 R.K[2084.02]LGINDIEGQR.V Q68CP9:275 K.IPAVGGK[2400.24]ELDLHGLYTR.V Q68CP9:43 K.IPAVGGK[2400.28]ELDLHGLYTR.V Q68CP9:43 K.IPAVGGK[2400.28]ELDLHGLYTR.V Q68CP9:43 R.K[1463.82]VGR.R Q8WUB8:487 R.K[1773.91]LGINDIEGQR.V Q68CP9:275 R.K[2114.01]LGINDIEGQR.V Q68CP9:275 R.K[2114.02]LGINDIEGQR.V Q68CP9:275 R.K[2114]LGINDIEGQR.V Q68CP9:275 R.K[2114.02]LGINDIEGQR.V Q68CP9:275 R.K[2114.01]LGINDIEGQR.V Q68CP9:275 R.K[2114.02]LGINDIEGQR.V Q68CP9:275 R.DFTDEK[2510.38]EGPITK.H Q68CP9:1760 R.DFTDEK[2510.38]EGPITK.H Q68CP9:1760 R.DFTDEK[2510.38]EGPITK.H Q68CP9:1760 R.DVHLSK[1785.96]EQESR.L Q86U86:1642 R.DVHLSK[1785.96]EQESR.L Q86U86:1642 R.DVHLSK[2056.1]EQESR.L Q86U86:1642 R.DVHLSK[2056.09]EQESR.L Q86U86:1642 K.E[111.03]K[2490.22]LYLR.E Q8WUB8:120 R.K[1589.86]VGR.R Q8WUB8:487 R.K[1589.86]VGR.R Q8WUB8:487 R.K[1589.86]VGR.R Q8WUB8:487 R.K[1819.94]VGR.R Q8WUB8:487 R.K[1819.94]VGR.R Q8WUB8:487 R.K[1819.94]VGR.R Q8WUB8:487 R.K[1840.01]RMEIQEAIK.K Q92925:176 K.TK[1592.82]VER.D Q8TAQ2:848 R.DVHLSK[1773.95]EQESR.L Q86U86:1642 R.DVHLSK[1773.95]EQESR.L Q86U86:1642 R.DVHLSK[1990.07]EQESR.L Q86U86:1642 R.K[1866.98]ASANAR.K Q92922:317 K.SK[1395.74]DKAATPR.K Q8WUB8:347 R.GSLYK[1866.98]R.Y Q12824:45 R.GSLYK[1341.74]R.Y Q12824:45 K.ENSPEK[2556.37]FALK.L Q12824:292 R.K[1323.71]VGR.R Q8WUB8:487 R.IEK[1185.63]ER.M P51531:500 P51532:524 R.K[1055.61]VEEAAK.V Q8TAQ2:718 R.DPK[1773.95]GYVQDLLR.S Q6STE5:417 R.DPK[1773.95]GYVQDLLR.S Q6STE5:417 R.DPK[1773.95]GYVQDLLR.S Q6STE5:417 R.DPK[1773.95]GYVQDLLR.S Q6STE5:417 R.VASAAAK[2262.22]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2262.22]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2262.22]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2262.22]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2262.22]SALEEFSK.M Q8TAQ2:694 R.VASAAAK[2262.22]SALEEFSK.M Q8TAQ2:694 R.K[2510.38]LEAELLQIEER.H Q969G3:240 R.LLEDSALSK[2093.08]YDATK.Q Q96GM5:223 Unique_(—) protein2 subunit2 realpep2 position2 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 NKEKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 NKEKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 NKEKPVDLQNFGLR 590 1 BRD7 EDKR 392 1 SMARCA4 RDTALETALNAKAYK 437 1 SMARCA4 RDTALETALNAKAYK 437 1 SMARCA4 RDTALETALNAKAYK 437 1 SMARCA4 DTALETALNAKAYKR 437 1 SMARCA4 RDTALETALNAKAYK 437 1 SMARCA4 DTALETALNAKAYKR 437 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 2 SMARCA2 DFKEYHR 463 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVERR 379 1 SMARCC1 EKEALEQQR 925 1 SMARCC1 EKEALEQQR 925 1 SMARCC1 EKEALEQQR 925 2 SMARCC1 KLEIK 906 2 SMARCC1 KLEIK 906 2 SMARCC1 KLEIK 906 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC2 TKVER 848 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC1 VASAAAKAALEEFSR 716 2 SMARCC1 AKHLAAVEER 882 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A EKLPQVTR 242 1 ACTL6A KEKLPQVTR 240 1 SMARCA4 IQKLTK 499 1 BCL7A AKDDIKR 15 2 BCL7A MSGR 1 1 SMARCA2 IQKLSK 475 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 SMARCB1 KIR 364 1 SMARCB1 LDMEIDGQKLR 199 1 ARID2 TVFPNHTVKR 581 1 ARID2 TVFPNHTVKR 581 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 IPAVGGKELDLHGLYTR 43 1 ARID2 IPAVGGKELDLHGLYTR 43 1 ARID2 IPAVGGKELDLHGLYTR 43 1 PHF10 KVGR 487 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 KLGINDIEGQR 275 1 ARID2 DFTDEKEGPITK 1760 1 ARID2 DFTDEKEGPITK 1760 1 ARID2 DFTDEKEGPITK 1760 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PHF10 EKLYLR 120 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 SMARCD2 KRMEIQEAIK 176 1 SMARCC2 TKVER 848 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 PBRM DVHLSKEQESR 1642 1 SMARCC1 KASANAR 317 1 PHF10 SKDKAATPR 347 1 SMARCB1 GSLYKR 45 1 SMARCB1 GSLYKR 45 1 SMARCB1 ENSPEKFALK 292 1 PHF10 KVGR 487 2 SMARCA2 IEKER 500 1 SMARCC2 KVEEAAK 718 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCD3 DPKGYVQDLLR 417 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCE1 KLEAELLQIEER 240 1 SMARCD1 LLEDSALSKYDATK 223

TABLE 10D HEK-293T PHF10 Intra Crosslinks Protein- index protein Crosslinkingsites Xcorr Da ppm spectrum engine xcorr Xcorr_norm expect immonium1 ion1 1 SMARCA2 1 SMARCA2:493- 3.682 SMARCA2:500 0 0.39864276 CW090817_092017_PHF10_(—) N 3.682 0.18940816 2//7 7//23 100B.04952.04952.4 2 SMARCA2:1375- 4.33375 SMARCA2:1460 0 1.50304838 CW090817_092017_PHF10_(—) P 4.33375 0.33990196 2.50E−04 //16 14//108 D.07513.07513.5 0 −4.1018515 CW090817_092017_PHF10_(—) P 3.7325 0.29078373 2.69E−03 //16 12//108 D.07502.07502.5 0 3.99834024 CW090817_092017_PHF10_(—) P 2.647 0.22808151 6.07E−04 //16 11//84 D.07561.07561.4 3 SMARCA2:492- 2.248 SMARCA2:500 0 0.98994869 CW090817_092017_PHF10_(—) N 2.248 0.12569544 //7 5//23 100B.04901.04901.4 2 SMARCD3 1 SMARCD3:189- 6.31 SMARCD3:353 −1 1.64058652 CW090817_092017_PHF10_(—) NP 6.31 0.20061998 1.47E−05 //15 18//216 50B.22500.22500.5 3 ARID2 1 ARID2:15- 9.57625 ARID2:43 0 −3.1169504 CW090817_092017_PHF10_(—) NP 9.57625 0.42616038 7.95E−14 //18 27//131 70B.20626.20626.5 −1 5.85328958 CW090817_092017_PHF10_(—) NP 6.29675 0.34672779 1.03E−04 //18 12//131 70B.20569.20569.5 0 −2.8250771 CW090817_092017_PHF10_(—) NP 6.1655 0.31977905 1.37E−07 //18 15//131 70B.20670.20670.5 2 ARID2:1716- 8.576 ARID2:1731 −2 4.19618767 CW090817_092017_PHF10_(—) N 8.576 0.31142987 //18 15//112 50B.12745.12745.5 0 4.80739172 CW090817_092017_PHF10_(—) N 7.44725 0.28047793 //18 14//112 50B.12750.12750.5 0 1.23761694 CW090817_092017_PHF10_(—) N 7.332 0.28281036 //18 11//112 50B.12705.12705.5 0 0.71947047 CW090817_092017_PHF10_(—) N 5.46025 0.22842889 1//18 13//112 50B.12693.12693.5 3 ARID2:1760- 6.735 ARID2:581 0 −0.8049037 CW090817_092017_PHF10_(—) NP 6.735 0.27697812 8.67E−04 //14 14//64 70B.12524.12524.4 0 7.28996982 CW090817_092017_PHF10_(—) P 5.67475 0.28137396 5.50E−03 //14 11//64 70B.12655.12655.4 −3 0.35946213 CW090817_092017_PHF10_(—) P 3.06425 0.14333661 7.83E−02 //14 11//83 70B.12530.12530.5 4 ARID2:1251- 4.89675 ARID2:1262 0 3.63372777 CW090817_092017_PHF10_(—) N 4.89675 0.26885277 //12 7//78 100B.09487.09487.5 −2 3.00531725 CW090817_092017_PHF10_(—) N 3.6285 0.21143257 //12 7//77 100B.09453.09453.5 −1 5.28906933 CW090817_092017_PHF10_(—) N 3.23575 0.19470771 //12 7//78 100B.09446.09446.5 5 ARID2:119- 14.898 ARID2:99 −2 1.39384091 CW090817_092017_PHF10_(—) N 14.898 0.39288493 1//9 5//32 100B.17167.17167.6 6 ARID2:119- 4.74575 ARID2:62 −2 −2.3574229 CW090817_092017_PHF10_(—) P 4.74575 0.25391921 5.67E−05 // 18//342 100B.18236.18236.6 4 BRD7 1 BRD7:307- 7.10275 BRD7:344 −1 6.92767876 CW090817_092017_PHF10_(—) P 7.10275 0.27425863 2.11E−06 //16 25//236 100B.16316.16316.5 −2 7.45231384 CW090817_092017_PHF10_(—) P 2.31025 0.0868858 3.91E−01 //16 11//236 100B.16335.16335.5 2 BRD7:307- 2.72075 BRD7:323 0 −4.0492246 CW090817_092017_PHF10_(—) P 2.72075 0.26538724 7.47E−02 //8 6//42 D.08229.08229.4 −1 0.68155997 CW090817_092017_PHF10_(—) P 1.264 0.15128666 1.80E−01 //8 3//42 D.08205.08205.4 5 SMARCC2 1 SMARCC2:823- 7.53575 SMARCC2:828 −2 1.02933428 CW090817_092017_PHF10_(—) N 7.53575 0.39937199 //15 12//69 D.19080.19080.4 −1 1.49592135 CW090817_092017_PHF10_(—) N 5.86225 0.24778621 //15 11//69 50B.19213.19213.4 −2 −0.0608186 CW090817_092017_PHF10_(—) NP 2.4405 0.15426675 2.83E−05 //15 7//71 D.12233.12233.4 −1 −1.1742853 CW090817_092017_PHF10_(—) P 2.17925 0.15282258 2.08E−04 //15 7//71 D.12224.12224.4 2 SMARCC2:773- 6.2785 SMARCC2:789 0 3.19281295 CW090817_092017_PHF10_(—) P 6.2785 0.2795912 1.23E−01 //18 18//146 100B.10312.10312.5 0 4.82035127 CW090817_092017_PHF10_(—) NP 4.60925 0.28923507 1.97E−07 1//8 9//40 D.04980.04980.4 −1 0.15243102 CW090817_092017_PHF10_(—) NP 4.34975 0.304072 1.14E−07 //8 8//40 D.04954.04954.4 3 SMARCC2:789- 3.3675 SMARCC2:808 −2 9.200191 CW090817_092017_PHF10_(—) NP 3.3675 0.42430542 2.34E−01 //12 5//57 D.05201.05201.4 0 −0.732453 CW090817_092017_PHF10_(—) P 2.04 0.31199817 9.96E−02 //12 3//57 D.05180.05180.4 4 SMARCC2:789- 4.9595 SMARCC2:802 0 0.41750694 CW090817_092017_PHF10_(—) NP 4.9595 0.45764511 1.61E−07 //8 7//40 D.04697.04697.4 0 −0.6893165 CW090817_092017_PHF10_(—) P 3.2815 0.33608152 9.57E−04 //8 7//40 D.04688.04688.4 5 SMARCC2:789- 7.74525 SMARCC2:796 0 3.22476911 CW090817_092017_PHF10_(—) NP 7.74525 0.35048759 8.66E−05 //18 20//148 70B.10707.10707.5 0 0.11109814 CW090817_092017_PHF10_(—) P 7.0855 0.2379601 1.45E−04 //18 20//148 70B.11263.11263.5 0 4.63496521 CW090817_092017_PHF10_(—) NP 6.83375 0.28059496 5.68E−05 //18 17//147 100B.09739.09739.5 −1 −0.3446215 CW090817_092017_PHF10_(—) P 4.5545 0.24127884 1.87E−02 //18 11//147 100B.06610.06610.5 0 0.54338943 CW090817_092017_PHF10_(—) NP 4.116 0.21063405 1.26E−05 //8 6//38 50B.04351.04351.4 0 −0.2588239 CW090817_092017_PHF10_(—) P 3.134 0.26670071 1.54E−03 //8 6//38 D.04332.04332.4 0 −2.3191248 CW090817_092017_PHF10_(—) P 3.125 0.21885286 4.19E−09 //8 7//40 D.03741.03741.4 0 4.0048824 CW090817_092017_PHF10_(—) N 2.6165 0.29722822 //8 5//40 D.07635.07635.4 0 −3.107119 CW090817_092017_PHF10_(—) P 1.95025 0.15887337 2.41E−03 //8 6//40 D.03728.03728.4 6 SMARCC2:789- 3.41825 SMARCC2:800 0 −0.4148054 CW090817_092017_PHF10_(—) P 3.41825 0.25833207 2.02E−02 //8 7//40 70B.04210.04210.4 7 SMARCC2:825- 9.23175 SMARCC2:836 0 0.46300269 CW090817_092017_PHF10_(—) P 9.23175 0.46379051 6.49E−04 //17 19//102 D.15701.15701.4 0 3.16334062 CW090817_092017_PHF10_(—) NP 6.2185 0.34741194 8.48E−05 //17 14//102 D.15606.15606.4 8 SMARCC2:275- 7.019 SMARCC2:6 0 −0.233827 CW090817_092017_PHF10_(—) P 7.019 0.36075348 5.86E−06 //16 20//143 100B.09922.09922.5 0 2.55365859 CW090817_092017_PHF10_(—) P 5.9645 0.2181642 4.02E−04 //16 15//143 100B.09946.09946.6 −1 −0.0160274 CW090817_092017_PHF10_(—) P 5.2095 0.27859779 7.78E−02 //16 14//143 100B.09887.09887.5 0 1.13667954 CW090817_092017_PHF10_(—) NP 5.133 0.39156305 5.02E−04 //16 12//110 100B.09940.09940.4 0 −5.6745076 CW090817_092017_PHF10_(—) P 4.6795 0.38105126 1.07E−02 //16 14//110 100B.09930.09930.4 9 SMARCC2:564- 4.13975 SMARCC2:568 −1 3.86815362 CW090817_092017_PHF10_(—) N 4.13975 0.16691194 //12 7//62 50B.14529.14529.4 10 SMARCC2:787- 10.809 SMARCC2:796 0 0.0714574 CW090817_092017_PHF10_(—) NP 10.809 0.4399536 8.23E−03 //15 20//71 70B.07636.07636.4 0 −6.3338086 CW090817_092017_PHF10_(—) NP 10.6135 0.41655056 2.38E−04 //15 17//71 70B.07640.07640.4 −1 5.89944662 CW090817_092017_PHF10_(—) P 7.1545 0.36563179 8.88E−05 //15 14//75 70B.06540.06540.4 0 3.44717418 CW090817_092017_PHF10_(—) NP 6.599 0.21715809 5.74E−04 //15 13//90 70B.07648.07648.5 0 −3.6990711 CW090817_092017_PHF10_(—) P 5.70375 0.23311536 1.29E−02 //18 16//146 100B.06638.06638.5 0 2.38883449 CW090817_092017_PHF10_(—) P 4.5725 0.34474309 1.20E−02 //15 9//79 D.07219.07219.4 0 −5.1724766 CW090817_092017_PHF10_(—) P 4.49875 0.30534157 8.89E−03 //15 8//79 D.07216.07216.4 0 −0.1113069 CW090817_092017_PHF10_(—) P 4.01525 0.22030946 1.48E−01 //18 13//149 D.07193.07193.5 11 SMARCC2:787- 8.72725 SMARCC2:795 0 −2.5974034 CW090817_092017_PHF10_(—) NP 8.72725 0.34579115 1.34E−02 //15 17//71 70B.07295.07295.4 0 1.89033869 CW090817_092017_PHF10_(—) NP 6 0.2461387 6.66E−04 //15 11//90 70B.07302.07302.5 12 SMARCC2:718- 22.1715 SMARCC2:728 −2 −0.1134511 CW090817_092017_PHF10_(—) NP 22.1715 0.58661745 5.37E−10 //17 43//309 50B.14343.14343.5 0 −0.6040442 CW090817_092017_PHF10_(—) NP 19.60075 0.68878483 8.81E−09 //17 34//309 1ug.14409.14409.5 −1 4.31803216 CW090817_092017_PHF10_(—) NP 19.21175 0.57298051 5.69E−12 //17 40//223 50B.14351.14351.4 0 −0.137084 CW090817_092017_PHF10_(—) NP 18.604 0.62187458 4.06E−12 //17 40//223 50B.14347.14347.4 −2 1.24188055 CW090817_092017_PHF10_(—) NP 15.83575 0.65158311 1.69E−06 //17 30//223 50B.14327.14327.4 −1 −1.0917517 CW090817_092017_PHF10_(—) NP 11.0115 0.44905491 4.51E−06 //17 27//223 50B.14321.14321.4 −1 2.75924825 CW090817_092017_PHF10_(—) NP 7.90125 0.34254222 6.26E−08 //17 23//165 50B.13881.13881.4 −2 5.19875065 CW090817_092017_PHF10_(—) P 6.7325 0.58571491 4.21E−01 //17 19//165 D.13838.13838.4 13 SMARCC2:718- 6.6565 SMARCC2:836 0 −1.6235149 CW090817_092017_PHF10_(—) NP 6.6565 0.44752588 5.75E−07 //17 16//100 D.15545.15545.4 14 SMARCC2:718- 6.25625 SMARCC2:874 0 1.54276563 CW090817_092017_PHF10_(—) NP 6.25625 0.33824881 1.16E−11 //10 15//53 70B.07592.07592.4 −1 4.30330058 CW090817_092017_PHF10_(—) NP 6.2435 0.32763959 2.07E−06 //10 13//53 70B.07641.07641.4 0 −2.1779554 CW090817_092017_PHF10_(—) NP 5.317 0.34907921 1.40E−08 //10 12//53 100B.07537.07537.4 15 SMARCC2:718- 3.7965 SMARCC2:848 0 8.29002879 CW090817_092017_PHF10_(—) P 3.7965 0.19883209 1.05E−04 //8 7//36 100B.04705.04705.4 0 9.67805756 CW090817_092017_PHF10_(—) P 3.003 0.13147698 2.29E−03 //8 7//36 100B.04714.04714.4 16 SMARCC2:718- 2.30425 SMARCC2:770 −1 9.39289287 CW090817_092017_PHF10_(—) P 2.30425 0.18158714 2.31E−03 //15 8//78 70B.05457.05457.4 17 SMARCC2:808- 2.80875 SMARCC2:823 0 4.15514915 CW090817_092017_PHF10_(—) P 2.80875 0.13398288 5.19E−05 //18 6//121 70B.08692.08692.5 0 −0.9287035 CW090817_092017_PHF10_(—) P 2.2715 0.10007269 3.93E−03 //18 7//121 100B.09163.09163.5 −2 2.40404434 CW090817_092017_PHF10_(—) P 1.13875 0.05550546 6.12E−02 //18 8//121 100B.08973.08973.5 18 SMARCC2:802- 2.4865 SMARCC2:812 0 0.15818011 CW090817_092017_PHF10_(—) P 2.4865 0.30425207 7.50E−04 //17 7//89 D.08966.08966.4 −1 4.9849129 CW090817_092017_PHF10_(—) P 2.441 0.28350755 2.57E−02 //17 7//89 D.08947.08947.4 0 −2.2551863 CW090817_092017_PHF10_(—) P 2.0885 0.20713081 1.03E−02 //17 6//89 D.08949.08949.4 19 SMARCC2:836- 10.532 SMARCC2:846 0 0.02850159 CW090817_092017_PHF10_(—) N 10.532 0.46874513 //7 7//29 D.17174.17174.4 0 3.36670949 CW090817_092017_PHF10_(—) N 7.1805 0.40060812 //7 6//29 100B.16294.16294.4 0 9.09061894 CW090817_092017_PHF10_(—) N 6.90625 0.3667003 //7 3//29 100B.16287.16287.4 0 3.30972859 CW090817_092017_PHF10_(—) N 6.8515 0.41540607 //7 4//29 D.17144.17144.4 −1 4.20918535 CW090817_092017_PHF10_(—) P 6.72125 0.27679969 4.10E−02 //17 22//132 100B.13897.13897.5 −1 2.97453792 CW090817_092017_PHF10_(—) N 6.69225 0.41174209 //7 5//29 D.17129.17129.4 −1 5.40892436 CW090817_092017_PHF10_(—) N 6.43875 0.32607044 //7 5//29 100B.16328.16328.4 0 7.19340819 CW090817_092017_PHF10_(—) N 5.67 0.33274648 //7 5//29 D.17247.17247.4 0 1.33121952 CW090817_092017_PHF10_(—) N 4.713 0.2512595 //7 3//29 D.16347.16347.4 20 SMARCC2:836- 7.83 SMARCC2:848 0 1.12179217 CW090817_092017_PHF10_(—) P 7.83 0.36214791 1.76E−05 //17 22//100 70B.14337.14337.4 0 −5.1482313 CW090817_092017_PHF10_(—) P 7.26125 0.43324881 3.19E−02 //17 21//100 D.14629.14629.4 0 −4.2939971 CW090817_092017_PHF10_(—) P 7.124 0.31283346 1.16E−02 //17 21//132 70B.14324.14324.5 −1 2.23837169 CW090817_092017_PHF10_(—) P 6.35025 0.28125831 1.58E−03 //17 18//100 100B.13900.13900.4 0 −3.5424532 CW090817_092017_PHF10_(—) NP 6.26725 0.30240778 1.78E−03 //17 20//132 D.14689.14689.5 0 −2.1560298 CW090817_092017_PHF10_(—) P 6.18125 0.51369152 8.93E−04 //17 13//102 D.15754.15754.4 −1 1.63713657 CW090817_092017_PHF10_(—) P 6.141 0.38694433 2.92E−06 //17 18//100 D.14663.14663.4 0 −6.6559922 CW090817_092017_PHF10_(—) NP 6.08675 0.25935276 2.57E−03 //17 19//132 70B.14474.14474.5 0 −1.3951849 CW090817_092017_PHF10_(—) P 5.88075 0.25344237 1.56E−01 //17 16//132 100B.13848.13848.5 0 2.79198827 CW090817_092017_PHF10_(—) P 5.6665 0.26598291 4.78E−03 //17 17//132 70B.14316.14316.5 0 5.5022195 CW090817_092017_PHF10_(—) P 5.1785 0.28943912 3.03E−04 //17 16//100 1ug.14709.14709.4 −1 5.2445473 CW090817_092017_PHF10_(—) P 5.075 0.26995399 2.09E−04 //17 16//100 100B.13860.13860.4 0 −1.1666453 CW090817_092017_PHF10_(—) P 5.03275 0.3897278 5.61E−02 //17 13//102 D.15767.15767.4 0 −2.4688191 CW090817_092017_PHF10_(—) P 4.89625 0.27015284 9.79E−04 //17 13//132 D.14603.14603.5 −1 −4.2893239 CW090817_092017_PHF10_(—) P 4.25075 0.29531402 2.10E−03 //17 13//100 D.14590.14590.4 −1 1.55124583 CW090817_092017_PHF10_(—) P 3.24875 0.2045104 1.94E−02 //17 13//100 D.14593.14593.4 −2 7.13414341 CW090817_092017_PHF10_(—) P 2.327 0.0893385 5.86E−02 //17 14//100 70B.14487.14487.4 21 SMARCC2:704- 12.27625 SMARCC2:718 0 1.28264226 CW090817_092017_PHF10_(—) N 12.27625 0.40458927 //8 6//41 70B.12094.12094.5 0 −1.6382902 CW090817_092017_PHF10_(—) P 9.16075 0.43100285 1.11E−02 //15 24//116 70B.12860.12860.5 0 0.10930351 CW090817_092017_PHF10_(—) P 7.04875 0.3410548 3.50E−05 //15 21//116 70B.12789.12789.5 22 SMARCC2:704- 10.536 SMARCC2:848 0 3.08685513 CW090817_092017_PHF10_(—) N 10.536 0.46155868 //8 5//32 100B.11095.11095.5 0 2.45397166 CW090817_092017_PHF10_(—) N 9.11575 0.43937678 //5 5//25 70B.12182.12182.5 0 0.17954951 CW090817_092017_PHF10_(—) P 7.59 0.38115804 2.18E−02 //15 18//116 70B.12947.12947.5 23 SMARCC2:704- 14.239 SMARCC2:874 0 1.80349879 CW090817_092017_PHF10_(—) N 14.239 0.62626174 //10 10//57 100B.12660.12660.5 −1 −0.2390475 CW090817_092017_PHF10_(—) NP 14.061 0.5772049 3.72E−08 1//15 28//115 100B.13198.13198.5 0 −1.3949037 CW090817_092017_PHF10_(—) NP 13.2375 0.51020408 3.40E−12 2//15 25//115 100B.13196.13196.6 0 0.33216863 CW090817_092017_PHF10_(—) NP 13.183 0.50773171 3.32E−09 1//15 25//115 100B.13219.13219.6 0 2.92495303 CW090817_092017_PHF10_(—) N 12.86725 0.50097335 //10 9//46 100B.12675.12675.6 −2 4.41367814 CW090817_092017_PHF10_(—) N 12.3425 0.47929247 //10 9//46 100B.12678.12678.4 −1 2.86263595 CW090817_092017_PHF10_(—) N 11.6815 0.47124675 //10 10//57 1ug.13378.13378.5 0 4.25750774 CW090817_092017_PHF10_(—) N 11.36875 0.48958917 //10 11//57 100B.12839.12839.5 −1 0.51051633 CW090817_092017_PHF10_(—) N 9.493 0.38913712 //10 9//57 1ug.13303.13303.5 −1 2.74442464 CW090817_092017_PHF10_(—) N 9.44175 0.38657673 //10 8//46 100B.12854.12854.6 0 2.82892446 CW090817_092017_PHF10_(—) NP 8.1345 0.37303098 4.29E−08 1//15 16//91 100B.13225.13225.4 −1 −0.7530572 CW090817_092017_PHF10_(—) NP 6.57 0.27843702 3.86E−05 1//15 19//115 100B.13308.13308.5 0 0.8174412 CW090817_092017_PHF10_(—) N 6.10025 0.32189594 //10 6//46 1ug.13304.13304.6 −1 −3.0146995 CW090817_092017_PHF10_(—) NP 4.34075 0.20650571 1.68E−04 //15 14//115 1ug.13938.13938.5 24 SMARCC2:694- 9.34025 SMARCC2:704 −1 0.03520979 CW090817_092017_PHF10_(—) N 9.34025 0.29015999 //17 18//84 50B.17566.17566.4 0 1.140092 CW090817_092017_PHF10_(—) N 9.254 0.33413974 //17 16//109 50B.17606.17606.5 −1 1.36299178 CW090817_092017_PHF10_(—) N 7.98325 0.38096204 //17 13//109 1ug.17619.17619.5 −1 0.71934439 CW090817_092017_PHF10_(—) N 7.787 0.42863434 //17 13//109 1ug.17567.17567.5 0 3.94754187 CW090817_092017_PHF10_(—) N 7.64725 0.35123436 //17 13//109 1ug.17583.17583.5 0 2.39188344 CW090817_092017_PHF10_(—) N 7.5795 0.30169566 //17 15//109 D.17526.17526.5 0 2.58910035 CW090817_092017_PHF10_(—) N 6.0015 0.23686703 //17 13//109 50B.17503.17503.5 −1 8.14933784 CW090817_092017_PHF10_(—) N 5.80975 0.18267644 //17 16//84 50B.17614.17614.4 −1 5.5418568 CW090817_092017_PHF10_(—) N 4.40475 0.23586345 //17 10//84 D.17516.17516.4 −1 1.36299178 CW090817_092017_PHF10_(—) N 4.3735 0.19045856 //17 9//109 70B.16954.16954.5 25 SMARCC2:694- 12.39725 SMARCC2:874 0 1.25092834 CW090817_092017_PHF10_(—) NP 12.39725 0.48453256 3.86E−14 //17 23//86 70B.14783.14783.4 0 1.6036727 CW090817_092017_PHF10_(—) NP 10.59275 0.43882307 2.66E−09 //17 22//86 100B.14198.14198.4 0 −2.7174458 CW090817_092017_PHF10_(—) NP 10.3605 0.39274071 1.32E−11 //17 22//86 70B.14610.14610.4 0 1.95641707 CW090817_092017_PHF10_(—) NP 10.06625 0.37437705 2.34E−13 //17 20//86 1ug.14982.14982.4 0 1.15794419 CW090817_092017_PHF10_(—) NP 7.42 0.23950163 8.40E−08 //17 16//111 70B.14678.14678.5 0 −0.3364213 CW090817_092017_PHF10_(—) NP 6.331 0.417874 1.94E−06 //17 13//86 D.14934.14934.4 0 −0.3364213 CW090817_092017_PHF10_(—) P 4.9255 0.33190701 1.05E−03 //17 10//86 D.14928.14928.4 −1 12.9289994 CW090817_092017_PHF10_(—) N 3.81425 0.14423877 //10 7//48 1ug.15107.15107.4 26 SMARCC2:694- 6.6585 SMARCC2:718 0 1.212433 CW090817_092017_PHF10_(—) NP 6.6585 0.22905451 6.16E−03 //17 21//90 50B.14007.14007.4 27 SMARCC2:694- 7.49275 SMARCC2:848 −1 2.44312949 CW090817_092017_PHF10_(—) P 7.49275 0.28626691 5.64E−02 //17 19//90 70B.12894.12894.4 −1 2.46997222 CW090817_092017_PHF10_(—) NP 7.485 0.2957855 1.87E−02 //17 21//93 50B.14104.14104.4 0 0.11578509 CW090817_092017_PHF10_(—) P 6.708 0.3156186 2.64E−02 //17 15//115 70B.12919.12919.5 28 SMARCC2:848- 6.037 SMARCC2:874 0 0.17782108 CW090817_092017_PHF10_(—) NP 6.037 0.29244072 1.07E−02 //10 13//52 100B.07643.07643.4 29 SMARCC2:769- 6.15025 SMARCC2:787 0 −0.3386993 CW090817_092017_PHF10_(—) P 6.15025 0.26639451 4.16E−03 //15 7//71 50B.07605.07605.4 30 SMARCC2:769- 6.64675 SMARCC2:773 −1 −3.0700424 CW090817_092017_PHF10_(—) P 6.64675 0.30898589 4.39E−05 //16 18//166 70B.08402.08402.5 0 −1.4018953 CW090817_092017_PHF10_(—) NP 5.62175 0.20022616 5.44E−09 //12 16//55 50B.06065.06065.4 0 1.14813553 CW090817_092017_PHF10_(—) P 5.2135 0.21707992 7.46E−02 //16 12//166 70B.08789.08789.5 0 1.22786108 CW090817_092017_PHF10_(—) NP 5.13925 0.23107619 3.51E−05 1//12 11//55 1ug.06655.06655.4 0 2.0314595 CW090817_092017_PHF10_(—) N 5.12725 0.17991613 //5 4//24 50B.06898.06898.4 0 −0.1175957 CW090817_092017_PHF10_(—) NP 4.70275 0.24291691 8.30E−08 //12 15//55 1ug.06120.06120.4 0 1.85652112 CW090817_092017_PHF10_(—) N 4.33925 0.17345552 //5 3//24 50B.07392.07392.4 0 1.97994957 CW090817_092017_PHF10_(—) N 4.1575 0.19118019 //5 3//24 1ug.07440.07440.4 0 1.85652112 CW090817_092017_PHF10_(—) N 4.155 0.16012795 //5 3//24 50B.07390.07390.4 0 2.96737828 CW090817_092017_PHF10_(—) N 4.153 0.21099426 //5 3//24 1ug.07484.07484.4 0 4.69538321 CW090817_092017_PHF10_(—) N 4.1335 0.1701554 //5 3//24 1ug.07457.07457.4 0 4.69538321 CW090817_092017_PHF10_(—) N 4.03225 0.15417631 //5 3//24 50B.07395.07395.4 −1 11.1964725 CW090817_092017_PHF10_(—) P 4.02075 0.15433556 1.49E−02 //12 12//55 50B.06598.06598.4 0 0.79718321 CW090817_092017_PHF10_(—) N 3.9595 0.18538721 //5 3//24 1ug.06935.06935.4 0 −3.7870232 CW090817_092017_PHF10_(—) P 3.687 0.31211377 1.04E−02 //12 9//55 D.06747.06747.4 0 4.97876911 CW090817_092017_PHF10_(—) N 3.63875 0.2260023 //8 4//30 1ug.05096.05096.4 0 2.87910346 CW090817_092017_PHF10_(—) P 2.7255 0.20645381 5.92E−02 //12 9//55 D.06167.06167.4 31 SMARCC2:724- 5.8375 SMARCC2:848 0 2.82483889 CW090817_092017_PHF10_(—) NP 5.8375 0.26786124 2.22E−05 //13 16//64 100B.06574.06574.4 32 SMARCC2:585- 5.3195 SMARCC2:592 0 −2.2264308 CW090817_092017_PHF10_(—) NP 5.3195 0.3402629 1.47E−07 //9 10//42 50B.05520.05520.4 0 0.33050277 CW090817_092017_PHF10_(—) NP 4.5555 0.38246159 2.70E−09 //9 9//42 1ug.05490.05490.4 33 SMARCC2:728- 12.8545 SMARCC2:848 −1 −2.2500553 CW090817_092017_PHF10_(—) P 12.8545 0.41589556 2.23E−02 //17 34//308 50B.14439.14439.5 −2 2.57279627 CW090817_092017_PHF10_(—) P 7.14425 0.35370201 2.01E−01 //17 20//309 70B.13467.13467.6 6 PBRM 1 PBRM:675- 7.89675 PBRM:754 0 2.31453358 CW090817_092017_PHF10_(—) NP 7.89675 0.29872328 1.43E−02 //15 17//77 70B.16452.16452.4 0 1.3299168 CW090817_092017_PHF10_(—) N 5.5085 0.33153777 1//8 7//26 100B.16115.16115.4 0 1.11352133 CW090817_092017_PHF10_(—) NP 3.70325 0.20321288 3.31E−01 //15 9//77 D.16986.16986.4 2 PBRM:1011- 3.55375 PBRM:930 0 4.16173191 CW090817_092017_PHF10_(—) NP 3.55375 0.1631283 1.08E−04 //20 14//156 70B.11871.11871.5 3 PBRM:1011- 5.2585 PBRM:827 0 −0.1199726 CW090817_092017_PHF10_(—) NP 5.2585 0.25980089 1.61E−08 1//8 10//36 70B.08659.08659.4 0 −0.5575241 CW090817_092017_PHF10_(—) NP 4.7435 0.23504782 1.56E−06 1//8 8//36 70B.08825.08825.4 0 −0.0470474 CW090817_092017_PHF10_(—) NP 4.04375 0.1957332 2.87E−04 1//8 8//36 70B.08841.08841.4 −1 −3.0369827 CW090817_092017_PHF10_(—) NP 3.7915 0.20791862 1.92E−05 1//8 8//36 70B.09038.09038.4 0 −1.5055524 CW090817_092017_PHF10_(—) NP 3.671 0.2221281 3.38E−07 1//8 9//36 1ug.08515.08515.4 4 PBRM:1011- 12.279 PBRM:1106 0 −1.3072418 CW090817_092017_PHF10_(—) NP 12.279 0.37342051 5.07E−04 //11 30//190 50B.12994.12994.5 0 −4.5532213 CW090817_092017_PHF10_(—) NP 10.4755 0.49472243 3.82E−07 //11 28//190 D.13088.13088.5 0 0.62623724 CW090817_092017_PHF10_(—) P 10.45225 0.38897159 3.32E−05 //11 27//140 50B.12989.12989.4 0 4.26544768 CW090817_092017_PHF10_(—) NP 9.91475 0.36876313 3.09E−05 //17 21//92 50B.14028.14028.4 −1 −1.9252522 CW090817_092017_PHF10_(—) NP 9.72175 0.33553358 9.14E−05 //17 21//92 50B.14004.14004.4 0 −0.6760792 CW090817_092017_PHF10_(—) NP 7.6745 0.46059897 1.31E−07 //11 22//190 D.13126.13126.5 −2 9.54875605 CW090817_092017_PHF10_(—) P 7.40025 0.29037669 2.19E−05 //11 21//190 70B.12911.12911.5 0 0.96374106 CW090817_092017_PHF10_(—) P 7.2345 0.27018599 2.44E−03 //17 19//92 50B.13991.13991.4 −1 3.15088791 CW090817_092017_PHF10_(—) P 7.17175 0.26107097 1.38E−04 //11 23//140 50B.12973.12973.4 0 1.58281105 CW090817_092017_PHF10_(—) P 6.76025 0.35893862 4.83E−06 //17 13//92 D.14021.14021.4 0 1.17009773 CW090817_092017_PHF10_(—) P 6.618 0.34234281 2.74E−05 //17 16//92 D.14082.14082.4 −1 3.15088791 CW090817_092017_PHF10_(—) P 6.20675 0.22761194 1.05E−06 //11 18//140 50B.12975.12975.4 0 −2.0284306 CW090817_092017_PHF10_(—) P 5.27375 0.35780921 1.24E−03 //17 12//92 1ug.14101.14101.4 −1 1.77643863 CW090817_092017_PHF10_(—) P 2.9255 0.28577708 5.17E−01 //11 9//190 D.12372.12372.5 0 2.29940198 CW090817_092017_PHF10_(—) P 2.2915 0.19203855 5.14E−04 //11 8//190 D.12381.12381.5 5 PBRM:1011- 6.16425 PBRM:1111 −1 3.58368517 CW090817_092017_PHF10_(—) P 6.16425 0.2763618 6.87E−04 //11 18//136 50B.12337.12337.4 −2 9.63892215 CW090817_092017_PHF10_(—) P 3.4275 0.29357602 6.58E−06 //11 11//184 70B.12277.12277.5 6 PBRM:210- 8.13725 PBRM:231 0 5.63117661 CW090817_092017_PHF10_(—) NP 8.13725 0.2802952 3.46E−08 //11 18//130 50B.24603.24603.4 −1 11.767512 CW090817_092017_PHF10_(—) N 7.70075 0.38281716 //13 5//57 50B.25532.25532.4 −2 3.88276742 CW090817_092017_PHF10_(—) N 7.15975 0.40804434 //13 5//57 50B.25537.25537.4 0 5.78597685 CW090817_092017_PHF10_(—) N 6.99475 0.30496817 //13 5//57 50B.26398.26398.4 −2 0.3668114 CW090817_092017_PHF10_(—) N 6.74825 0.30155733 //13 5//73 50B.26358.26358.5 0 0.26347537 CW090817_092017_PHF10_(—) N 6.11925 0.31215885 //13 4//57 50B.25535.25535.4 0 −2.2675406 CW090817_092017_PHF10_(—) NP 5.573 0.18589679 1.57E−05 2//14 16//66 50B.21536.21536.4 −1 7.38492913 CW090817_092017_PHF10_(—) P 5.14 0.17681763 7.80E−13 //11 15//130 50B.24586.24586.4 −2 0.5859575 CW090817_092017_PHF10_(—) NP 4.80475 0.15042814 2.29E−07 //11 14//177 50B.24696.24696.5 0 1.7112046 CW090817_092017_PHF10_(—) NP 4.485 0.16050244 3.01E−02 2//14 15//66 50B.21524.21524.4 0 4.21954396 CW090817_092017_PHF10_(—) NP 4.36325 0.20819019 5.12E−07 1//14 11//66 100B.20455.20455.4 −1 7.38492913 CW090817_092017_PHF10_(—) P 4.1805 0.15896646 1.87E−06 //11 13//130 50B.24584.24584.4 0 2.57614921 CW090817_092017_PHF10_(—) NP 4.11775 0.19284627 2.94E−05 2//14 11//66 100B.20458.20458.4 0 −0.6241458 CW090817_092017_PHF10_(—) NP 3.86625 0.20094332 5.18E−06 1//14 11//66 70B.20367.20367.4 0 5.34397195 CW090817_092017_PHF10_(—) NP 3.83025 0.2253022 2.51E−06 2//14 10//66 D.21323.21323.4 0 1.01924891 CW090817_092017_PHF10_(—) NP 3.79625 0.1886148 1.46E−07 1//14 11//66 1ug.21424.21424.4 −1 2.92212705 CW090817_092017_PHF10_(—) NP 3.30675 0.20707956 5.80E−06 1//14 8//66 D.21343.21343.4 −3 17.7483675 CW090817_092017_PHF10_(—) N 3.035 0.18017751 1//13 6//57 1ug.21556.21556.4 7 PBRM:210- 6.22325 PBRM:225 −3 −3.199225 CW090817_092017_PHF10_(—) NP 6.22325 0.17400878 3.97E−05 //10 16//168 50B.24663.24663.5 −1 6.78254972 CW090817_092017_PHF10_(—) P 1.992 0.1107128 4.80E−01 //10 7//168 1ug.24370.24370.5 8 PBRM:1167- 6.99825 PBRM:1398 −1 3.57630654 CW090817_092017_PHF10_(—) P 6.99825 0.28593463 4.84E−02 //17 18//128 100B.14743.14743.6 9 PBRM:1167- 5.88225 PBRM:1434 0 0.10040807 CW090817_092017_PHF10_(—) NP 5.88225 0.23286817 2.03E−02 //17 14//122 100B.11706.11706.5 −1 −4.0070559 CW090817_092017_PHF10_(—) NP 5.597 0.23785139 3.24E−03 //17 11//122 100B.11686.11686.5 0 3.04834869 CW090817_092017_PHF10_(—) NP 4.39225 0.18132186 1.60E−03 //17 14//122 100B.11694.11694.5 10 PBRM:1106- 5.91825 PBRM:827 −1 −0.9964239 CW090817_092017_PHF10_(—) P 5.91825 0.40232835 5.73E−06 //11 17//137 50B.09410.09410.4 0 −6.4313629 CW090817_092017_PHF10_(—) P 5.6655 0.38831391 1.62E−02 //11 18//137 50B.09416.09416.4 0 2.43068498 CW090817_092017_PHF10_(—) NP 5.51825 0.52763303 3.18E−11 //11 13//187 D.09200.09200.5 −1 −0.3547213 CW090817_092017_PHF10_(—) NP 4.50725 0.46297057 1.29E−09 //11 11//187 D.09248.09248.5 11 PBRM:1434- 4.1935 PBRM:317 −1 7.39758316 CW090817_092017_PHF10_(—) NP 4.1935 0.22688416 9.45E−03 //17 11//107 70B.08140.08140.5 12 PBRM:1434- 3.6435 PBRM:1642 0 5.14695282 CW090817_092017_PHF10_(—) P 3.6435 0.28743294 2.70E−08 //13 5//58 70B.08471.08471.4 13 PBRM:329- 4.4455 PBRM:485 0 −4.7075778 CW090817_092017_PHF10_(—) NP 4.4455 0.23321267 1.21E−06 //10 12//44 70B.09324.09324.4 0 1.36721233 CW090817_092017_PHF10_(—) P 3.0565 0.23144783 3.04E−02 //10 7//44 D.08235.08235.4 14 PBRM:329- 6.4695 PBRM:471 0 −2.4873219 CW090817_092017_PHF10_(—) NP 6.4695 0.2568587 1.27E−06 //13 14//60 70B.12539.12539.4 15 PBRM:329- 3.20775 PBRM:640 0 2.48451627 CW090817_092017_PHF10_(—) NP 3.20775 0.15285554 3.99E−03 //10 11//44 70B.10204.10204.4 16 PBRM:329- 5.1665 PBRM:484 −1 −0.7429141 CW090817_092017_PHF10_(—) NP 5.1665 0.22871752 7.18E−07 2//10 13//44 100B.08150.08150.4 17 PBRM:511- 9.38475 PBRM:516 0 1.60082197 CW090817_092017_PHF10_(—) P 9.38475 0.3764818 1.28E−02 //17 22//192 70B.11904.11904.5 18 PBRM:511- 14.43225 PBRM:524 −2 2.57964435 CW090817_092017_PHF10_(—) N 14.43225 0.50988341 //12 12//78 70B.17445.17445.5 −1 0.20428502 CW090817_092017_PHF10_(—) N 8.85625 0.43290969 //12 9//78 D.18223.18223.5 0 2.76156755 CW090817_092017_PHF10_(—) N 8.35525 0.30031091 //12 11//78 100B.17281.17281.5 −2 4.02311644 CW090817_092017_PHF10_(—) N 8.16625 0.3330105 //12 9//78 100B.17248.17248.5 0 2.07748236 CW090817_092017_PHF10_(—) N 5.0735 0.34958313 //12 7//78 D.18152.18152.5 19 PBRM:1066- 3.8865 PBRM:827 0 −1.0302528 CW090817_092017_PHF10_(—) NP 3.8865 0.21602468 5.51E−02 //8 8//36 70B.05393.05393.4 20 PBRM:1066- 9.89325 PBRM:930 0 0.72439852 CW090817_092017_PHF10_(—) N 9.89325 0.4274096 2//8 6//30 70B.09125.09125.5 0 −0.1858811 CW090817_092017_PHF10_(—) P 4.0515 0.36680096 5.15E−01 //20 13//156 D.09046.09046.5 21 PBRM:907- 2.485 PBRM:918 0 −2.1925237 CW090817_092017_PHF10_(—) NP 2.485 0.22638244 6.79E−01 //11 6//64 D.08597.08597.5 22 PBRM:1380- 7.88925 PBRM:1434 0 0.48236911 CW090817_092017_PHF10_(—) N 7.88925 0.60266988 1//12 7//47 D.13917.13917.4 −2 1.78896048 CW090817_092017_PHF10_(—) N 6.78575 0.62300312 //12 5//47 D.13893.13893.4 −1 8.71360345 CW090817_092017_PHF10_(—) N 6.0095 0.56570649 //12 6//47 D.13880.13880.4 23 PBRM:414- 7.68625 PBRM:425 −3 15.8891182 CW090817_092017_PHF10_(—) N 7.68625 0.31863406 //13 11//102 50B.24468.24468.4 24 PBRM:925- 12.0655 PBRM:930 0 −1.1147152 CW090817_092017_PHF10_(—) P 12.0655 0.40660859 1.96E−03 //20 33//122 70B.08774.08774.4 0 −3.4637013 CW090817_092017_PHF10_(—) P 8.77375 0.43235352 4.32E−02 //20 28//153 100B.09023.09023.5 0 0.31756492 CW090817_092017_PHF10_(—) P 8.02775 0.40768625 5.26E−04 //20 24//122 70B.10061.10061.4 25 PBRM:1293- 3.87875 PBRM:640 0 1.64282593 CW090817_092017_PHF10_(—) P 3.87875 0.19242218 8.08E−03 //16 13//120 70B.12841.12841.5 26 PBRM:475- 7.3625 PBRM:485 0 0.5487691 CW090817_092017_PHF10_(—) N 7.3625 0.33399111 //6 6//27 100B.10453.10453.4 0 2.34967954 CW090817_092017_PHF10_(—) P 4.78325 0.2256729 1.13E−08 //13 16//65 100B.12879.12879.4 0 1.04611329 CW090817_092017_PHF10_(—) N 3.529 0.15327817 //6 6//33 100B.10356.10356.5 27 PBRM:475- 8.24075 PBRM:511 −1 0.83443382 CW090817_092017_PHF10_(—) N 8.24075 0.32064551 //13 7//72 50B.12608.12608.5 28 PBRM:214- 12.736 PBRM:231 0 4.24473434 CW090817_092017_PHF10_(—) N 12.736 0.42487323 //13 6//57 50B.26214.26214.4 −3 1.61831374 CW090817_092017_PHF10_(—) N 11.335 0.3930714 1//13 7//57 50B.26175.26175.4 0 0.81028681 CW090817_092017_PHF10_(—) N 9.857 0.38853742 1//13 8//73 50B.26247.26247.5 −1 0.27136829 CW090817_092017_PHF10_(—) N 8.19275 0.29853153 1//13 8//73 50B.26269.26269.5 −1 5.68297401 CW090817_092017_PHF10_(—) N 8.1495 0.31928148 //13 6//57 50B.25642.25642.4 0 3.34615521 CW090817_092017_PHF10_(—) N 8.078 0.32986912 //13 5//73 50B.26242.26242.5 −1 5.22174047 CW090817_092017_PHF10_(—) N 7.02975 0.31465691 //13 6//73 50B.26221.26221.5 −1 3.96725784 CW090817_092017_PHF10_(—) N 4.95025 0.1544058 1//12 7//51 50B.28854.28854.4 −1 3.40151768 CW090817_092017_PHF10_(—) N 3.7715 0.14133144 //12 5//51 50B.28849.28849.4 29 PBRM:904- 3.04075 PBRM:912 0 −1.7093845 CW090817_092017_PHF10_(—) NP 3.04075 0.15530671 1.09E−03 1//12 10//68 D.08820.08820.5 0 −0.5554421 CW090817_092017_PHF10_(—) P 2.47525 0.15100354 5.84E−01 //13 7//75 D.09741.09741.5 0 2.21439582 CW090817_092017_PHF10_(—) P 1.56775 0.10313466 1.94E−01 //13 5//75 D.09767.09767.5 0 −3.4404837 CW090817_092017_PHF10_(—) P 0.542 0.06424465 3.45E−01 //12 3//54 D.08813.08813.4 30 PBRM:485- 16.27975 PBRM:511 0 0.70368002 CW090817_092017_PHF10_(—) N 16.27975 0.53583536 //6 5//30 100B.09283.09283.5 0 4.69209114 CW090817_092017_PHF10_(—) N 13.22625 0.45928466 //6 4//29 70B.10186.10186.5 31 PBRM:485- 12.6505 PBRM:524 0 0.18225017 CW090817_092017_PHF10_(—) N 12.6505 0.64996018 //6 5//26 100B.16311.16311.4 0 2.4880723 CW090817_092017_PHF10_(—) N 10.95225 0.59411701 //6 5//26 100B.16298.16298.4 32 PBRM:485- 2.5735 PBRM:670 0 −3.2217159 CW090817_092017_PHF10_(—) P 2.5735 0.08841212 2.15E−01 //16 15//118 100B.13335.13335.5 33 PBRM:918- 3.35875 PBRM:925 0 −0.5610586 CW090817_092017_PHF10_(—) P 3.35875 0.17857618 9.44E−02 //10 10//43 1ug.07618.07618.4 0 1.583535 CW090817_092017_PHF10_(—) P 1.8665 0.08779192 2.53E−01 //11 6//59 100B.07368.07368.5 34 PBRM:918- 8.6315 PBRM:930 0 −3.2639965 CW090817_092017_PHF10_(—) P 8.6315 0.4425389 3.18E−01 //20 22//150 100B.10667.10667.5 0 2.75057078 CW090817_092017_PHF10_(—) P 6.4195 0.43317926 1.26E−02 //20 18//150 D.10950.10950.5 −2 −2.6529929 CW090817_092017_PHF10_(—) P 5.4105 0.34787501 1.79E−04 //20 17//150 D.10939.10939.5 −1 1.14668617 CW090817_092017_PHF10_(—) P 4.5075 0.35538298 3.62E−01 //20 13//150 D.10760.10760.5 35 PBRM:1642- 6.70825 PBRM:1656 0 4.44803542 CW090817_092017_PHF10_(—) N 6.70825 0.32307896 //13 8//73 100B.11108.11108.5 36 PBRM:1111- 7.779 PBRM:827 −1 −3.6666372 CW090817_092017_PHF10_(—) NP 7.779 0.2741981 3.97E−09 //11 24//183 50B.09062.09062.5 −1 −6.8389834 CW090817_092017_PHF10_(—) NP 6.61625 0.37956801 4.75E−02 //11 20//135 50B.09069.09069.4 0 −1.1868281 CW090817_092017_PHF10_(—) NP 5.34725 0.57726978 1.66E−09 1//16 10//84 D.05237.05237.4 −1 9.12614994 CW090817_092017_PHF10_(—) P 5.28275 0.37576911 1.42E−02 //11 17//135 50B.09080.09080.4 −1 −0.8605505 CW090817_092017_PHF10_(—) P 4.68375 0.28564677 6.50E−04 //11 16//135 50B.09057.09057.4 0 4.38386618 CW090817_092017_PHF10_(—) P 2.183 0.29349287 1.52E−06 //11 6//183 D.09261.09261.5 37 PBRM:1425- 6.05175 PBRM:1434 0 −4.7577358 CW090817_092017_PHF10_(—) NP 6.05175 0.27612128 2.24E−08 1//12 13//53 50B.06403.06403.4 38 PBRM:471- 6.16925 PBRM:640 0 −8.9306866 CW090817_092017_PHF10_(—) P 6.16925 0.30246611 5.40E−09 //13 11//63 70B.12676.12676.4 −1 5.64369143 CW090817_092017_PHF10_(—) P 5.92525 0.30676141 3.87E−06 //13 12//63 70B.12688.12688.4 39 PBRM:471- 11.8785 PBRM:475 0 0.23676553 CW090817_092017_PHF10_(—) N 11.8785 0.39467389 1//13 15//59 50B.14664.14664.4 0 0.23676553 CW090817_092017_PHF10_(—) N 11.16275 0.40395715 //13 13//59 1ug.14714.14714.4 0 0.90926593 CW090817_092017_PHF10_(—) N 10.2405 0.36086053 //13 11//73 100B.12798.12798.5 0 0.76702332 CW090817_092017_PHF10_(—) N 9.8305 0.47358786 //13 12//59 D.14659.14659.4 0 2.60771234 CW090817_092017_PHF10_(—) N 8.9865 0.3304407 //13 17//58 100B.12907.12907.4 −1 1.45788015 CW090817_092017_PHF10_(—) N 8.317 0.31233453 //13 10//73 70B.13178.13178.5 −1 0.73755679 CW090817_092017_PHF10_(—) NP 7.95825 0.28707344 5.32E−07 //13 16//57 1ug.16937.16937.4 −1 2.51925772 CW090817_092017_PHF10_(—) N 7.7345 0.31135398 //13 12//59 1ug.14537.14537.4 0 2.43757703 CW090817_092017_PHF10_(—) N 7.5835 0.25043343 2//13 12//55 50B.16774.16774.4 0 3.22650155 CW090817_092017_PHF10_(—) NP 7.46125 0.27183219 2.54E−07 1//13 17//57 1ug.16946.16946.4 0 −1.0856844 CW090817_092017_PHF10_(—) NP 6.7065 0.27947243 1.81E−07 2//14 16//81 100B.14796.14796.5 −1 2.36741787 CW090817_092017_PHF10_(—) P 6.0645 0.29423609 3.58E−05 //14 3//65 100B.14784.14784.4 −1 −0.4180247 CW090817_092017_PHF10_(—) NP 5.93925 0.24013464 1.99E−03 2//13 13//57 70B.16374.16374.4 0 1.00050045 CW090817_092017_PHF10_(—) N 5.82175 0.18968916 //13 11//59 50B.14486.14486.4 0 2.44617669 CW090817_092017_PHF10_(—) N 5.657 0.22940914 //13 10//59 100B.13830.13830.4 −1 −0.4180247 CW090817_092017_PHF10_(—) NP 5.5985 0.22358227 2.66E−05 1//13 12//57 70B.16384.16384.4 −1 6.57968191 CW090817_092017_PHF10_(—) N 5.43975 0.21911945 //13 10//73 70B.13545.13545.5 0 2.67964224 CW090817_092017_PHF10_(—) N 5.42325 0.27234721 //13 10//59 70B.14281.14281.4 0 0.13635127 CW090817_092017_PHF10_(—) N 4.2415 0.18423682 //13 8//73 100B.12754.12754.5 0 −4.062551 CW090817_092017_PHF10_(—) NP 4.20525 0.20482441 1.12E−04 //13 9//57 100B.16032.16032.4 −1 −0.7735882 CW090817_092017_PHF10_(—) NP 4.169 0.20347504 2.84E−03 //13 8//57 D.16902.16902.4 −2 1.52461944 CW090817_092017_PHF10_(—) N 3.034 0.11982622 //13 8//73 100B.12769.12769.5 −2 10.0930712 CW090817_092017_PHF10_(—) N 2.97225 0.12178108 //13 8//59 1ug.14985.14985.4 40 PBRM:640- 8.58625 PBRM:670 0 −0.1639803 CW090817_092017_PHF10_(—) NP 8.58625 0.33893538 6.85E−04 //16 26//120 70B.15336.15336.5 41 PBRM:317- 10.89625 PBRM:485 0 −0.4658633 CW090817_092017_PHF10_(—) NP 10.89625 0.48661352 2.59E−07 //17 22//116 70B.08838.08838.5 0 0.86504884 CW090817_092017_PHF10_(—) NP 6.01875 0.27642547 2.84E−03 //17 17//114 100B.07879.07879.5 42 PBRM:317- 4.0485 PBRM:475 0 0.07599731 CW090817_092017_PHF10_(—) N 4.0485 0.18238951 //13 8//72 70B.11675.11675.5 43 PBRM:317- 5.7715 PBRM:329 0 −4.461151 CW090817_092017_PHF10_(—) NP 5.7715 0.2232775 3.31E−03 //17 15//108 100B.09419.09419.5 0 −3.4686992 CW090817_092017_PHF10_(—) P 4.72675 0.2747232 1.82E−06 //17 8//83 100B.09404.09404.4 0 −0.6455511 CW090817_092017_PHF10_(—) NP 4.193 0.18423076 3.07E−01 //17 11//108 70B.09655.09655.5 0 −5.2642757 CW090817_092017_PHF10_(—) P 4.037 0.25094017 1.86E−04 //17 5//83 100B.09572.09572.4 0 −4.461151 CW090817_092017_PHF10_(—) NP 3.92425 0.16584608 1.15E−01 //17 13//108 100B.09593.09593.5 −1 1.60463561 CW090817_092017_PHF10_(—) N 3.33175 0.20418263 //10 5//47 D.09680.09680.5 0 −1.4311158 CW090817_092017_PHF10_(—) NP 3.166 0.16179063 2.37E−01 //17 9//108 1ug.09518.09518.5 −1 −0.959777 CW090817_092017_PHF10_(—) P 2.3205 0.13833497 2.10E−01 //17 8//108 1ug.09676.09676.5 0 5.52674286 CW090817_092017_PHF10_(—) P 1.5255 0.11183608 4.77E−01 //17 4//108 D.09663.09663.5 44 PBRM:317- 5.27125 PBRM:61 0 −0.0758228 CW090817_092017_PHF10_(—) NP 5.27125 0.24892567 6.54E−05 //17 12//83 70B.08986.08986.4 45 PBRM:317- 6.51925 PBRM:471 0 −0.1253105 CW090817_092017_PHF10_(—) NP 6.51925 0.28212091 3.98E−04 //17 14//107 70B.11835.11835.5 −1 −0.2221065 CW090817_092017_PHF10_(—) P 4.487 0.26802461 8.45E−03 //17 9//82 70B.11852.11852.4 46 PBRM:1398- 5.2675 PBRM:1425 0 −4.5012949 CW090817_092017_PHF10_(—) NP 5.2675 0.25379427 5.72E−10 //17 14//133 70B.12636.12636.5 0 −4.5012949 CW090817_092017_PHF10_(—) P 3.50425 0.16092997 3.91E−10 //17 13//133 70B.12634.12634.5 47 PBRM:1398- 9.442 PBRM:1424 0 −4.6615323 CW090817_092017_PHF10_(—) NP 9.442 0.46921433 1.14E−03 //17 18//104 70B.13203.13203.4 0 2.06211021 CW090817_092017_PHF10_(—) P 6.7255 0.21433124 3.67E−01 //17 23//134 70B.13235.13235.5 0 4.05320662 CW090817_092017_PHF10_(—) NP 6.7215 0.35296434 5.01E−03 //17 14//104 70B.13189.13189.4 48 PBRM:1398- 8.35 PBRM:1398 −1 2.18681482 CW090817_092017_PHF10_(—) NP 8.35 0.29842212 3.76E−03 //17 15//128 100B.15078.15078.6 49 PBRM:1398- 7.245 PBRM:317 0 −4.6659083 CW090817_092017_PHF10_(—) NP 7.245 0.29968356 2.08E−02 //17 19//128 100B.12488.12488.5 50 PBRM:1398- 6.117 PBRM:329 −1 6.17502804 CW090817_092017_PHF10_(—) NP 6.117 0.28789947 1.85E−03 //17 10//102 70B.13626.13626.4 −1 6.17502804 CW090817_092017_PHF10_(—) NP 5.6965 0.27668359 7.81E−04 //17 10//102 70B.13632.13632.4 51 PBRM:1398- 5.40325 PBRM:61 −1 −3.9467823 CW090817_092017_PHF10_(—) NP 5.40325 0.28806579 5.16E−07 //17 14//133 70B.13427.13427.5 52 PBRM:1398- 9.22275 PBRM:471 0 2.65945232 CW090817_092017_PHF10_(—) NP 9.22275 0.370176 1.11E−02 //17 17//130 70B.15051.15051.5 −1 5.47751333 CW090817_092017_PHF10_(—) NP 5.40275 0.22287193 2.40E−02 //17 12//130 70B.15006.15006.5 53 PBRM:1398- 5.46175 PBRM:1434 −2 −3.2117868 CW090817_092017_PHF10_(—) NP 5.46175 0.34046565 8.93E−09 //17 13//101 70B.12470.12470.4 54 PBRM:1398- 3.01075 PBRM:827 0 4.16591361 CW090817_092017_PHF10_(—) NP 3.01075 0.15854815 1.79E−04 //17 12//134 70B.12236.12236.5 7 ACTL6A 1 ACTL6A:371- 5.81475 ACTL6A:379 −2 8.09062974 CW090817_092017_PHF10_(—) N 5.81475 0.20486013 //13 6//56 50B.12551.12551.4 0 15.6360781 CW090817_092017_PHF10_(—) N 5.469 0.18015614 //13 7//56 50B.12568.12568.4 −1 0.00274003 CW090817_092017_PHF10_(—) N 4.8405 0.25971134 //13 6//56 1ug.12547.12547.4 2 ACTL6A:238- 6.60075 ACTL6A:242 0 1.33443818 CW090817_092017_PHF10_(—) NP 6.60075 0.26701523 9.50E−06 //11 9//46 100B.11002.11002.4 0 1.97712813 CW090817_092017_PHF10_(—) NP 6.337 0.27223714 3.80E−06 //11 8//46 100B.11166.11166.4 0 1.10099087 CW090817_092017_PHF10_(—) NP 6.23225 0.30956165 6.20E−03 //11 9//56 100B.11161.11161.5 0 −2.4145865 CW090817_092017_PHF10_(—) NP 5.6475 0.24894757 4.12E−05 //11 8//46 1ug.11397.11397.4 −1 4.30437381 CW090817_092017_PHF10_(—) N 4.95325 0.17641036 //11 8//46 100B.11256.11256.4 −1 1.91877681 CW090817_092017_PHF10_(—) N 4.3305 0.23343755 2//11 15//45 1ug.14921.14921.4 3 ACTL6A:238- 8.365 ACTL6A:240 0 −0.1709997 CW090817_092017_PHF10_(—) NP 8.365 0.34233681 7.89E−05 //10 10//63 100B.10814.10814.5 0 1.23488461 CW090817_092017_PHF10_(—) NP 6.348 0.34646873 1.46E−03 //10 7//63 100B.10995.10995.5 0 9.48923882 CW090817_092017_PHF10_(—) N 5.24625 0.2706764 //11 11//45 1ug.13887.13887.4 0 0.79886322 CW090817_092017_PHF10_(—) NP 5.1915 0.17401579 8.57E−03 //10 9//52 100B.10807.10807.4 4 ACTL6A:135- 9.92 ACTL6A:62 −1 0.88194617 CW090817_092017_PHF10_(—) N 9.92 0.59232721 //16 11//121 70B.21692.21692.5 0 14.9648461 CW090817_092017_PHF10_(—) N 9.60875 0.57987086 //16 11//121 70B.21673.21673.5 5 ACTL6A:135- 11.01425 ACTL6A:421 −1 3.43278692 CW090817_092017_PHF10_(—) N 11.01425 0.44639998 //15 10//93 70B.20441.20441.5 0 5.75355219 CW090817_092017_PHF10_(—) N 10.50425 0.42479173 //15 11//93 70B.20437.20437.5 0 7.82277446 CW090817_092017_PHF10_(—) N 7.7875 0.28369247 //14 12//66 50B.22736.22736.4 −1 5.30694549 CW090817_092017_PHF10_(—) P 5.294 0.25327114 1.67E−09 //14 8//119 D.22415.22415.4 −2 4.37339348 CW090817_092017_PHF10_(—) N 5.06 0.21941807 //14 7//66 50B.22724.22724.4 0 −1.3130261 CW090817_092017_PHF10_(—) P 4.9305 0.20678592 1.65E−05 //14 9//119 50B.22721.22721.4 −1 −3.5957749 CW090817_092017_PHF10_(—) P 4.58925 0.25344471 2.92E−03 //14 6//119 1ug.22667.22667.4 0 −3.9381873 CW090817_092017_PHF10_(—) P 4.543 0.22165301 1.96E−03 //14 4//119 1ug.22677.22677.4 −3 0.42428832 CW090817_092017_PHF10_(—) N 4.26675 0.27645134 //15 5//93 1ug.21519.21519.5 −1 4.16557108 CW090817_092017_PHF10_(—) NP 3.9395 0.22898745 2.30E−02 //14 7//119 70B.21434.21434.4 −1 −2.9996584 CW090817_092017_PHF10_(—) P 3.912 0.32825677 2.44E−02 //14 7//161 70B.22232.22232.5 −1 −0.8564763 CW090817_092017_PHF10_(—) P 3.83275 0.19293499 5.45E−03 //14 7//119 100B.21667.21667.4 −2 −2.9109503 CW090817_092017_PHF10_(—) P 3.616 0.128752 7.55E−06 //14 8//119 50B.22746.22746.4 8 SMARCA4 1 SMARCA4:1122- 2.8635 SMARCA4:1131 0 −0.7469501 CW090817_092017_PHF10_(—) NP 2.8635 0.11831911 2.07E−03 //12 9//57 1ug.12258.12258.4 2 SMARCA4:1122- 9.8575 SMARCA4:1492 0 0.41724563 CW090817_092017_PHF10_(—) NP 9.8575 0.47592034 2.72E−07 1//12 18//69 70B.18357.18357.4 3 SMARCA4:1598- 4.8255 SMARCA4:1602 0 1.52448198 CW090817_092017_PHF10_(—) N 4.8255 0.24878841 //5 5//22 70B.10141.10141.4 4 SMARCA4:1221- 4.2145 SMARCA4:1237 −2 6.78920361 CW090817_092017_PHF10_(—) N 4.2145 0.18314756 //8 6//45 70B.11826.11826.5 −2 14.195535 CW090817_092017_PHF10_(—) N 3.5465 0.25319483 //8 5//36 70B.11837.11837.4 5 SMARCA4:517- 4.41775 SMARCA4:524 0 0.20588259 CW090817_092017_PHF10_(—) N 4.41775 0.17712447 2//7 8//23 100B.04652.04652.4 0 0.25082701 CW090817_092017_PHF10_(—) N 2.80925 0.18259075 1//7 6//23 1ug.04435.04435.4 0 2.16321414 CW090817_092017_PHF10_(—) N 2.7895 0.17341705 1//7 6//23 1ug.04454.04454.4 6 SMARCA4:1596- 4.13175 SMARCA4:1610 0 1.86870573 CW090817_092017_PHF10_(—) N 4.13175 0.28025165 //5 5//22 70B.12639.12639.4 7 SMARCA4:496- 8.18 SMARCA4:502 0 4.93404401 CW090817_092017_PHF10_(—) NP 8.18 0.37911617 8.44E−02 //16 17//107 70B.10230.10230.5 0 1.61615033 CW090817_092017_PHF10_(—) NP 5.48425 0.32349732 1.25E−03 //16 14//85 70B.10245.10245.4 −2 13.0094971 CW090817_092017_PHF10_(—) NP 4.81425 0.26920066 5.28E−04 //16 14//85 70B.10198.10198.4 8 SMARCA4:1492- 10.031 SMARCA4:1610 0 0.89353599 CW090817_092017_PHF10_(—) NP 10.031 0.46764569 2.00E−02 1//12 25//68 70B.15999.15999.4 0 0.08709469 CW090817_092017_PHF10_(—) P 8.50925 0.44337484 1.43E−02 //12 21//68 70B.15968.15968.4 9 SMARCA4:1492- 7.2235 SMARCA4:1518 0 −2.6057642 CW090817_092017_PHF10_(—) P 7.2235 0.29105891 2.83E−03 //12 16//69 100B.14076.14076.4 0 −2.6057642 CW090817_092017_PHF10_(—) P 6.622 0.26833073 1.40E−02 //12 17//69 100B.14071.14071.4 10 SMARCA4:1131- 4.6235 SMARCA4:1518 0 3.07021975 CW090817_092017_PHF10_(—) P 4.6235 0.23960925 2.30E−03 //12 12//57 100B.06219.06219.4 11 SMARCA4:1131- 5.72375 SMARCA4:1492 −1 −1.3688971 CW090817_092017_PHF10_(—) NP 5.72375 0.20732215 5.39E−02 //12 14//68 50B.16879.16879.4 12 SMARCA4:1450- 6.29875 SMARCA4:1518 0 −2.4838924 CW090817_092017_PHF10_(—) P 6.29875 0.39933748 8.24E−05 //18 19//131 D.09581.09581.5 0 2.45979479 CW090817_092017_PHF10_(—) P 6.10775 0.4043261 3.13E−04 //18 15//101 D.09627.09627.4 0 0.37415804 CW090817_092017_PHF10_(—) P 5.335 0.31733286 1.24E−04 //18 17//131 D.09573.09573.5 −2 10.0229362 CW090817_092017_PHF10_(—) P 5.32075 0.25479469 1.89E−03 //18 22//131 D.09747.09747.5 −1 −1.4321298 CW090817_092017_PHF10_(—) P 5.2275 0.30451752 7.72E−04 //18 17//131 D.09803.09803.5 0 −2.7736863 CW090817_092017_PHF10_(—) P 4.984 0.34995085 2.32E−01 //18 15//129 D.09407.09407.5 −1 −0.1566703 CW090817_092017_PHF10_(—) P 3.16375 0.2102369 1.17E−01 //18 11//129 D.09503.09503.5 0 −5.2913728 CW090817_092017_PHF10_(—) P 2.69825 0.17098093 6.70E−02 //18 13//129 D.09457.09457.6 −2 3.01661472 CW090817_092017_PHF10_(—) P 2.02725 0.11900848 5.45E−01 //18 8//129 D.09394.09394.6 13 SMARCA4:1503- 4.16275 SMARCA4:1509 0 0.84502825 CW090817_092017_PHF10_(—) N 4.16275 0.28574616 1//7 8//31 70B.11841.11841.4 14 SMARCA4:1503- 3.643 SMARCA4:1518 −2 11.6667433 CW090817_092017_PHF10_(—) N 3.643 0.18580099 2//7 6//24 100B.10694.10694.4 0 −0.791069 CW090817_092017_PHF10_(—) P 3.22675 0.20757478 1.79E−03 //8 6//36 D.06448.06448.4 0 2.62219894 CW090817_092017_PHF10_(—) P 2.2085 0.17532648 9.01E−02 1//9 2//37 D.07647.07647.4 0 0.38604779 CW090817_092017_PHF10_(—) P 1.7885 0.14379321 2.91E−03 //9 2//37 D.07476.07476.4 15 SMARCA4:1503- 2.81025 SMARCA4:1511 0 12.1251234 CW090817_092017_PHF10_(—) N 2.81025 0.12439688 1//7 6//31 70B.10775.10775.4 16 SMARCA4:1081- 4.35775 SMARCA4:1091 0 4.48693908 CW090817_092017_PHF10_(—) N 4.35775 0.24381749 1//8 8//29 70B.17308.17308.4 17 SMARCA4:1081- 4.84125 SMARCA4:1122 0 0.41664609 CW090817_092017_PHF10_(—) NP 4.84125 0.31930154 7.74E−03 //12 11//56 70B.17381.17381.4 18 SMARCA4:689- 5.456 SMARCA4:711 −2 2.09303447 CW090817_092017_PHF10_(—) P 5.456 0.40468773 6.84E−07 //10 13//172 70B.15475.15475.5 −3 0.13694638 CW090817_092017_PHF10_(—) P 1.71675 0.23355554 5.53E−01 //10 4//172 70B.15499.15499.5 19 SMARCA4:1602- 4.363 SMARCA4:1610 0 3.01599657 CW090817_092017_PHF10_(—) N 4.363 0.24177773 //5 5//22 70B.07988.07988.4 −1 3.49989693 CW090817_092017_PHF10_(—) N 3.44575 0.18668057 //5 5//22 1ug.07856.07856.4 −1 0.59799175 CW090817_092017_PHF10_(—) N 2.44025 0.1370465 //5 4//22 70B.08343.08343.4 20 SMARCA4:461- 3.7065 SMARCA4:517 −2 2.43482215 CW090817_092017_PHF10_(—) N 3.7065 0.16732124 //6 5//27 100B.04767.04767.4 −2 7.06474636 CW090817_092017_PHF10_(—) N 2.55575 0.1293363 //6 4//27 100B.05051.05051.4 −2 3.73902182 CW090817_092017_PHF10_(—) N 2.45475 0.14416385 //6 4//27 100B.05105.05105.4 21 SMARCA4:1414- 3.89275 SMARCA4:1433 0 3.4648428 CW090817_092017_PHF10_(—) P 3.89275 0.35282788 5.05E−04 //17 11//130 100B.04302.04302.5 0 −5.1112313 CW090817_092017_PHF10_(—) P 3.78775 0.34785104 1.35E−04 //17 10//130 100B.04282.04282.5 0 −7.4405354 CW090817_092017_PHF10_(—) P 3.1185 0.25357782 1.21E−02 //17 11//130 100B.04275.04275.5 22 SMARCA4:516- 2.384 SMARCA4:517 0 18.0488131 CW090817_092017_PHF10_(—) N 2.384 0.1634388 //6 4//27 100B.05392.05392.4 23 SMARCA4:516- 5.63 SMARCA4:524 0 −0.6047143 CW090817_092017_PHF10_(—) P 5.63 0.29351198 6.12E−02 //17 14//119 100B.06032.06032.5 0 0.33637112 CW090817_092017_PHF10_(—) N 3.45475 0.16391479 2//7 7//23 100B.04477.04477.4 0 3.44885077 CW090817_092017_PHF10_(—) N 2.8865 0.18363127 1//7 6//23 100B.05633.05633.4 0 1.99877704 CW090817_092017_PHF10_(—) NP 2.773 0.22611816 4.20E−02 //10 6//42 1ug.04277.04277.4 0 4.21708085 CW090817_092017_PHF10_(—) NP 2.5315 0.20469799 1.25E−02 //10 5//42 D.04359.04359.4 0 0.6625926 CW090817_092017_PHF10_(—) N 2.26975 0.18605271 //7 5//23 1ug.04274.04274.4 0 −1.981121 CW090817_092017_PHF10_(—) NP 2.10775 0.17242014 7.36E−02 //10 4//42 D.04356.04356.4 9 ACTB 1 ACTB:291- 15.23525 ACTB:328 0 2.78866452 CW090817_092017_PHF10_(—) N 15.23525 0.42608933 1//9 7//40 50B.18264.18264.4 0 1.91184067 CW090817_092017_PHF10_(—) N 11.212 0.38145786 //9 6//40 D.18176.18176.4 0 8.89355495 CW090817_092017_PHF10_(—) N 8.39775 0.24563084 //9 7//40 50B.18371.18371.4 0 1.08233654 CW090817_092017_PHF10_(—) N 8.2255 0.32798357 //9 5//40 D.18112.18112.4 0 1.08233654 CW090817_092017_PHF10_(—) N 7.512 0.33758005 //9 5//40 D.18110.18110.4 2 ACTB:291- 13.5335 ACTB:326 −1 0.63138623 CW090817_092017_PHF10_(—) N 13.5335 0.382973 //15 10//69 50B.18146.18146.4 −1 4.62241218 CW090817_092017_PHF10_(—) N 12.288 0.35586447 //15 8//69 50B.18141.18141.4 −2 0.08232158 CW090817_092017_PHF10_(—) N 10.8105 0.30032087 //15 7//69 50B.18118.18118.4 −2 3.69826385 CW090817_092017_PHF10_(—) N 8.66 0.29642814 //15 7//69 50B.18194.18194.4 −2 1.97503655 CW090817_092017_PHF10_(—) N 7.63975 0.31606437 //15 6//69 1ug.18084.18084.4 10 SMARCB1 1 SMARCB1:199- 5.94325 SMARCB1:364 0 0.85121818 CW090817_092017_PHF10_(—) N 5.94325 0.32918386 //4 3//16 70B.10612.10612.4 0 0.39815468 CW090817_092017_PHF10_(—) N 5.80325 0.30485659 //4 3//16 70B.10629.10629.4 0 0.5465273 CW090817_092017_PHF10_(—) N 5.7625 0.33874144 //4 3//16 70B.13315.13315.4 0 4.71501904 CW090817_092017_PHF10_(—) N 4.82725 0.27530797 //4 3//16 70B.10720.10720.4 11 SMARCD1 1 SMARCD1:230- 5.733 SMARCD1:232 0 1.39253423 CW090817_092017_PHF10_(—) N 5.733 0.26560111 //8 6//38 70B.15587.15587.4 0 −8.8867885 CW090817_092017_PHF10_(—) P 3.4345 0.15911513 5.33E−02 //8 6//41 70B.15587.15587.4 2 SMARCD1:101- 8.72275 SMARCD1:353 −1 5.16447663 CW090817_092017_PHF10_(—) N 8.72275 0.35692657 1//9 5//52 70B.11861.11861.5 3 SMARCD1:101- 12.44275 SMARCD1:232 0 0.0756724 CW090817_092017_PHF10_(—) P 12.44275 0.51954112 1.26E−03 //16 23//162 100B.13207.13207.5 12 BCL7A 1 BCL7A:15- 7.79675 BCL7A:27 0 0.09318856 CW090817_092017_PHF10_(—) N 7.79675 0.39818953 //7 5//41 70B.09267.09267.5 0 0.56493291 CW090817_092017_PHF10_(—) N 7.35375 0.37837664 1//7 7//34 70B.09284.09284.4 0 1.77707279 CW090817_092017_PHF10_(—) N 6.3105 0.33952975 //7 5//34 70B.09266.09266.4 0 0.09318856 CW090817_092017_PHF10_(—) N 6.2715 0.32970586 //7 5//41 70B.09263.09263.5 0 0.20129038 CW090817_092017_PHF10_(—) N 6.079 0.36412099 //7 6//34 70B.09244.09244.4 13 SMARCE1 1 SMARCE1:255- 11.6395 SMARCE1:258 0 −1.206224 CW090817_092017_PHF10_(—) P 11.6395 0.41852145 2.66E−03 //15 30//98 100B.10771.10771.4 0 −0.0987336 CW090817_092017_PHF10_(—) P 10.127 0.45171506 6.39E−02 //15 21//123 100B.10740.10740.5 0 −1.837069 CW090817_092017_PHF10_(—) P 6.02775 0.42419071 4.74E−01 //15 18//123 1ug.11139.11139.5 0 −4.9146728 CW090817_092017_PHF10_(—) P 5.70125 0.25029084 8.76E−04 //15 24//98 100B.10737.10737.4 −1 −5.6037205 CW090817_092017_PHF10_(—) P 5.6875 0.344791 1.25E−02 //15 12//91 D.12115.12115.4 −1 −5.6037205 CW090817_092017_PHF10_(—) P 3.44525 0.2790693 2.86E−01 //15 10//91 D.12103.12103.4 0 4.18916044 CW090817_092017_PHF10_(—) P 2.2805 0.17664601 4.62E−04 //15 12//114 D.11074.11074.5 −1 −3.7840046 CW090817_092017_PHF10_(—) P 1.306 0.06058638 1.48E−02 //15 9//123 100B.10698.10698.5 2 SMARCE1:298- 9.8605 SMARCE1:305 0 0.60899416 CW090817_092017_PHF10_(—) P 9.8605 0.5108141 4.52E−05 //10 21//55 100B.06827.06827.4 0 −0.5307493 CW090817_092017_PHF10_(—) P 7.32275 0.39426856 2.16E−04 //10 19//55 100B.04420.04420.4 0 −0.2520146 CW090817_092017_PHF10_(—) P 6.50875 0.27140713 3.77E−07 //10 17//67 100B.04284.04284.5 0 −0.3232485 CW090817_092017_PHF10_(—) P 5.15025 0.29566004 8.55E−01 //10 17//67 100B.05706.05706.5 0 2.43258366 CW090817_092017_PHF10_(—) P 5.02625 0.37507929 8.91E−02 //10 12//55 1ug.04090.04090.4 0 0.10415526 CW090817_092017_PHF10_(—) P 4.7985 0.25717501 1.22E−03 //10 12//67 1ug.04114.04114.5 0 −0.6447236 CW090817_092017_PHF10_(—) P 4.37875 0.30873229 8.98E−03 //10 13//55 100B.04245.04245.4 3 SMARCE1:271- 11.33625 SMARCE1:277 0 4.11526559 CW090817_092017_PHF10_(—) N 11.33625 0.39066942 //14 12//65 70B.16660.16660.4 0 4.11526559 CW090817_092017_PHF10_(—) N 11.18825 0.40626929 //14 12//65 70B.16654.16654.4 0 1.60833746 CW090817_092017_PHF10_(—) N 10.7675 0.38561401 //14 13//84 70B.15830.15830.5 −2 4.43200462 CW090817_092017_PHF10_(—) N 9.733 0.25217313 //14 11//65 50B.17279.17279.4 −1 4.69005776 CW090817_092017_PHF10_(—) N 8.65225 0.31170293 //14 11//84 70B.15857.15857.5 0 5.83108425 CW090817_092017_PHF10_(—) N 7.739 0.29625235 //14 10//65 70B.16648.16648.4 0 3.96340237 CW090817_092017_PHF10_(—) N 7.723 0.29545889 //14 15//65 70B.15792.15792.4 0 1.95183367 CW090817_092017_PHF10_(—) N 7.47925 0.28165129 //14 12//65 100B.16331.16331.4 −1 8.23035841 CW090817_092017_PHF10_(—) N 6.879 0.2793219 //14 12//65 100B.16323.16323.4 −2 0.75020018 CW090817_092017_PHF10_(—) N 6.60375 0.26001063 //14 11//84 70B.15867.15867.5 0 3.96606369 CW090817_092017_PHF10_(—) N 5.16025 0.14330644 //14 12//65 50B.17261.17261.4 −1 6.88796393 CW090817_092017_PHF10_(—) N 4.81925 0.1781213 //14 10//65 100B.16326.16326.4 −3 11.0290054 CW090817_092017_PHF10_(—) N 4.70775 0.19688225 //14 9//84 70B.15919.15919.5 −2 4.33766877 CW090817_092017_PHF10_(—) N 4.0655 0.18159687 //14 8//84 100B.15367.15367.5 −1 3.7429389 CW090817_092017_PHF10_(—) N 3.98625 0.28773279 //14 9//84 D.16217.16217.5 −1 8.18881249 CW090817_092017_PHF10_(—) N 3.9265 0.19171427 //14 7//84 1ug.16338.16338.5 14 SMARCD2 1 SMARCD2:237- 8.47025 SMARCD2:401 −1 −0.8350768 CW090817_092017_PHF10_(—) NP 8.47025 0.27377259 1.21E−08 //15 26//216 50B.18304.18304.5 −2 −5.3284427 CW090817_092017_PHF10_(—) NP 8.30225 0.26480767 2.70E−06 1//15 28//216 50B.18302.18302.5 −2 −2.0565743 CW090817_092017_PHF10_(—) NP 8.2595 0.2607577 3.53E−06 //15 28//216 50B.18292.18292.5 0 −1.7221166 CW090817_092017_PHF10_(—) NP 8.09375 0.26562141 1.35E−03 1//15 23//216 50B.18287.18287.5 −1 1.38662899 CW090817_092017_PHF10_(—) P 6.03825 0.19399688 8.66E−02 1//15 17//216 50B.18289.18289.6 15 SMARCC1 1 SMARCC1:716- 8.468 SMARCC1:740 0 −2.3489188 CW090817_092017_PHF10_(—) NP 8.468 0.30746328 9.89E−08 //17 20//90 50B.15040.15040.4 0 −7.8110822 CW090817_092017_PHF10_(—) NP 8.081 0.27370489 7.23E−08 //17 21//90 50B.15056.15056.4 2 SMARCC1:716- 10.784 SMARCC1:716 −1 1.0619283 CW090817_092017_PHF10_(—) NP 10.784 0.66054147 2.13E−06 //17 12//84 D.20889.20889.4 0 −6.6210865 CW090817_092017_PHF10_(—) NP 9.331 0.47261124 2.36E−03 1//17 12//84 D.20843.20843.4 3 SMARCC1:716- 10.14425 SMARCC1:882 0 0.44945101 CW090817_092017_PHF10_(—) NP 10.14425 0.42580855 1.35E−09 //17 18//111 70B.15629.15629.5 0 −1.087139 CW090817_092017_PHF10_(—) NP 9.70725 0.39693525 2.50E−06 //17 19//111 70B.15468.15468.5 0 4.7299517 CW090817_092017_PHF10_(—) NP 9.62075 0.42794075 9.94E−10 //17 17//111 100B.15012.15012.5 0 −1.855434 CW090817_092017_PHF10_(—) NP 9.47725 0.40463026 3.84E−08 //17 21//111 70B.15452.15452.5 0 −0.6872385 CW090817_092017_PHF10_(—) NP 9.4365 0.3956355 8.09E−12 //17 23//86 70B.15625.15625.4 0 3.96643403 CW090817_092017_PHF10_(—) NP 9.0805 0.30231048 1.00E−10 //17 20//86 1ug.15921.15921.4 0 −0.7750437 CW090817_092017_PHF10_(—) NP 8.96725 0.34429833 2.07E−12 //17 20//86 70B.15461.15461.4 0 3.85190027 CW090817_092017_PHF10_(—) NP 8.96025 0.39631342 7.02E−09 //17 18//111 100B.14991.14991.5 −1 −1.7237263 CW090817_092017_PHF10_(—) NP 8.8545 0.40392774 2.22E−07 //17 16//111 1ug.16064.16064.5 −2 −0.3360179 CW090817_092017_PHF10_(—) NP 8.59125 0.36556177 1.32E−08 //17 19//86 100B.15001.15001.4 −1 8.26888601 CW090817_092017_PHF10_(—) NP 8.424 0.35779817 1.04E−13 //17 20//86 D.15872.15872.4 0 3.96643403 CW090817_092017_PHF10_(—) NP 8.397 0.29576795 4.76E−10 //17 19//86 1ug.15926.15926.4 −2 2.82496718 CW090817_092017_PHF10_(—) NP 8.039 0.33424806 3.94E−12 //17 18//86 1ug.16024.16024.4 0 4.29092598 CW090817_092017_PHF10_(—) NP 7.97425 0.42976287 5.44E−11 //17 14//111 D.15857.15857.5 0 −0.318844 CW090817_092017_PHF10_(—) NP 7.93325 0.35040857 7.92E−06 //17 16//111 1ug.15904.15904.5 −1 1.12994086 CW090817_092017_PHF10_(—) NP 7.8595 0.43208994 3.56E−10 //17 13//111 1ug.16076.16076.5 −2 1.59091786 CW090817_092017_PHF10_(—) NP 7.50225 0.46532796 1.55E−12 //17 12//111 D.15850.15850.5 0 6.42497802 CW090817_092017_PHF10_(—) NP 7.4525 0.35412212 1.15E−08 //17 18//86 D.15973.15973.4 0 3.26399289 CW090817_092017_PHF10_(—) NP 6.91775 0.33821013 6.98E−08 //17 13//86 70B.15721.15721.4 0 1.54701529 CW090817_092017_PHF10_(—) NP 6.25375 0.3092089 3.52E−06 //17 13//111 1ug.15892.15892.5 −2 −1.8287054 CW090817_092017_PHF10_(—) NP 5.4215 0.30226075 2.35E−09 //17 12//86 70B.15756.15756.4 −2 6.95180887 CW090817_092017_PHF10_(—) NP 4.675 0.30301066 1.07E−05 //17 15//86 D.15859.15859.4 4 SMARCC1:716- 7.07825 SMARCC1:739 −1 0.21751339 CW090817_092017_PHF10_(—) NP 7.07825 0.39801226 2.55E−05 //17 10//123 100B.18543.18543.5 0 −1.1822447 CW090817_092017_PHF10_(—) P 6.3135 0.31353512 1.07E−07 //17 10//123 100B.18532.18532.5 0 −0.7194196 CW090817_092017_PHF10_(—) NP 6.2145 0.2514414 1.42E−06 //17 15//123 100B.18559.18559.6 −1 0.56313267 CW090817_092017_PHF10_(—) P 5.79125 0.27606302 1.00E−05 //17 10//123 100B.18499.18499.5 −1 2.73677321 CW090817_092017_PHF10_(—) P 4.862 0.18747952 7.21E−05 //17 11//123 100B.18531.18531.6 5 SMARCC1:199- 3.61375 SMARCC1:292 0 −1.9735226 CW090817_092017_PHF10_(—) NP 3.61375 0.19510055 1.92E−03 2//13 16//64 100B.09869.09869.4 6 SMARCC1:292- 4.69975 SMARCC1:303 0 0.83976071 CW090817_092017_PHF10_(—) NP 4.69975 0.33598442 1.24E−05 //12 11//57 D.10569.10569.4 −1 5.11380502 CW090817_092017_PHF10_(—) NP 4.40675 0.26544288 5.77E−04 //16 11//85 100B.09702.09702.4 0 1.19841902 CW090817_092017_PHF10_(—) NP 4.242 0.24762127 4.53E−06 //12 9//57 D.10550.10550.4 7 SMARCC1:478- 5.48525 SMARCC1:482 0 0.00678037 CW090817_092017_PHF10_(—) N 5.48525 0.19621363 1//13 10//59 50B.19021.19021.4 8 SMARCC1:317- 5.256 SMARCC1:354 0 0.1224343 CW090817_092017_PHF10_(—) NP 5.256 0.27115147 9.59E−05 1//11 12//46 70B.07342.07342.4 9 SMARCC1:317- 5.561 SMARCC1:359 0 1.21027545 CW090817_092017_PHF10_(—) NP 5.561 0.38208114 1.28E−08 //15 16//78 D.06622.06622.4 10 SMARCC1:882- 8.2285 SMARCC1:891 0 2.40135054 CW090817_092017_PHF10_(—) N 8.2285 0.45920531 //10 8//57 D.18329.18329.5 11 SMARCC1:882- 8.408 SMARCC1:893 −1 2.56897865 CW090817_092017_PHF10_(—) N 8.408 0.34059101 //10 7//57 100B.17278.17278.5 −1 0.62172558 CW090817_092017_PHF10_(—) N 8.392 0.39461124 //10 8//57 100B.17310.17310.5 0 2.40135054 CW090817_092017_PHF10_(—) N 8.3445 0.48465224 //10 8//57 D.18327.18327.5 −1 1.95405581 CW090817_092017_PHF10_(—) N 6.813 0.36037132 //10 7//57 100B.17344.17344.5 12 SMARCC1:882- 13.8335 SMARCC1:882 −1 −3.3579126 CW090817_092017_PHF10_(—) NP 13.8335 0.88038567 6.99E−05 //10 16//63 100B.09582.09582.5 13 SMARCC1:590- 2.38425 SMARCC1:615 −1 1.95053022 CW090817_092017_PHF10_(—) N 2.38425 0.13326905 1//8 6//32 100B.12364.12364.4 14 SMARCC1:854- 4.3 SMARCC1:882 −1 3.65325388 CW090817_092017_PHF10_(—) N 4.3 0.29095338 //9 6//34 70B.07306.07306.4 15 SMARCC1:588- 14.00425 SMARCC1:592 0 0.95033883 CW090817_092017_PHF10_(—) N 14.00425 0.42303161 //12 10//62 50B.20753.20753.4 0 4.02184164 CW090817_092017_PHF10_(—) N 13.2105 0.40896849 //12 12//62 50B.20214.20214.4 −1 0.9634178 CW090817_092017_PHF10_(—) N 10.8665 0.34584109 //12 8//62 50B.20744.20744.4 0 −5.3524774 CW090817_092017_PHF10_(—) NP 3.8415 0.12345937 3.53E−03 //16 12//106 50B.20178.20178.4 0 −6.7168277 CW090817_092017_PHF10_(—) P 3.034 0.22617317 2.04E−02 //16 6//106 1ug.20726.20726.4 16 SMARCC1:740- 10.16125 SMARCC1:750 −1 −4.1902109 CW090817_092017_PHF10_(—) NP 10.16125 0.66160432 1.46E−08 //15 21//290 D.13679.13679.5 17 SMARCC1:740- 8.80175 SMARCC1:882 0 −1.0488642 CW090817_092017_PHF10_(—) NP 8.80175 0.50162426 1.25E−07 2//10 18//63 100B.07344.07344.5 0 2.68874646 CW090817_092017_PHF10_(—) NP 6.2925 0.37506706 8.74E−09 1//10 15//53 100B.07330.07330.4 −1 3.0440956 CW090817_092017_PHF10_(—) NP 5.5815 0.37310739 1.12E−08 //10 11//53 100B.07308.07308.4 18 SMARCC1:303- 4.098 SMARCC1:34 0 −2.6083265 CW090817_092017_PHF10_(—) NP 4.098 0.23993677 6.31E−03 //16 10//108 70B.06975.06975.5 19 SMARCC1:303- 4.724 SMARCC1:317 −1 −1.8608091 CW090817_092017_PHF10_(—) NP 4.724 0.25312793 1.93E−03 //16 11//108 70B.06644.06644.5 0 −1.8310259 CW090817_092017_PHF10_(—) NP 3.949 0.36008024 4.74E−11 //16 9//85 70B.06365.06365.4 0 −2.9589088 CW090817_092017_PHF10_(—) P 3.90175 0.22616874 6.61E−01 //16 10//106 100B.06315.06315.5 0 −1.8428301 CW090817_092017_PHF10_(—) NP 3.515 0.17110451 6.03E−08 //12 13//57 50B.06167.06167.4 −1 −5.3532597 CW090817_092017_PHF10_(—) P 2.50275 0.12894127 4.36E−02 //16 7//85 70B.06673.06673.4 −1 −3.3490672 CW090817_092017_PHF10_(—) P 1.4745 0.08499294 7.12E−02 //12 10//57 1ug.06197.06197.4 16 PHF10 1 PHF10:178- 11.91075 PHF10:487 0 0.95068528 CW090817_092017_PHF10_(—) N 11.91075 0.51288593 //5 4//23 70B.07422.07422.5 2 PHF10:241- 14.81275 PHF10:249 0 7.89436047 CW090817_092017_PHF10_(—) NP 14.81275 0.43506131 1.19E−07 2//16 30//127 50B.20198.20198.4 0 2.95486084 CW090817_092017_PHF10_(—) NP 13.062 0.40720766 2.74E−06 2//16 31//127 50B.20208.20208.4 0 4.38323863 CW090817_092017_PHF10_(—) NP 11.79475 0.5592712 8.57E−07 //16 28//177 70B.18237.18237.5 −2 3.66392584 CW090817_092017_PHF10_(—) N 9.07225 0.29534467 //8 5//36 50B.21453.21453.4 −1 1.89639664 CW090817_092017_PHF10_(—) NP 7.3245 0.26839993 2.97E−06 //16 19//127 50B.20174.20174.4 −1 12.1346023 CW090817_092017_PHF10_(—) NP 5.53975 0.30696238 7.19E−08 //16 19//133 70B.18224.18224.4 −2 7.89436047 CW090817_092017_PHF10_(—) P 4.3305 0.32907785 7.34E−06 //16 11//127 1ug.20242.20242.4 −1 3.4488108 CW090817_092017_PHF10_(—) P 3.90425 0.23726831 1.54E−05 //16 9//127 1ug.20182.20182.4 −2 17.3137354 CW090817_092017_PHF10_(—) N 3.808 0.142443 //8 4//36 50B.21439.21439.4 −3 16.0029742 CW090817_092017_PHF10_(—) N 3.73 0.12178598 //8 4//36 50B.21446.21446.4 −1 0.31895289 CW090817_092017_PHF10_(—) P 2.58825 0.15863263 2.67E−05 //16 10//133 70B.18281.18281.4 3 PHF10:355- 2.83275 PHF10:365 0 −1.9228818 CW090817_092017_PHF10_(—) P 2.83275 0.18364668 2.70E−02 //15 13//99 100B.09131.09131.5 4 PHF10:355- 2.39575 PHF10:387 0 1.66242124 CW090817_092017_PHF10_(—) N 2.39575 0.11319128 //6 4//27 70B.07095.07095.4 5 PHF10:316- 6.5145 PHF10:487 −3 13.9714377 CW090817_092017_PHF10_(—) NP 6.5145 0.37817834 3.62E−02 //18 21//183 50B.08339.08339.4 6 PHF10:349- 5.077 PHF10:355 0 3.67044882 CW090817_092017_PHF10_(—) N 5.077 0.27217412 //7 7//33 100B.07374.07374.4 7 PHF10:349- 3.13925 PHF10:365 0 −1.8488126 CW090817_092017_PHF10_(—) P 3.13925 0.16204253 7.97E−06 //15 6//78 70B.11108.11108.4 8 PHF10:118- 6.55125 PHF10:487 0 0.15953841 CW090817_092017_PHF10_(—) N 6.55125 0.30806217 //5 3//21 100B.14029.14029.4 0 2.97196846 CW090817_092017_PHF10_(—) N 5.816 0.30879503 //5 4//26 100B.14048.14048.5 0 6.4530377 CW090817_092017_PHF10_(—) N 3.144 0.24426058 //5 3//26 100B.13169.13169.5 9 PHF10:118- 11.413 PHF10:168 0 4.20010002 CW090817_092017_PHF10_(—) P 11.413 0.51221866 1.26E−06 2//15 22//76 100B.12063.12063.4 0 −1.2866548 CW090817_092017_PHF10_(—) P 6.98175 0.30754576 4.25E−02 1//15 19//96 100B.12113.12113.5 10 PHF10:106- 3.49425 PHF10:355 0 4.21031839 CW090817_092017_PHF10_(—) N 3.49425 0.20524229 2//8 6//28 100B.07814.07814.4 0 2.59285247 CW090817_092017_PHF10_(—) P 3.2965 0.19104054 1.04E−03 2//8 8//37 100B.07657.07657.4 0 4.19086135 CW090817_092017_PHF10_(—) P 2.8635 0.16818889 5.08E−03 //8 8//40 100B.07814.07814.4 11 PHF10:106- 2.8125 PHF10:387 0 5.86729911 CW090817_092017_PHF10_(—) NP 2.8125 0.1574704 2.48E−03 1//8 6//36 70B.08217.08217.4 12 PHF10:106- 4.29375 PHF10:118 0 1.28744842 CW090817_092017_PHF10_(—) N 4.29375 0.35738067 //8 6//43 70B.16842.16842.5 0 −7.3383699 CW090817_092017_PHF10_(—) P 4.06075 0.33798743 6.43E−04 //13 7//78 70B.16842.16842.5 0 1.12275617 CW090817_092017_PHF10_(—) N 3.74325 0.23125039 5//9 12//36 100B.09674.09674.4 0 2.34364193 CW090817_092017_PHF10_(—) P 2.3965 0.17251557 1.95E−04 1//10 6//52 D.08257.08257.5 −1 −2.8416818 CW090817_092017_PHF10_(—) P 2.306 0.12795117 6.20E−04 //9 5//46 100B.08778.08778.4 −1 0.46215504 CW090817_092017_PHF10_(—) P 1.91175 0.09913659 4.59E−04 //9 5//46 100B.08773.08773.4 0 −0.0162415 CW090817_092017_PHF10_(—) P 1.89 0.08955012 2.31E−01 2//9 10//55 100B.08752.08752.5 13 PHF10:106- 3.83725 PHF10:487 −1 4.58986854 CW090817_092017_PHF10_(—) N 3.83725 0.2162562 //5 3//21 100B.08152.08152.4 0 1.40868729 CW090817_092017_PHF10_(—) N 2.54575 0.14210952 //5 4//21 100B.07803.07803.4 14 PHF10:106- 6.243 PHF10:106 0 −0.8814399 CW090817_092017_PHF10_(—) NP 6.243 0.33257864 7.32E−05 2//8 9//38 70B.12556.12556.4 0 −3.4747122 CW090817_092017_PHF10_(—) NP 5.8275 0.33188109 8.04E−06 1//8 8//38 70B.12603.12603.4 0 −1.1775493 CW090817_092017_PHF10_(—) NP 4.366 0.23794861 3.20E−03 //8 6//42 100B.11237.11237.4 15 PHF10:106- 4.996 PHF10:120 0 2.14699738 CW090817_092017_PHF10_(—) NP 4.996 0.23308762 4.93E−07 //8 7//38 70B.13686.13686.4 0 2.21199668 CW090817_092017_PHF10_(—) NP 4.6945 0.20735882 2.68E−05 1//8 8//38 70B.13665.13665.4 0 3.83295769 CW090817_092017_PHF10_(—) P 2.5285 0.15944634 4.63E−04 1//9 5//55 100B.12189.12189.5 16 PHF10:106- 12.85675 PHF10:152 0 4.71673006 CW090817_092017_PHF10_(—) N 12.85675 0.50714962 1//8 7//33 100B.16412.16412.4 0 0.90381959 CW090817_092017_PHF10_(—) N 12.5635 0.50782134 //8 6//33 D.17368.17368.4 −1 4.87102036 CW090817_092017_PHF10_(—) N 11.89825 0.41449374 //8 6//33 70B.16703.16703.4 0 0.644411 CW090817_092017_PHF10_(—) N 10.50325 0.44413083 //8 6//33 1ug.17324.17324.4 0 4.18965012 CW090817_092017_PHF10_(—) N 9.55275 0.40770577 //8 6//33 100B.16352.16352.4 −1 2.45071548 CW090817_092017_PHF10_(—) N 8.605 0.38922562 //8 4//33 1ug.17310.17310.4 0 4.37084826 CW090817_092017_PHF10_(—) N 8.2505 0.46783477 //8 5//33 D.17185.17185.4 0 4.19790745 CW090817_092017_PHF10_(—) N 7.283 0.36549319 //8 6//33 1ug.17302.17302.4 0 1.94145262 CW090817_092017_PHF10_(—) N 6.64475 0.27321039 1//8 5//33 50B.17293.17293.4 0 1.41901302 CW090817_092017_PHF10_(—) NP 6.619 0.41824903 3.16E−09 //17 13//87 100B.18589.18589.4 −1 2.37559844 CW090817_092017_PHF10_(—) P 4.514 0.2973062 1.55E−06 //17 12//87 1ug.19703.19703.4 0 13.7876104 CW090817_092017_PHF10_(—) N 3.89425 0.1390456 //8 5//33 70B.16851.16851.4 17 PHF10:106- 9.88875 PHF10:168 0 1.60043372 CW090817_092017_PHF10_(—) NP 9.88875 0.38589491 2.23E−12 4//15 24//76 100B.13906.13906.4 0 1.78411098 CW090817_092017_PHF10_(—) NP 8.75925 0.39604151 8.13E−15 2//15 18//76 100B.14023.14023.4 0 1.60043372 CW090817_092017_PHF10_(—) NP 8.6055 0.32505477 7.91E−11 2//15 16//76 100B.13898.13898.4 −1 3.15755678 CW090817_092017_PHF10_(—) P 2.662 0.13127851 2.40E−01 //13 2//143 1ug.16552.16552.5 18 PHF10:106- 12.62075 PHF10:157 0 1.87880245 CW090817_092017_PHF10_(—) N 12.62075 0.4691903 //8 6//41 70B.16805.16805.5 0 1.43955769 CW090817_092017_PHF10_(—) N 11.51425 0.43715593 //8 6//41 70B.16774.16774.5 0 4.61446642 CW090817_092017_PHF10_(—) P 9.877 0.31824333 1.59E−08 //17 26//95 100B.13144.13144.4 0 1.98480012 CW090817_092017_PHF10_(—) NP 8.9115 0.33585211 1.99E−12 //17 24//97 70B.14617.14617.4 0 0.67512316 CW090817_092017_PHF10_(—) P 8.45425 0.28120842 1.63E−07 //17 26//123 100B.13289.13289.5 0 3.51812501 CW090817_092017_PHF10_(—) P 8.34 0.34211876 1.25E−04 //17 23//95 100B.13302.13302.4 0 3.46868089 CW090817_092017_PHF10_(—) NP 8.0495 0.28659166 9.28E−12 //17 20//97 70B.14455.14455.4 −2 5.67718733 CW090817_092017_PHF10_(—) N 7.4795 0.31109494 //8 6//41 1ug.17436.17436.5 0 1.36033653 CW090817_092017_PHF10_(—) P 7.33325 0.25147888 5.57E−08 //17 26//123 100B.13131.13131.5 0 0.31094896 CW090817_092017_PHF10_(—) NP 7.17075 0.23818342 4.25E−07 1//17 25//125 70B.14599.14599.5 −1 0.42092079 CW090817_092017_PHF10_(—) N 7.07475 0.28798364 //8 6//41 1ug.17425.17425.5 −2 1.91259869 CW090817_092017_PHF10_(—) N 6.91475 0.3279853 //8 4//41 D.17414.17414.5 0 5.73524737 CW090817_092017_PHF10_(—) N 6.90775 0.24046194 //8 6//41 70B.16029.16029.5 −1 0.12546386 CW090817_092017_PHF10_(—) NP 6.765 0.26672186 4.14E−09 1//17 16//125 70B.15111.15111.5 0 0.26446783 CW090817_092017_PHF10_(—) N 6.74 0.31347379 //8 6//41 70B.16918.16918.5 −1 2.03478509 CW090817_092017_PHF10_(—) N 6.68425 0.32511734 //8 5//41 70B.29657.29657.5 −1 5.85516864 CW090817_092017_PHF10_(—) N 6.204 0.2628925 //8 5//41 70B.16686.16686.5 0 5.36475075 CW090817_092017_PHF10_(—) NP 6.16225 0.25476476 2.78E−10 //17 16//97 1ug.14798.14798.4 −1 3.3040458 CW090817_092017_PHF10_(—) N 6.148 0.30991808 //8 6//33 100B.16493.16493.4 0 −2.8790313 CW090817_092017_PHF10_(—) NP 6.10125 0.30828407 3.98E−09 //17 13//97 D.14780.14780.4 0 0.26446783 CW090817_092017_PHF10_(—) N 6.057 0.29437208 //8 5//41 70B.16909.16909.5 0 0.66435749 CW090817_092017_PHF10_(—) N 6.00525 0.23134932 //8 5//33 70B.16106.16106.4 −1 3.51005289 CW090817_092017_PHF10_(—) N 5.9075 0.23299152 //8 6//36 100B.15558.15558.6 −1 0.42092079 CW090817_092017_PHF10_(—) N 5.88975 0.29362132 //8 5//41 1ug.17421.17421.5 0 1.94340156 CW090817_092017_PHF10_(—) P 5.6425 0.21904965 7.88E−08 //17 17//123 100B.13290.13290.6 −1 5.03499947 CW090817_092017_PHF10_(—) NP 5.59725 0.2581936 2.60E−12 //17 15//97 D.14788.14788.4 0 0.06395916 CW090817_092017_PHF10_(—) P 5.54825 0.21478621 1.32E−07 //17 17//123 100B.13134.13134.6 0 1.26018631 CW090817_092017_PHF10_(—) N 5.5195 0.26848429 //8 5//41 1ug.17415.17415.5 −1 3.25508401 CW090817_092017_PHF10_(—) N 5.42075 0.31268747 //8 5//41 D.17358.17358.5 0 1.32529756 CW090817_092017_PHF10_(—) NP 5.3275 0.19621022 4.82E−12 //17 16//97 100B.14006.14006.4 −1 1.4901732 CW090817_092017_PHF10_(—) NP 5.224 0.2162744 4.59E−07 //17 15//97 100B.14149.14149.4 0 −3.2957057 CW090817_092017_PHF10_(—) NP 4.9825 0.20905887 3.09E−10 //17 16//125 100B.14020.14020.5 0 8.96387605 CW090817_092017_PHF10_(—) N 4.887 0.18564103 //8 6//41 70B.16141.16141.5 0 −0.3234588 CW090817_092017_PHF10_(—) NP 4.8545 0.22593782 1.46E−09 //17 14//97 D.14773.14773.4 −1 0.17116808 CW090817_092017_PHF10_(—) NP 4.8545 0.17720387 1.55E−08 //17 14//97 70B.14809.14809.4 −1 2.70164574 CW090817_092017_PHF10_(—) NP 4.73475 0.19522327 1.88E−08 //17 14//125 D.14776.14776.5 −1 1.87726754 CW090817_092017_PHF10_(—) NP 4.36125 0.19442958 7.76E−10 //17 13//125 1ug.14764.14764.5 −1 −0.0806307 CW090817_092017_PHF10_(—) NP 4.353 0.19218543 1.96E−07 //17 11//125 100B.13986.13986.5 0 −2.677422 CW090817_092017_PHF10_(—) NP 4.3345 0.2091385 3.46E−07 //17 14//125 70B.14430.14430.5 0 −2.677422 CW090817_092017_PHF10_(—) NP 4.16225 0.21113704 6.64E−07 //17 10//125 70B.14425.14425.5 −1 5.48392217 CW090817_092017_PHF10_(—) NP 4.11625 0.17069605 2.38E−07 //17 13//125 70B.15097.15097.5 −1 4.9142785 CW090817_092017_PHF10_(—) N 4.08525 0.15734892 //8 5//33 70B.15873.15873.4 −1 −2.0418921 CW090817_092017_PHF10_(—) P 4.08475 0.17872066 2.26E−03 //17 15//95 100B.13351.13351.4 0 4.43283997 CW090817_092017_PHF10_(—) NP 3.99325 0.16731611 1.21E−06 //17 12//125 D.14762.14762.5 −1 2.70164574 CW090817_092017_PHF10_(—) NP 3.927 0.18561233 4.04E−10 1//17 14//125 70B.15396.15396.5 −1 3.83516577 CW090817_092017_PHF10_(—) NP 3.84875 0.16768326 1.07E−05 1//17 14//125 70B.15416.15416.5 0 −4.7526473 CW090817_092017_PHF10_(—) P 3.819 0.14197026 8.81E−02 //14 8//143 70B.16805.16805.5 0 3.05649178 CW090817_092017_PHF10_(—) NP 3.61025 0.14354871 1.07E−06 //17 13//97 70B.14896.14896.4 −1 4.65954397 CW090817_092017_PHF10_(—) NP 3.43425 0.16127404 1.80E−04 //17 9//125 70B.15157.15157.5 −2 5.60757891 CW090817_092017_PHF10_(—) P 3.35375 0.19406029 2.96E−03 //17 7//125 70B.15688.15688.5 0 −4.8758228 CW090817_092017_PHF10_(—) P 3.2165 0.16224873 1.49E−09 //14 11//145 100B.13204.13204.5 0 −4.1200839 CW090817_092017_PHF10_(—) NP 3.06525 0.16776127 1.59E−05 //17 8//125 70B.15626.15626.5 0 −0.875762 CW090817_092017_PHF10_(—) P 3.01875 0.13439963 1.28E−03 //17 12//123 1ug.13871.13871.6 0 −6.3669747 CW090817_092017_PHF10_(—) P 2.96125 0.13772615 9.65E−02 //14 4//143 70B.16918.16918.5 0 1.65056354 CW090817_092017_PHF10_(—) P 2.34875 0.1211789 2.27E−02 //17 8//125 70B.15645.15645.5 0 −6.3669747 CW090817_092017_PHF10_(—) P 2.14675 0.10433779 9.41E−03 //14 6//143 70B.16909.16909.5 −3 2.98527112 CW090817_092017_PHF10_(—) P 2.04275 0.1175041 5.45E−01 //17 7//123 D.13997.13997.5 −2 −4.2683491 CW090817_092017_PHF10_(—) P 1.88925 0.08960799 7.04E−02 //14 9//143 D.17414.17414.5 −1 −2.1287236 CW090817_092017_PHF10_(—) P 1.8005 0.14155431 2.81E−01 //17 7//123 D.13924.13924.6 0 −0.0100902 CW090817_092017_PHF10_(—) P 1.74625 0.11540495 9.69E−01 //17 6//123 D.13815.13815.5 0 3.98798562 CW090817_092017_PHF10_(—) P 1.46375 0.09301919 4.37E−02 //17 11//95 1ug.13876.13876.4 0 −4.0779547 CW090817_092017_PHF10_(—) P 1.30725 0.07856542 7.76E−03 //17 7//95 1ug.13884.13884.4 19 PHF10:249- 6.1115 PHF10:487 −1 0.72351363 CW090817_092017_PHF10_(—) P 6.1115 0.23966197 6.54E−02 //16 22//175 70B.16988.16988.5 20 PHF10:195- 4.48075 PHF10:202 0 0.97255619 CW090817_092017_PHF10_(—) N 4.48075 0.26395393 //6 6//27 50B.12933.12933.4 21 PHF10:202- 11.2875 PHF10:206 0 2.67950824 CW090817_092017_PHF10_(—) N 11.2875 0.37115894 //12 17//63 50B.14714.14714.4 −1 5.00882956 CW090817_092017_PHF10_(—) N 10.1385 0.3262853 //12 17//63 50B.14735.14735.4 0 3.73378496 CW090817_092017_PHF10_(—) N 7.402 0.36080037 //5 4//21 70B.07796.07796.4 22 PHF10:168- 6.5915 PHF10:349 −1 −0.168171 CW090817_092017_PHF10_(—) NP 6.5915 0.2923773 3.76E−10 2//15 14//78 70B.12372.12372.4 −1 1.79399532 CW090817_092017_PHF10_(—) N 3.5685 0.14549272 //7 5//30 70B.12350.12350.4 23 PHF10:168- 7.69725 PHF10:487 0 3.54993433 CW090817_092017_PHF10_(—) P 7.69725 0.37417058 1.59E−05 1//15 16//79 100B.11531.11531.4 0 −2.2479891 CW090817_092017_PHF10_(—) P 6.3785 0.35343825 1.14E−03 //15 15//97 100B.11555.11555.5 0 −0.3322446 CW090817_092017_PHF10_(—) P 2.04125 0.17346505 2.23E−01 //15 6//77 D.10925.10925.4 24 PHF10:168- 6.2815 PHF10:241 −1 2.6938066 CW090817_092017_PHF10_(—) NP 6.2815 0.27981202 8.82E−09 //15 12//75 100B.14416.14416.4 25 PHF10:168- 7.75975 PHF10:178 0 6.6816887 CW090817_092017_PHF10_(—) N 7.75975 0.30322776 //15 11//91 100B.12126.12126.5 0 7.54295461 CW090817_092017_PHF10_(—) N 4.506 0.24153735 //15 8//71 100B.12172.12172.6 26 PHF10:120- 5.625 PHF10:487 0 2.10813571 CW090817_092017_PHF10_(—) N 5.625 0.29754033 //5 3//21 100B.14658.14658.4 0 1.74691642 CW090817_092017_PHF10_(—) N 4.29425 0.24586339 //5 3//21 100B.14632.14632.4 27 PHF10:120- 6.041 PHF10:168 −1 2.82165578 CW090817_092017_PHF10_(—) P 6.041 0.22957361 9.87E−06 //15 12//77 100B.14865.14865.4 −2 4.53869232 CW090817_092017_PHF10_(—) NP 5.6715 0.20830426 5.53E−05 1//15 12//77 100B.14830.14830.4 28 PHF10:347- 5.28825 PHF10:355 0 1.25577616 CW090817_092017_PHF10_(—) NP 5.28825 0.25451811 1.88E−04 //9 10//43 100B.04514.04514.4 0 4.69335172 CW090817_092017_PHF10_(—) N 2.424 0.10189369 //6 5//26 50B.08442.08442.4 Total unique intra crosslinks are: 185 Total counted intra crosslinks are: 688 Unique_(—) dot1 connective1 peptide1 protein1 protein1 subunit1 1.6105 1.875 R.IEK[1312.7]ER.M P51531:500 P51532:524 2 SMARCA2 3.75775 1.25 R.GRPPAEK[982.53]LSPNPPK.L P51531:1375 1 SMARCA2 3.46 1.07142857 R.GRPPAEK[982.53]LSPNPPK.L P51531:1375 1 SMARCA2 1.8615 0.64285714 R.GRPPAEK[982.53]LSPNPPK.L P51531:1375 1 SMARCA2 1.19125 1.125 R.IEK[1312.7]ER.M P51531:500 P51532:524 2 SMARCA2 4.6325 0.63461539 R.LTALLLPPDPIVINHVISVDPSDQK[1465.8]K.T Q6STE5:353 1 SMARCD3 4.05625 1.64705882 K.IPAVGGK[1426.82]ELDLHGLYTR.V Q68CP9:43 1 ARID2 1.37325 0.52941177 K.IPAVGGK[1426.82]ELDLHGLYTR.V Q68CP9:43 1 ARID2 1.92325 0.64705882 K.IPAVGGK[1426.82]ELDLHGLYTR.V Q68CP9:43 1 ARID2 4.2355 1.2 K.SSTK[2072.14]QPTVGGTSSTPR.A Q68CP9:1716 1 ARID2 3.74525 0.93333333 K.SSTK[2072.17]QPTVGGTSSTPR.A Q68CP9:1716 1 ARID2 3.27175 0.7 K.SSTK[2072.15]QPTVGGTSSTPR.A Q68CP9:1716 1 ARID2 3.38525 0.83333333 K.SSTK[2072.15]QPTVGGTSSTPR.A Q68CP9:1716 1 ARID2 5.769 1.83333333 R.DFTDEK[1463.82]EGPITK.H Q68CP9:1760 1 ARID2 4.49225 1.20833333 R.DFTDEK[1463.82]EGPITK.H Q68CP9:1760 1 ARID2 2.21725 1.125 R.DFTDEK[1463.82]EGPITK.H Q68CP9:1760 1 ARID2 2.76375 0.95454546 R.K[1999.98]IEVM[147.04]ENPSC[160.03]R.R Q68CP9:1262 1 ARID2 1.83675 0.63636364 R.K[2000.01]IEVM[147.04]ENPSC[160.03]R.R Q68CP9:1262 1 ARID2 1.642 0.54545455 R.K[1999.98]IEVM[147.04]ENPSC[160.03]R.R Q68CP9:1262 1 ARID2 0.906 0.83333333 R.YLEK[4868.36]YEK.V Q68CP9:99 1 ARID2 4.496 0.42682927 K.VHHFGEDDDEVPPGNPK[1601.9]PQLPIGAIPSSYNYQQHSVSDYLR.Q Q68CP9:119 1 ARID2 6.84375 0.96428571 R.RK[1272.68]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 1.59875 0.23214286 R.RK[1272.68]PDGTTTLGLLHPVDPIVGEPGYC[160.03]PVR.L Q9NPI1:344 1 BRD7 2.056 1.25 K.FK[1082.63]SNNLER.E Q9NPI1:307 1 BRD7 0.7275 0.3125 K.FK[1082.63]SNNLER.E Q9NPI1:307 1 BRD7 5.689 1.66666667 K.SDGDPIVDPEK[2547.27]EK.E Q8TAQ2:823 1 SMARCC2 3.37975 1.08333333 K.SDGDPIVDPEK[2547.28]EK.E Q8TAQ2:823 1 SMARCC2 1.2885 0.46153846 K.SDGDPIVDPEK[1550.82]EK.E Q8TAQ2:823 1 SMARCC2 1.1625 0.46153846 K.SDGDPIVDPEK[1550.82]EK.E Q8TAQ2:823 1 SMARCC2 5.447 1.23684211 R.EGGGAIEEEAKEK[1148.66]TSEAPK.K Q8TAQ2:789 1 SMARCC2 3.2445 1.4375 K.EK[1148.66]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.957 1.375 K.EK[1148.66]TSEAPK.K Q8TAQ2:789 1 SMARCC2 1.43325 0.65 K.EGDSEK[1154.62]ESEK.S Q8TAQ2:808 1 SMARCC2 0.7355 0.25 K.EGDSEK[1154.62]ESEK.S Q8TAQ2:808 1 SMARCC2 2.6665 1.3125 K.EK[1114.55]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.22525 1.3125 K.EK[1114.55]TSEAPK.K Q8TAQ2:789 1 SMARCC2 6.66175 1.23684211 R.EGGGAIEEEAKEK[913.48]TSEAPK.K Q8TAQ2:789 1 SMARCC2 6.26975 1.23684211 R.EGGGAIEEEAKEK[913.48]TSEAPK.K Q8TAQ2:789 1 SMARCC2 5.52175 1.05263158 R.EGGGAIEEEAKEK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 3.70075 0.57894737 R.EGGGAIEEEAKEK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 3.0915 1.25 K.EK[913.48]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.674 1.25 K.EK[913.48]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.629 1.3125 K.EK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 1.403 0.85714286 K.EK[1254.68]TSEAPK.K Q8TAQ2:789 1 SMARCC2 1.47825 0.8125 K.EK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 2.88525 1.3125 K.EK[1098.59]TSEAPK.K Q8TAQ2:789 1 SMARCC2 8.359 1.70588235 K.EGQEEVLK[895.5]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.17925 0.94117647 K.EGQEEVLK[895.5]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 6.335 1.41666667 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 5.43 1 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 4.97 1 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 3.45775 0.77777778 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 3.57375 0.83333333 K.ISAK[1207.69]TLTDEVNSPDSDRR.D Q8TAQ2:275 1 SMARCC2 1.63475 0.54545455 K.EK[2387.19]PTDM[147.04]QNFGLR.T Q8TAQ2:568 1 SMARCC2 9.1545 2.34615385 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 8.89 2.03846154 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 6.7045 1.69230769 R.EGGGAIEEEAK[1098.59]EK.T Q8TAQ2:787 1 SMARCC2 5.03675 1.19230769 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 4.6325 0.81578947 R.EGGGAIEEEAK[1098.59]EKTSEAPK.K Q8TAQ2:787 1 SMARCC2 4.12325 0.84615385 R.EGGGAIEEEAK[913.48]EK.T Q8TAQ2:787 1 SMARCC2 4.03875 0.80769231 R.EGGGAIEEEAK[913.48]EK.T Q8TAQ2:787 1 SMARCC2 3.619 0.60526316 R.EGGGAIEEEAK[913.48]EKTSEAPK.K Q8TAQ2:787 1 SMARCC2 7.18675 1.88461539 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 4.4435 1 R.EGGGAIEEEAK[1526.78]EK.T Q8TAQ2:787 1 SMARCC2 19.2785 1.73611111 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 18.12925 1.43055556 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 16.81275 1.66666667 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 16.8495 1.56944444 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 14.33625 1.19444444 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 9.862 0.91666667 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 6.96575 1.05769231 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPER.I Q8TAQ2:728 1 SMARCC2 6.4825 0.90384615 K.VTGK[1039.59]ADPAFGLESSGIAGTTSDEPER.I Q8TAQ2:728 1 SMARCC2 5.066 1.02941177 K.EGQEEVLK[1039.59]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 4.47475 2.1 K.AK[1039.59]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 4.177 1.85 K.AK[1039.59]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 3.335 1.35 K.AK[1039.59]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.9925 1.5 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 2.53975 1.5 R.K[1025.62]VEEAAK.V Q8TAQ2:718 1 SMARCC2 2.026 0.53846154 R.VEGQATDEKK[1039.59]EPK.E Q8TAQ2:770 1 SMARCC2 1.17 0.4375 K.SDGDPIVDPEK[1587.76]EKEPK.E Q8TAQ2:823 1 SMARCC2 1.3055 0.46875 K.SDGDPIVDPEK[1587.76]EKEPK.E Q8TAQ2:823 1 SMARCC2 0.83475 0.53125 K.SDGDPIVDPEK[1587.76]EKEPK.E Q8TAQ2:823 1 SMARCC2 1.89775 0.4 K.ESEK[1114.55]SDGDPIVDPEK.E Q8TAQ2:812 1 SMARCC2 1.8695 0.4 K.ESEK[1114.55]SDGDPIVDPEK.E Q8TAQ2:812 1 SMARCC2 1.636 0.36666667 K.ESEK[1114.55]SDGDPIVDPEK.E Q8TAQ2:812 1 SMARCC2 1.471 1.16666667 R.K[2211.09]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 1.30525 1.08333333 R.K[2211.1]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 1 0.66666667 R.K[2211.06]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 1.068 0.75 R.K[2211.08]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 5.99775 1.64705882 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.14 0.83333333 R.K[2211.1]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 1.17825 1.08333333 R.K[2211.07]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 1.2815 1.33333333 R.K[2211.11]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 0.97 0.66666667 R.K[2211.09]TK[284.17]VER.D Q8TAQ2:846 1 SMARCC2 7.557 1.82352941 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 6.789 1.70588235 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 6.58775 1.73529412 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.9825 1.32352941 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.2365 1.41176471 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.46675 1.11764706 K.EGQEEVLK[897.53]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.891 1.35294118 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 4.9485 1.41176471 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 5.45925 1.44117647 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 4.96025 1.17647059 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 4.33825 1.29411765 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 4.4215 1.05882353 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 4.847 0.94117647 K.EGQEEVLK[897.53]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 4.5765 1 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 3.988 0.76470588 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 3.12375 0.70588235 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.6865 0.58823529 K.EGQEEVLK[1025.62]EVVESEGER.K Q8TAQ2:836 1 SMARCC2 1.635 1 R.K[1990.06]VEEAAK.V Q8TAQ2:718 1 SMARCC2 8.3085 2.33333333 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 6.56425 1.96666667 K.MK[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 0.9715 1 R.KTK[1990.05]VER.D Q8TAQ2:848 1 SMARCC2 1.116 1.25 K.TK[1990.06]VER.D Q8TAQ2:848 1 SMARCC2 6.803 1.8 K.MK[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 3.3225 1.66666667 K.AK[1990.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 10.556 2.7 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 9.20775 2.36666667 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 9.311 2.3 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4.24825 1.61111111 K.AK[1990.05]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 3.04525 1.61111111 K.AK[1990.07]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 3.208 1.66666667 K.AK[1990.05]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 3.2575 1.72222222 K.AK[1990.07]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.775 1.22222222 K.AK[1990.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 2.92825 1.16666667 K.AK[1990.05]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 5.89375 1.3 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4.3945 1.2 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 1.8715 0.77777778 K.AK[1990.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 3.283 0.93333333 K.MK[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 1 SMARCC2 4.31375 1.60714286 R.VASAAAK[1990.06]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.05675 1.46428571 R.VASAAAK[1990.06]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 3.709 1.10714286 R.VASAAAK[1990.05]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 3.80875 1.25 R.VASAAAK[1990.06]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 3.095 1.14285714 R.VASAAAK[1990.07]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 3.36975 1.28571429 R.VASAAAK[1990.05]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.3215 1 R.VASAAAK[1990.06]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 2.91925 1.21428571 R.VASAAAK[1990.03]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.8565 0.67857143 R.VASAAAK[1990.04]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.67 0.53571429 R.VASAAAK[1990.05]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 9.16675 2.33333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 7.805 2 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 7.833 1.93333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 6.807 1.83333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.77075 1.4 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.7435 1.03333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.272 0.93333333 R.VASAAAK[1388.78]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 1.505 0.94444444 K.AK[1773.99]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 5.1765 1.6 R.VASAAAK[1039.59]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 7.2405 1.6 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 6.436 1.83333333 R.VASAAAK[897.53]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 6.049 1.6 R.VASAAAK[1025.62]SALEEFSK.M Q8TAQ2:694 1 SMARCC2 4.6015 1.75 K.AK[897.53]HLAAVEER.K Q8TAQ2:874 Q92922:882 2 SMARCC2 0.93475 0.42307692 R.VEGQATDEK[1611.8]KEPK.E Q8TAQ2:769 1 SMARCC2 6.487 1.05 R.IEESGNDEARVEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 4.5475 2.05 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 4.6275 0.675 R.IEESGNDEARVEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 4.0105 1.2 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 1.0415 1.125 K.E[111.03]PK[1369.71]EPR.E Q8TAQ2:773 1 SMARCC2 3.76275 2.05 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 0.982 1 K.E[111.03]PK[1369.7]EPR.E Q8TAQ2:773 1 SMARCC2 1.0425 1 K.E[111.03]PK[1369.7]EPR.E Q8TAQ2:773 1 SMARCC2 0.965 1 K.E[111.03]PK[1369.7]EPR.E Q8TAQ2:773 1 SMARCC2 0.997 1 K.E[111.03]PK[1369.7]EPR.E Q8TAQ2:773 1 SMARCC2 1.052 1 K.E[111.03]PK[1369.7]EPR.E Q8TAQ2:773 1 SMARCC2 0.992 1 K.E[111.03]PK[1369.7]EPR.E Q8TAQ2:773 1 SMARCC2 3.135 1.25 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 1.1635 1 K.E[111.03]PK[1369.71]EPR.E Q8TAQ2:773 1 SMARCC2 3.0105 0.95 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 0.97575 0.9 K.EPK[1369.72]EPR.E Q8TAQ2:773 1 SMARCC2 2.2375 0.95 R.VEGQATDEK[1020.56]K.E Q8TAQ2:769 1 SMARCC2 4.33075 1.72727273 R.KVEEAAK[897.53]VTGK.A Q8TAQ2:724 1 SMARCC2 3.36825 1.61111111 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 3.062 1.55555556 K.SK[937.56]AAASATR.E Q8TAQ2:592 1 SMARCC2 12.0935 1.19444444 K.VTGK[897.53]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 6.9725 0.58333333 K.VTGK[1025.62]ADPAFGLESSGIAGTTSDEPERIEESGNDEAR.V Q8TAQ2:728 1 SMARCC2 5.467 2 K.DALVLHK[1061.55]VLLETR.R Q86U86:754 1 PBRM 2.12125 1.6 K.NYTDK[1772.06]R.G Q86U86:675 1 PBRM 2.65725 0.96153846 K.DALVLHK[1061.55]VLLETR.R Q86U86:754 1 PBRM 2.57275 0.73684211 R.EAEK[929.56]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 3.4075 1.85714286 R.K[929.56]NVENNR.Y Q86U86:827 1 PBRM 3.169 1.57142857 R.K[929.56]NVENNR.Y Q86U86:827 1 PBRM 2.5585 1.35714286 R.K[929.56]NVENNR.Y Q86U86:827 1 PBRM 2.4365 1.57142857 R.K[929.56]NVENNR.Y Q86U86:827 1 PBRM 2.412 1.78571429 R.K[929.56]NVENNR.Y Q86U86:827 1 PBRM 10.48925 1.91666667 R.VASVFANADK[929.56]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 9.02 1.47916667 R.VASVFANADK[929.56]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 10.00875 1.58333333 R.VASVFANADK[929.56]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 8.44075 2.16666667 R.VASVFANADK[929.56]GDDEK.N Q86U86:1106 1 PBRM 8.14925 1.96666667 R.VASVFANADK[929.56]GDDEK.N Q86U86:1106 1 PBRM 6.423 1.125 R.VASVFANADK[929.56]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 7.09825 1.29166667 R.VASVFANADK[929.56]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 6.452 1.6 R.VASVFANADK[929.56]GDDEK.N Q86U86:1106 1 PBRM 6.84 1.27083333 R.VASVFANADK[929.56]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 6.07925 1.13333333 R.VASVFANADK[929.56]GDDEK.N Q86U86:1106 1 PBRM 6.0505 1.23333333 R.VASVFANADK[929.56]GDDEK.N Q86U86:1106 1 PBRM 5.9055 0.91666667 R.VASVFANADK[929.56]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 5.01575 1 R.VASVFANADK[929.56]GDDEK.N Q86U86:1106 1 PBRM 2.7325 0.4375 R.VASVFANADK[929.56]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 1.5895 0.3125 R.VASVFANADK[929.56]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 5.70825 0.97916667 R.VASVFANADKGDDEK[929.56]NTDNSEDSR.A Q86U86:1111 1 PBRM 3.2005 0.60416667 R.VASVFANADKGDDEK[929.56]NTDNSEDSR.A Q86U86:1111 1 PBRM 6.0905 1 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 1.88 0.8 K.EPIDLK[3177.81]TIAQR.I Q86U86:231 1 PBRM 2.014 0.8 K.EPIDLK[3177.75]TIAQR.I Q86U86:231 1 PBRM 2.0545 0.8 K.EPIDLK[3177.79]TIAQR.I Q86U86:231 1 PBRM 2.042 0.8 K.EPIDLK[3177.76]TIAQR.I Q86U86:231 1 PBRM 1.6965 0.6 K.EPIDLK[3177.76]TIAQR.I Q86U86:231 1 PBRM 3.35125 1.5 R.LISELFQK[1548.89]LPSK.V Q86U86:210 1 PBRM 4.0165 0.68181818 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 2.7395 0.63636364 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 2.617 1.29166667 R.LISELFQK[1548.89]LPSK.V Q86U86:210 1 PBRM 2.427 1 R.LISELFQK[1548.89]LPSK.V Q86U86:210 1 PBRM 3.04175 0.54545455 K.VQYPDYYAIIKEPIDLK[1667.99]TIAQR.I Q86U86:231 1 PBRM 2.35625 1.125 R.LISELFQK[1548.89]LPSK.V Q86U86:210 1 PBRM 2.15725 1 R.LISELFQK[1548.89]LPSK.V Q86U86:210 1 PBRM 2.05025 0.75 R.LISELFQK[1548.89]LPSK.V Q86U86:210 1 PBRM 2.1145 1 R.LISELFQK[1548.89]LPSK.V Q86U86:210 1 PBRM 1.55575 0.66666667 R.LISELFQK[1548.89]LPSK.V Q86U86:210 1 PBRM 1.936 0.85 K.EPIDLK[1667.94]TIAQR.I Q86U86:231 1 PBRM 3.55875 0.81818182 K.VQYPDYYAIIK[1667.99]EPIDLKTIAQR.I Q86U86:225 1 PBRM 0.90025 0.20454546 K.VQYPDYYAIIK[1667.99]EPIDLKTIAQR.I Q86U86:225 1 PBRM 6.1125 1.47058824 R.AVIK[2105.16]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 2.06725 0.6875 K.VGDC[160.03]VFIK[1394.75]SHGLVRPR.V Q86U86:1167 1 PBRM 1.966 0.53125 K.VGDC[160.03]VFIK[1394.75]SHGLVRPR.V Q86U86:1167 1 PBRM 2.6825 0.875 K.VGDC[160.03]VFIK[1394.75]SHGLVRPR.V Q86U86:1167 1 PBRM 4.02025 0.77083333 R.VASVFANADK[1138.61]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 5.03325 0.97916667 R.VASVFANADK[1138.61]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 3.52075 0.64583333 R.VASVFANADK[1138.61]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 2.7575 0.58333333 R.VASVFANADK[1138.61]GDDEKNTDNSEDSR.A Q86U86:1106 1 PBRM 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0.61111111 K.EIEEDK[1007.64]LKR.E Q86U86:918 1 PBRM 2.60575 1 R.AAK[2073.03]VAEQQER.E Q86U86:1434 1 PBRM 2.04 0.72222222 R.AAK[2073.02]VAEQQER.E Q86U86:1434 1 PBRM 2.204 0.94444444 R.AAK[2073]VAEQQER.E Q86U86:1434 1 PBRM 4.371 0.97058824 K.YPDYYQQIK[2633.35]MPISLQQIR.T Q86U86:425 1 PBRM 11.607 2.52631579 R.EAEK[955.5]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 8.6305 1.81578947 R.EAEK[1111.6]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 7.779 1.68421053 R.EAEK[955.5]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 3.20675 0.9 R.K[881.57]PIVPQKEPSPLLEK.K Q86U86:1293 1 PBRM 1.206 1.7 K.KK[1566.92]ELAR.R Q86U86:485 1 PBRM 4.13125 1.63636364 R.VLK[1009.63]LQQVMQAK.K Q86U86:475 1 PBRM 1.051 1.4 K.KK[1566.92]ELAR.R Q86U86:485 1 PBRM 1.79175 0.75 R.VLK[2695.22]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 2.22675 0.85 K.EPIDLK[3177.74]TIAQR.I Q86U86:231 1 PBRM 2.1755 0.9 K.EPIDLK[3177.76]TIAQR.I Q86U86:231 1 PBRM 2.17325 0.95 K.EPIDLK[3177.76]TIAQR.I Q86U86:231 1 PBRM 2.17875 0.95 K.EPIDLK[3177.76]TIAQR.I Q86U86:231 1 PBRM 1.98425 0.85 K.EPIDLK[3177.79]TIAQR.I Q86U86:231 1 PBRM 2.1145 0.8 K.EPIDLK[3177.75]TIAQR.I Q86U86:231 1 PBRM 1.97125 0.85 K.EPIDLK[3177.74]TIAQR.I Q86U86:231 1 PBRM 1.11725 0.66666667 K.E[111.03]PIDLK[3177.78]TIAQR.I Q86U86:231 1 PBRM 1.0225 0.55555556 K.E[111.03]PIDLK[3177.78]TIAQR.I Q86U86:231 1 PBRM 1.07325 0.8 K.HLHNDVEK[1365.74]ER.K Q86U86:904 1 PBRM 2.13725 0.68181818 K.LPK[1541.8]EIEEDKLK.R Q86U86:912 1 PBRM 1.13725 0.45454546 K.LPK[1541.8]EIEEDKLK.R Q86U86:912 1 PBRM 0.366 0.15 K.HLHNDVEK[1365.74]ER.K Q86U86:904 1 PBRM 0.9325 1.3 K.KK[2695.22]ELAR.R Q86U86:485 1 PBRM 0.9545 1.2 K.K[2695.24]ELAR.R Q86U86:485 1 PBRM 1.482 1.3 K.KK[1713.99]ELAR.R Q86U86:485 1 PBRM 1.21925 1.3 K.KK[1713.99]ELAR.R Q86U86:485 1 PBRM 2.27825 0.8 K.LNEVYEAVK[1009.63]NYTDKR.G Q86U86:670 1 PBRM 3.17475 1.4375 K.EIEEDK[1111.6]LK.R Q86U86:918 1 PBRM 1.066 0.72222222 K.EIEEDK[1412.71]LKR.E Q86U86:918 1 PBRM 7.812 1.65789474 R.EAEK[1424.79]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 5.72925 1.15789474 R.EAEK[1424.79]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 4.85 1.02631579 R.EAEK[1424.79]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 4.032 0.71052632 R.EAEK[1424.79]SEDSSGAAGLSGLHR.T Q86U86:930 1 PBRM 1.79625 1.05 R.DVHLSK[1825.93]EQESR.L Q86U86:1642 1 PBRM 5.5395 1.10416667 R.VASVFANADKGDDEK[1138.61]NTDNSEDSR.A Q86U86:1111 1 PBRM 5.18725 0.9375 R.VASVFANADKGDDEK[1138.61]NTDNSEDSR.A Q86U86:1111 1 PBRM 3.72725 0.92857143 K.GDDEK[1138.61]NTDNSEDSR.A Q86U86:1111 1 PBRM 5.16275 0.95833333 R.VASVFANADKGDDEK[1138.61]NTDNSEDSR.A Q86U86:1111 1 PBRM 3.76775 0.72916667 R.VASVFANADKGDDEK[1138.61]NTDNSEDSR.A Q86U86:1111 1 PBRM 0.7945 0.16666667 R.VASVFANADKGDDEK[1138.61]NTDNSEDSR.A Q86U86:1111 1 PBRM 4.00325 1.65 R.AAK[1189.6]VAEQQER.E Q86U86:1434 1 PBRM 5.61275 1.31818182 R.YNVPNSAIYK[881.57]R.V Q86U86:471 1 PBRM 5.644 1.36363636 R.YNVPNSAIYK[881.57]R.V Q86U86:471 1 PBRM 4.09675 2 R.VLK[1589.86]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.60525 1.85 R.VLK[1589.86]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.53125 1.65 R.VLK[1745.96]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.4085 1.7 R.VLK[1589.85]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 6.91725 2.2 R.VLK[1745.96]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.58225 1.5 R.VLK[1745.95]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 5.2905 1.90909091 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 2.2175 1.35 R.VLK[1589.86]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 2.84575 1.05 R.YNVPNSAIYK[1851.1]R.V Q86U86:471 1 PBRM 4.496 1.68181818 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 3.028 1.375 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 0.30825 0.125 K.RYNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 3.2875 1.09090909 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 1.82275 1.3 R.VLK[1589.86]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.0635 1.5 R.VLK[1589.85]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 3.26675 1.04545455 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 3.318 1.5 R.VLK[1745.94]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 2.99825 1.5 R.VLK[1589.86]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 2.18525 1.05 R.VLK[1745.96]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 2.1635 0.68181818 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 1.956 0.54545455 R.YNVPNSAIYK[1550.92]R.V Q86U86:471 1 PBRM 1.62225 0.95 R.VLK[1745.95]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 1.609 0.9 R.VLK[1589.83]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 7.6585 2.03333333 K.LNEVYEAVK[881.57]NYTDKR.G Q86U86:670 1 PBRM 8.47625 2.06666667 R.LTGPSHSK[881.53]GSLGEER.N Q86U86:317 1 PBRM 4.87475 1.2 R.LTGPSHSK[1009.63]GSLGEER.N Q86U86:317 1 PBRM 2.349 0.95 R.VLK[1819.94]LQQVM[147.04]QAK.K Q86U86:475 1 PBRM 4.22 1.26666667 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 1.25325 0.33333333 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 2.78775 0.76666667 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 1.03725 0.23333333 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 2.5215 0.83333333 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 1.214 0.71428571 R.NPTSK[1819.94]YYR.N Q86U86:329 1 PBRM 2.18875 0.66666667 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 0.91925 0.33333333 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 0.38525 0.13333333 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 1 PBRM 2.38425 0.66666667 R.LTGPSHSK[1275.61]GSLGEER.N Q86U86:317 1 PBRM 2.194 0.73333333 R.LTGPSHSK[1589.86]GSLGEER.N Q86U86:317 1 PBRM 1.59225 0.63333333 R.LTGPSHSK[1589.86]GSLGEER.N Q86U86:317 1 PBRM 3.64625 1.02941177 R.AVIK[1189.6]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 2.8005 0.82352941 R.AVIK[1189.6]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 6.7595 1.38235294 R.AVIK[1068.62]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 6.10375 1.41176471 R.AVIK[1068.62]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 4.573 1.02941177 R.AVIK[1068.62]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 4.175 1.02941177 R.AVIK[2183.14]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 5.755 1.47058824 R.AVIK[1819.94]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 2.8 0.70588235 R.AVIK[1293.67]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 2.36725 0.5 R.AVIK[1293.67]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 3.47025 0.88235294 R.AVIK[1275.61]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 4.40075 1.11764706 R.AVIK[1589.86]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 2.03725 0.55882353 R.AVIK[1589.86]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 2.164 0.67647059 R.AVIK[1394.75]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 2.07725 0.76470588 R.AVIK[1138.61]AQHPDYSFGELSR.L Q86U86:1398 1 PBRM 1.52525 0.55 R.ELSQK[1636.93]TPPSM[147.04]R.L O96019:371 1 ACTL6A 1.6725 0.7 R.ELSQK[1636.91]TPPSM[147.04]R.L O96019:371 1 ACTL6A 1.4605 0.55 R.ELSQK[1636.95]TPPSM[147.04]R.L O96019:371 1 ACTL6A 2.43075 1.38888889 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 2.083 1.33333333 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 3.68625 1.38888889 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 1.6645 1 R.KEK[1309.68]LPQVTR.S O96019:242 1 ACTL6A 2.6445 1.3125 R.EGSPANWK[1363.81]R.K O96019:238 1 ACTL6A 2.765 2.3125 R.EGSPANWK[1519.89]R.K O96019:238 1 ACTL6A 4.511 1.61111111 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 4.178 1.33333333 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 3.03175 1.75 R.EGSPANWK[1519.92]R.K O96019:238 1 ACTL6A 2.1545 1.61111111 R.K[1309.68]EKLPQVTR.S O96019:240 1 ACTL6A 5.4205 1.03333333 K.GK[2811.41]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 4.90075 1 K.GK[2811.34]QGGPTYYIDTNALR.V O96019:62 1 ACTL6A 3.07775 0.95833333 K.QEYEEGGK[2811.42]QC[160.03]VER.K O96019:421 1 ACTL6A 2.962 1.125 K.QEYEEGGK[2811.43]QC[160.03]VER.K O96019:421 1 ACTL6A 4.661 1.63636364 K.Q[111.03]EYEEGGK[2811.37]QC[160.03]VER.K O96019:421 1 ACTL6A 1.557 0.3 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.8085 0.90909091 K.Q[111.03]EYEEGGK[2811.38]QC[160.03]VER.K O96019:421 1 ACTL6A 1.359 0.35 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.026 0.275 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 0.537 0.15 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.8445 0.66666667 K.QEYEEGGK[2811.4]QC[160.03]VER.K O96019:421 1 ACTL6A 0.871 0.225 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 2.704 0.375 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.16075 0.3 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 0.8535 0.3 R.EK[1876.86]LTELMFEHYNIPAFFLC[160.03]K.T O96019:135 1 ACTL6A 1.7945 0.95 R.LDGTTK[1048.61]AEDR.G P51532:1131 1 SMARCA4 8.74125 2.31818182 R.K[1048.61]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA4 1.69975 1.625 K.IK[1295.71]LGR.K P51532:1598 1 SMARCA4 2.7535 1.42857143 K.YK[2101.01]LNVDQK.V P51531:1191 P51532:1221 2 SMARCA4 1.1165 0.85714286 K.YK[2100.98]LNVDQK.V P51531:1191 P51532:1221 2 SMARCA4 1.6 2 R.IEK[1325.69]ER.M P51531:500 P51532:524 2 SMARCA4 1.18625 1.25 R.IEK[1325.69]ER.M P51531:500 P51532:524 2 SMARCA4 1.18675 1.25 R.IEK[1325.69]ER.M P51531:500 P51532:524 2 SMARCA4 1.195 1.25 R.LK[1234.8]GGR.R P51532:1610 1 SMARCA4 6.944 1.82142857 K.LTK[1125.68]AVATYHANTER.E P51532:502 1 SMARCA4 3.768 1.03571429 K.LTK[1125.68]AVATYHANTER.E P51532:502 1 SMARCA4 3.745 1.03571429 K.LTK[1125.68]AVATYHANTER.E P51532:502 1 SMARCA4 9.06775 3.13636364 R.K[795.5]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA4 8.04125 2.63636364 R.K[795.5]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA4 6.62675 1.90909091 R.K[982.53]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA4 5.9675 1.68181818 R.K[982.53]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA4 4.01075 1.45 R.LDGTTK[982.53]AEDR.G P51532:1131 1 SMARCA4 4.543 1.54545455 R.K[1370.7]ELPEYYELIR.K P51531:1434 P51532:1492 2 SMARCA4 5.73625 1.26470588 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 5.456 0.97058824 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 4.8605 1.02941177 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 4.75325 1.29411765 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 4.76725 1.17647059 R.GRPPAEK[982.53]LSPNPPNLTK.K P51532:1450 1 SMARCA4 4.87125 0.97058824 R.GRPPAEK[1251.72]LSPNPPNLTK.K P51532:1450 1 SMARCA4 3.08175 0.58823529 R.GRPPAEK[1251.72]LSPNPPNLTK.K P51532:1450 1 SMARCA4 2.58325 0.70588235 R.GRPPAEK[1251.72]LSPNPPNLTK.K P51532:1450 1 SMARCA4 1.72725 0.41176471 R.GRPPAEK[1251.72]LSPNPPNLTK.K P51532:1450 1 SMARCA4 2.32 1.58333333 R.K[1094.67]PVDFK.K P51531:1445 P51532:1503 2 SMARCA4 1.00475 1.25 R.NHK[1282.73]YR.S P51531:1460 P51532:1518 2 SMARCA4 2.389 1.42857143 R.K[982.53]PVDFKK.I P51531:1445 P51532:1503 2 SMARCA4 0.2155 0.14285714 R.IRNHK[998.58]YR.S P51531:1460 P51532:1518 2 SMARCA4 0.274 0.28571429 R.IRNHK[998.58]YR.S P51531:1460 P51532:1518 2 SMARCA4 1.61325 1.41666667 R.K[1094.69]PVDFK.K P51531:1445 P51532:1503 2 SMARCA4 1.0685 1.2 R.ILPK[1400.77]LR.A P51531:1061 P51532:1091 2 SMARCA4 3.15675 1.25 R.ASGK[1048.61]FELLDR.I P51531:1051 P51532:1081 2 SMARCA4 3.82575 0.61363636 R.HIIENAK[2151.07]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 0.9065 0.13636364 R.HIIENAK[2151.07]QDVDDEYGVSQALAR.G P51532:711 1 SMARCA4 1.30775 1.625 R.LK[1295.71]GGR.R P51532:1610 1 SMARCA4 1.0865 1.625 R.LK[1295.7]GGR.R P51532:1610 1 SMARCA4 0.9465 1.5 R.LK[1295.71]GGR.R P51532:1610 1 SMARCA4 1.4415 1.3 K.K[1323.71]ENER.I P51532:517 1 SMARCA4 0.999 0.9 K.K[1323.7]ENER.I P51532:517 1 SMARCA4 1.1185 1.2 K.K[1323.71]ENER.I P51532:517 1 SMARCA4 3.46725 0.9375 R.K[1344.65]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 3.31475 0.90625 R.K[1344.65]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 2.94725 0.78125 R.K[1344.65]RDSDAGSSTPTTSTR.S P51532:1414 1 SMARCA4 1.1875 1.2 K.K[1325.73]ENER.I P51532:517 1 SMARCA4 5.2395 1.23333333 K.AVATYHANTEREQK[939.54]K.E P51532:516 1 SMARCA4 1.48125 1.875 R.IEK[1325.69]ER.M P51531:500 P51532:524 2 SMARCA4 1.636 1.25 R.IEK[1307.69]ER.M P51531:500 P51532:524 2 SMARCA4 1.61125 1.0625 R.EQK[939.54]KENER.I P51532:516 1 SMARCA4 1.4805 1 R.EQK[939.54]KENER.I P51532:516 1 SMARCA4 1.16975 1.125 R.IEK[1325.69]ER.M P51531:500 P51532:524 2 SMARCA4 0.919 0.5625 R.EQK[939.54]KENER.I P51532:516 1 SMARCA4 2.67425 1.125 K.IK[2624.33]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 2.703 1.0625 K.IK[2624.31]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 2.905 1.5 K.IK[2624.28]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 2.1365 0.8125 K.IK[2624.31]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 2.28425 0.8125 K.IK[2624.31]IIAPPER.K P60709:328 Q562R1:329 2 ACTB 2.3855 0.95833333 K.EITALAPSTM[147.04]K[2624.32]IK.I P60709:326 1 ACTB 2.3565 0.875 K.EITALAPSTM[147.04]K[2624.33]IK.I P60709:326 1 ACTB 2.3015 0.83333333 K.EITALAPSTM[147.04]K[2624.32]IK.I P60709:326 1 ACTB 2.3845 0.83333333 K.EITALAPSTM[147.04]K[2624.33]IK.I P60709:326 1 ACTB 2.0985 0.70833333 K.EITALAPSTM[147.04]K[2624.31]IK.I P60709:326 1 ACTB 0.981 1.33333333 K.K[1598.84]IR.D Q12824:364 1 SMARCB1 0.9765 1.33333333 K.K[1598.83]IR.D Q12824:364 1 SMARCB1 1.04 1.33333333 K.K[1582.84]IR.D Q12824:364 1 SMARCB1 0.9625 1.33333333 K.K[1598.82]IR.D Q12824:364 1 SMARCB1 2.39 1.42857143 R.K[1430.78]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 3 SMARCD1 2.39 1.25 K.RK[1274.7]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 3 SMARCD1 1.108 0.625 R.M[147.04]K[2510.4]FSEIPQR.L Q96GM5:353 1 SMARCD1 12.01325 1.86842105 R.K[1155.63]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 1 SMARCD1 2.6235 1.33333333 R.AK[1297.74]DDIKR.V Q4VC05:15 1 BCL7A 1.73275 1.5 R.AK[1297.74]DDIKR.V Q4VC05:15 1 BCL7A 1.5745 1.33333333 R.AK[1297.75]DDIKR.V Q4VC05:15 1 BCL7A 2.3255 1.33333333 R.AK[1297.74]DDIKR.V Q4VC05:15 1 BCL7A 1.49825 1.41666667 R.AK[1297.74]DDIKR.V Q4VC05:15 1 BCL7A 10.76875 2.83333333 R.K[934.52]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 9.88925 2.16666667 R.K[934.52]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 5.919 1.76666667 R.K[934.52]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 5.375 1.86666667 R.K[934.52]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 5.50325 1.17857143 R.K[934.52]FLESTDSFNNELK.R Q969G3:258 1 SMARCE1 3.289 0.67857143 R.K[934.52]FLESTDSFNNELK.R Q969G3:258 1 SMARCE1 1.9415 0.67857143 R.K[1090.62]FLESTDSFNNELK.R Q969G3:258 1 SMARCE1 1.093 0.53333333 R.K[934.52]FLESTDSFNNELKR.L Q969G3:258 1 SMARCE1 9.4395 3.3 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 6.80775 2.75 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 5.71075 2.35 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 4.66075 2.2 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 4.67475 1.7 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 4.2745 1.5 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 3.95575 1.5 R.EK[1110.61]EAAEQAER.S Q969G3:305 1 SMARCE1 4.44225 1.36363636 R.LC[160.03]GLK[1965]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 4.00575 1.54545455 R.LC[160.03]GLK[1965]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 4.20825 1.31818182 R.LC[160.03]GLK[2093.08]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.653 1.22727273 R.LC[160.03]GLK[1964.97]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 4.16975 1.5 R.LC[160.03]GLK[2093.1]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.6975 1.18181818 R.LC[160.03]GLK[1965]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 5.14275 1.63636364 R.LC[160.03]GLK[2093.09]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.99925 1.54545455 R.LC[160.03]GLK[1964.99]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.97 1.54545455 R.LC[160.03]GLK[1965.01]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.33875 1.22727273 R.LC[160.03]GLK[2093.08]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 2.878 1.27272727 R.LC[160.03]GLK[1965]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 2.272 0.90909091 R.LC[160.03]GLK[1965.01]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 3.04825 1 R.LC[160.03]GLK[2093.04]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 2.07925 0.81818182 R.LC[160.03]GLK[2093.06]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 2.63425 1.13636364 R.LC[160.03]GLK[2093.07]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 1.9015 0.77272727 R.LC[160.03]GLK[2093.11]VEVDM[147.04]EK.I Q969G3:277 1 SMARCE1 4.07625 0.90384615 K.LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 1 SMARCD2 4.006 1.03846154 K.LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 1 SMARCD2 4.03675 0.96153846 K.LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 1 SMARCD2 3.84125 0.80769231 K.LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 1 SMARCD2 2.448 0.5 K.LAGLLQHPDPIVINHVISVDPNDQK[1465.8]K.T Q92925:401 1 SMARCD2 5.16 1.63333333 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 5.5105 1.8 R.VASAAAK[1066.61]AALEEFSR.V Q92922:716 1 SMARCC1 5.392 1.2 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Q8WUB8:157 1 PHF10 1.6725 1.14285714 R.K[2611.35]YPDLER.R Q8WUB8:106 1 PHF10 1.86 1.14285714 R.K[2611.36]YPDLER.R Q8WUB8:106 1 PHF10 2.9265 1.09375 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.36425 0.78125 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.6915 0.875 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.3425 1.42857143 R.K[2611.38]YPDLER.R Q8WUB8:106 1 PHF10 2.98875 0.84375 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.443 0.84375 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.647 0.8125 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.78925 0.65625 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.88475 0.65625 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.404 0.8125 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.10475 0.65625 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.09525 0.71875 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.0595 0.92857143 R.K[2152.11]YPDLER.R Q8WUB8:106 1 PHF10 3.77925 0.875 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.03775 0.6875 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.0545 0.6875 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.75475 0.6875 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 0.9855 0.36111111 K.EYPAK[1341.74]HAEYSVILQEKER.Q Q8WUB8:157 1 PHF10 1.887 0.71875 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.13425 0.59375 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.19525 0.46875 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.69825 0.44444444 K.EYPAK[1185.64]HAEYSVILQEKER.Q Q8WUB8:157 1 PHF10 1.21 0.5 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 2.88825 1.0625 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 0.78025 0.25 K.EYPAK[1341.74]HAEYSVILQEKER.Q Q8WUB8:157 1 PHF10 0.98525 0.5 K.EYPAK[1185.64]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 0.86875 0.30555556 K.EYPAK[1341.74]HAEYSVILQEKER.Q Q8WUB8:157 1 PHF10 1.7585 0.375 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 0.88 0.38888889 K.EYPAK[1341.74]HAEYSVILQEKER.Q Q8WUB8:157 1 PHF10 1.70025 0.5625 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.6555 0.40625 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.339 0.40625 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 1.215 0.34375 K.EYPAK[1341.74]HAEYSVILQEK.E Q8WUB8:157 1 PHF10 5.712 1.14285714 R.TK[724.46]VSSYPVALIPGQFQEYYKR.Y Q8WUB8:249 1 PHF10 1.01675 1.7 K.K[1527.86]AAK[284.17]K.A Q8WUB8:202 1 PHF10 7.862 2.13636364 K.K[1567.91]AAEFNSNLNR.E Q8WUB8:206 1 PHF10 7.4195 2.13636364 K.K[1567.91]AAEFNSNLNR.E Q8WUB8:206 1 PHF10 0.926 1.5 K.K[1528.79]AAK.K Q8WUB8:202 1 PHF10 4.56125 1.19230769 K.HAEYSVILQEK[1023.57]ER.Q Q8WUB8:168 1 PHF10 1.3875 1.33333333 K.DK[1866.98]AATPR.K Q8WUB8:349 1 PHF10 7.39875 1.76923077 K.HAEYSVILQEK[724.46]ER.Q Q8WUB8:168 1 PHF10 5.494 1.42307692 K.HAEYSVILQEK[724.46]ER.Q Q8WUB8:168 1 PHF10 1.8295 0.38461539 K.HAEYSVILQEK[880.56]ER.Q Q8WUB8:168 1 PHF10 2.9875 1.23076923 K.HAEYSVILQEK[1270.73]ER.Q Q8WUB8:168 1 PHF10 2.526 0.95833333 K.HAEYSVILQEK[2551.23]ER.Q Q8WUB8:168 1 PHF10 2.16175 0.75 K.HAEYSVILQEK[2551.23]ER.Q Q8WUB8:168 1 PHF10 0.9885 1 R.K[1823.02]VGR.R Q8WUB8:487 1 PHF10 0.9395 1 R.K[1823.01]VGR.R Q8WUB8:487 1 PHF10 5.145 1.26923077 K.HAEYSVILQEK[1086.64]ER.Q Q8WUB8:168 1 PHF10 4.25075 1.03846154 K.HAEYSVILQEK[1086.64]ER.Q Q8WUB8:168 1 PHF10 3.3165 1.44444444 K.SK[809.46]DKAATPR.K Q8WUB8:347 1 PHF10 1.0875 1.6 R.K[1394.77]DGPK.R Q8WUB8:355 1 PHF10 realpep1 position1 immonium2 ion2 dot2 connective2 IEKER 500 //10 9//44 2.0715 1.28571429 GRPPAEKLSPNPPK 1375 1//7 5//26 0.576 0.8 GRPPAEKLSPNPPK 1375 //7 2//26 0.2725 0.4 GRPPAEKLSPNPPK 1375 //7 5//21 0.7855 0.7 IEKER 500 //10 5//42 1.05675 0.71428571 LTALLLPPDPIVINHVISVDPSDQKK 353 //13 8//68 1.6775 0.95454546 IPAVGGKELDLHGLYTR 43 //11 13//65 5.52 1.75 IPAVGGKELDLHGLYTR 43 //11 12//65 4.9235 1.55 IPAVGGKELDLHGLYTR 43 //11 12//65 4.24225 1.25 SSTKQPTVGGTSSTPR 1716 //18 19//127 4.3405 1.53125 SSTKQPTVGGTSSTPR 1716 //18 15//127 3.702 1.15625 SSTKQPTVGGTSSTPR 1716 //18 15//127 4.06025 1.0625 SSTKQPTVGGTSSTPR 1716 //18 11//127 2.075 0.5625 DFTDEKEGPITK 1760 //12 8//51 0.966 0.6 DFTDEKEGPITK 1760 //12 5//51 1.1825 0.45 DFTDEKEGPITK 1760 //12 7//64 0.847 0.55 KIEVMENPSCR 1262 //17 10//109 2.133 0.89285714 KIEVMENPSCR 1262 //17 10//109 1.79175 0.71428571 KIEVMENPSCR 1262 //17 9//109 1.59375 0.57142857 YLEKYEK 99 // 44//241 13.992 1.5375 VHHFGEDDDEVPPGNPKPQLPIGAIPSSYNYQQHSVSDYLR 119 //15 3//87 0.24975 0.11538462 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //8 2//45 0.259 0.125 RKPDGTTTLGLLHPVDPIVGEPGYCPVR 344 //8 3//45 0.7115 0.3125 FKSNNLER 307 //10 5//41 0.66475 0.4375 FKSNNLER 307 //10 4//41 0.5365 0.375 SDGDPIVDPEKEK 823 //14 10//116 1.84675 0.72222222 SDGDPIVDPEKEK 823 //14 11//116 2.4825 0.75 SDGDPIVDPEKEK 823 //13 6//57 1.152 0.59090909 SDGDPIVDPEKEK 823 //13 6//57 1.01675 0.59090909 EGGGAIEEEAKEKTSEAPK 789 //9 5//39 0.8315 0.64285714 EKTSEAPK 789 //9 6//37 1.36475 0.92857143 EKTSEAPK 789 //9 7//37 1.39275 1 EGDSEKESEK 808 //8 7//39 1.93425 1.3125 EGDSEKESEK 808 //8 5//39 1.3045 0.75 EKTSEAPK 789 //8 8//39 2.293 1.375 EKTSEAPK 789 //8 5//39 1.05625 0.4375 EGGGAIEEEAKEKTSEAPK 789 //6 5//29 1.0835 1.3 EGGGAIEEEAKEKTSEAPK 789 //6 6//29 0.81575 1.4 EGGGAIEEEAKEKTSEAPK 789 //8 6//41 1.312 1.42857143 EGGGAIEEEAKEKTSEAPK 789 //8 6//41 0.85375 1 EKTSEAPK 789 //6 5//26 1.0245 1.3 EKTSEAPK 789 //6 4//26 0.46 0.6 EKTSEAPK 789 //8 5//38 0.496 0.5 EKTSEAPK 789 //8 5//39 1.2135 0.92857143 EKTSEAPK 789 1//8 5//38 0.472 0.5 EKTSEAPK 789 1//9 4//36 0.533 0.42857143 EGQEEVLKEVVESEGER 836 //5 4//20 0.87275 0.9 EGQEEVLKEVVESEGER 836 1//5 5//20 1.03925 1 ISAKTLTDEVNSPDSDRR 275 1//9 8//48 0.684 0.66666667 ISAKTLTDEVNSPDSDRR 275 //9 5//48 0.5345 0.5 ISAKTLTDEVNSPDSDRR 275 //9 3//48 0.2395 0.16666667 ISAKTLTDEVNSPDSDRR 275 //9 7//39 1.67525 0.72222222 ISAKTLTDEVNSPDSDRR 275 //9 6//39 1.10575 0.44444444 EKPTDMQNFGLR 568 //14 12//112 2.505 0.72222222 EGGGAIEEEAKEK 787 //13 10//57 1.6545 1.04545455 EGGGAIEEEAKEK 787 //13 11//57 1.7235 1.09090909 EGGGAIEEEAKEK 787 //8 4//37 0.45 0.42857143 EGGGAIEEEAKEK 787 //13 10//73 1.56225 1.04545455 EGGGAIEEEAKEKTSEAPK 787 //8 6//41 1.07125 1.21428571 EGGGAIEEEAKEK 787 //6 3//27 0.44925 0.5 EGGGAIEEEAKEK 787 //6 3//27 0.46 0.5 EGGGAIEEEAKEKTSEAPK 787 //6 4//29 0.39625 0.6 EGGGAIEEEAKEK 787 //13 9//57 1.5405 1 EGGGAIEEEAKEK 787 //13 8//73 1.5565 1.09090909 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 7//40 2.893 1.71428571 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 5//40 1.4715 0.92857143 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 7//32 2.399 1.71428571 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 6//32 1.7545 1.14285714 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 6//32 1.4995 1.14285714 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 5//32 1.1495 0.85714286 VTGKADPAFGLESSGIAGTTSDEPER 728 //8 6//32 0.9355 1.14285714 VTGKADPAFGLESSGIAGTTSDEPER 728 //8 2//32 0.25 0.14285714 EGQEEVLKEVVESEGER 836 //8 7//32 1.5905 1.21428571 AKHLAAVEER 874 //8 6//38 1.7815 1.42857143 AKHLAAVEER 874 //8 6//38 2.0665 1.42857143 AKHLAAVEER 874 //8 6//38 1.982 1.42857143 KVEEAAK 718 1//8 8//30 0.804 1.25 KVEEAAK 718 //8 6//30 0.46325 1.08333333 VEGQATDEKKEPK 770 //8 3//35 0.27825 0.35714286 SDGDPIVDPEKEKEPK 823 1//14 9//81 1.63875 1 SDGDPIVDPEKEKEPK 823 //14 7//81 0.966 0.375 SDGDPIVDPEKEKEPK 823 //14 5//81 0.304 0.20833333 ESEKSDGDPIVDPEK 812 //8 3//34 0.58875 0.3125 ESEKSDGDPIVDPEK 812 //8 3//34 0.5715 0.3125 ESEKSDGDPIVDPEK 812 //8 3//34 0.4525 0.3125 KTKVER 846 //17 24//99 9.061 2.28125 KTKVER 846 //17 17//99 5.87525 1.40625 KTKVER 846 //17 17//99 5.90625 1.375 KTKVER 846 //17 17//99 5.7835 1.34375 EGQEEVLKEVVESEGER 836 //7 3//35 0.7235 0.66666667 KTKVER 846 //17 18//99 5.55225 1.40625 KTKVER 846 //17 17//99 5.2605 1.15625 KTKVER 846 //17 14//99 4.3885 1.0625 KTKVER 846 //17 13//99 3.743 0.875 EGQEEVLKEVVESEGER 836 //8 3//26 0.273 0.25 EGQEEVLKEVVESEGER 836 //8 3//26 0.47225 0.41666667 EGQEEVLKEVVESEGER 836 1//8 5//32 0.53625 0.58333333 EGQEEVLKEVVESEGER 836 //8 4//26 0.36775 0.33333333 EGQEEVLKEVVESEGER 836 1//8 6//32 1.03075 0.91666667 EGQEEVLKEVVESEGER 836 //5 4//20 0.7145 0.9 EGQEEVLKEVVESEGER 836 //8 2//26 0.25 0.33333333 EGQEEVLKEVVESEGER 836 1//8 6//32 1.13825 0.91666667 EGQEEVLKEVVESEGER 836 //8 4//32 0.4215 0.5 EGQEEVLKEVVESEGER 836 //8 4//32 0.70625 0.75 EGQEEVLKEVVESEGER 836 //8 4//26 0.84025 0.75 EGQEEVLKEVVESEGER 836 //8 3//26 0.6535 0.66666667 EGQEEVLKEVVESEGER 836 //5 2//20 0.18575 0.2 EGQEEVLKEVVESEGER 836 //8 4//32 0.31975 0.5 EGQEEVLKEVVESEGER 836 //8 3//26 0.26275 0.25 EGQEEVLKEVVESEGER 836 //8 1//26 0.125 0.08333333 EGQEEVLKEVVESEGER 836 //8 5//26 0.6405 0.83333333 KVEEAAK 718 1//15 29//116 10.64125 3.25 MKEEVPTALVEAHVR 704 //8 5//41 0.85225 0.92857143 MKEEVPTALVEAHVR 704 //8 5//41 0.4845 0.5 KTKVER 848 //15 25//116 9.5645 2.67857143 TKVER 848 1//15 22//115 7.99975 2.25 MKEEVPTALVEAHVR 704 //5 3//25 0.787 0.8 AKHLAAVEER 874 1//15 29//115 10.9165 3.21428571 MKEEVPTALVEAHVR 704 1//10 11//57 3.505 1.55 MKEEVPTALVEAHVR 704 1//10 10//57 4.02975 1.5 MKEEVPTALVEAHVR 704 1//10 11//57 3.872 1.55 AKHLAAVEER 874 //15 22//91 8.619 2.25 AKHLAAVEER 874 //15 20//91 9.29725 2.10714286 AKHLAAVEER 874 1//15 26//115 8.4735 2.39285714 AKHLAAVEER 874 //15 23//115 8.11125 2.10714286 AKHLAAVEER 874 //15 21//115 6.718 1.82142857 AKHLAAVEER 874 //15 15//91 6.5135 1.5 MKEEVPTALVEAHVR 704 //10 7//46 2.24075 0.85 MKEEVPTALVEAHVR 704 //10 9//57 2.1755 1.3 AKHLAAVEER 874 //15 14//91 4.22875 1.35714286 MKEEVPTALVEAHVR 704 //10 6//57 1.05775 0.5 VASAAAKSALEEFSK 694 2//15 22//87 5.0265 1.67857143 VASAAAKSALEEFSK 694 2//15 18//111 5.19725 1.46428571 VASAAAKSALEEFSK 694 1//15 16//111 4.27425 1.21428571 VASAAAKSALEEFSK 694 1//15 14//111 3.97825 1.17857143 VASAAAKSALEEFSK 694 2//15 15//111 4.55225 1.28571429 VASAAAKSALEEFSK 694 1//15 15//111 4.20975 1.14285714 VASAAAKSALEEFSK 694 1//15 19//111 3.68 1.32142857 VASAAAKSALEEFSK 694 //15 13//87 2.8905 0.92857143 VASAAAKSALEEFSK 694 //15 9//87 2.54825 0.67857143 VASAAAKSALEEFSK 694 //15 11//111 2.7035 0.67857143 VASAAAKSALEEFSK 694 1//10 10//48 3.2305 1.5 VASAAAKSALEEFSK 694 //10 9//48 2.78775 1.45 VASAAAKSALEEFSK 694 //10 8//48 2.5275 1.05 VASAAAKSALEEFSK 694 //10 10//48 3.25925 1.5 VASAAAKSALEEFSK 694 1//10 10//59 2.64925 1.35 VASAAAKSALEEFSK 694 //10 7//48 1.5875 0.85 VASAAAKSALEEFSK 694 //10 5//48 0.6535 0.35 AKHLAAVEER 874 //17 13//86 2.30925 0.85714286 VASAAAKSALEEFSK 694 1//8 9//34 1.482 1.35714286 VASAAAKSALEEFSK 694 //8 3//26 0.25225 0.25 VASAAAKSALEEFSK 694 //5 3//22 1.049 0.8 VASAAAKSALEEFSK 694 //8 5//32 0.659 0.83333333 AKHLAAVEER 874 //5 4//23 1.4355 0.9 VEGQATDEKKEPK 769 //15 16//70 5.2155 1.5 IEESGNDEARVEGQATDEKK 769 //8 2//32 0.15975 0.16666667 VEGQATDEKK 769 //8 5//30 1.07425 0.83333333 IEESGNDEARVEGQATDEKK 769 //8 4//32 0.586 0.5 VEGQATDEKK 769 //8 4//30 1.12875 0.75 EPKEPR 773 //12 14//55 4.08575 1.94444444 VEGQATDEKK 769 //8 5//30 0.94 0.83333333 EPKEPR 773 //12 10//55 3.35725 1.61111111 EPKEPR 773 //12 10//55 3.115 1.44444444 EPKEPR 773 //12 11//55 3.19 1.66666667 EPKEPR 773 //12 9//55 3.156 1.38888889 EPKEPR 773 //12 10//55 3.0815 1.44444444 EPKEPR 773 //12 10//55 3.04025 1.61111111 VEGQATDEKK 769 //8 4//30 0.88575 0.75 EPKEPR 773 //12 11//55 2.796 1.44444444 VEGQATDEKK 769 //8 3//30 0.6765 0.41666667 EPKEPR 773 1//12 11//55 2.663 1.16666667 VEGQATDEKK 769 //8 3//30 0.488 0.41666667 KVEEAAKVTGK 724 //5 6//23 1.50675 1.1 SKAAASATR 592 1//7 8//31 1.95125 1.83333333 SKAAASATR 592 1//7 7//31 1.4935 1.5 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //5 3//25 0.761 0.8 VTGKADPAFGLESSGIAGTTSDEPERIEESGNDEAR 728 //8 2//32 0.17175 0.16666667 DALVLHKVLLETR 754 1//8 9//26 2.42975 1.66666667 NYTDKR 675 //15 15//77 3.38725 1.75 DALVLHKVLLETR 754 //8 4//26 1.046 0.5 EAEKSEDSSGAAGLSGLHR 930 //6 5//29 0.981 1 KNVENNR 827 1//6 6//26 1.851 1.7 KNVENNR 827 //6 4//26 1.5745 1.2 KNVENNR 827 1//6 5//26 1.48525 1.3 KNVENNR 827 //6 4//26 1.355 1.2 KNVENNR 827 //6 4//26 1.259 1.2 VASVFANADKGDDEKNTDNSEDSR 1106 //6 6//29 1.78975 1.7 VASVFANADKGDDEKNTDNSEDSR 1106 //6 5//29 1.4555 1.6 VASVFANADKGDDEKNTDNSEDSR 1106 //6 4//23 0.4435 0.8 VASVFANADKGDDEK 1106 //6 5//25 1.474 1.6 VASVFANADKGDDEK 1106 //6 5//25 1.5725 1.6 VASVFANADKGDDEKNTDNSEDSR 1106 //6 5//29 1.2515 1.6 VASVFANADKGDDEKNTDNSEDSR 1106 //6 3//29 0.302 0.5 VASVFANADKGDDEK 1106 //6 3//25 0.7825 0.8 VASVFANADKGDDEKNTDNSEDSR 1106 //6 3//23 0.33175 0.5 VASVFANADKGDDEK 1106 //6 3//25 0.681 0.8 VASVFANADKGDDEK 1106 //6 4//25 0.5675 0.8 VASVFANADKGDDEKNTDNSEDSR 1106 //6 3//23 0.30125 0.5 VASVFANADKGDDEK 1106 //6 2//25 0.258 0.4 VASVFANADKGDDEKNTDNSEDSR 1106 //6 2//29 0.193 0.2 VASVFANADKGDDEKNTDNSEDSR 1106 //6 3//29 0.702 0.8 VASVFANADKGDDEKNTDNSEDSR 1111 //6 3//23 0.456 0.8 VASVFANADKGDDEKNTDNSEDSR 1111 //6 2//29 0.227 0.4 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 12//65 2.04675 1 EPIDLKTIAQR 231 //8 16//133 5.82075 0.81818182 EPIDLKTIAQR 231 //8 17//133 5.14575 0.81818182 EPIDLKTIAQR 231 //8 18//133 4.94025 0.77272727 EPIDLKTIAQR 231 //8 17//183 4.70625 0.79545455 EPIDLKTIAQR 231 //8 15//133 4.42275 0.65909091 LISELFQKLPSK 210 3//13 12//57 2.22175 1.18181818 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 9//65 1.1235 0.66666667 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 12//84 2.06525 1.125 LISELFQKLPSK 210 1//13 9//57 1.868 0.90909091 LISELFQKLPSK 210 1//13 7//57 1.93625 0.81818182 VQYPDYYAIIKEPIDLKTIAQR 231 1//14 7//65 1.13875 0.45833333 LISELFQKLPSK 210 //13 5//57 1.7615 0.72727273 LISELFQKLPSK 210 //13 5//57 1.709 0.72727273 LISELFQKLPSK 210 //13 6//57 1.78 0.77272727 LISELFQKLPSK 210 //13 6//57 1.68175 0.77272727 LISELFQKLPSK 210 //13 5//57 1.751 0.72727273 EPIDLKTIAQR 231 //14 6//66 1.099 0.63636364 VQYPDYYAIIKEPIDLKTIAQR 225 1//14 15//84 2.6645 1.5 VQYPDYYAIIKEPIDLKTIAQR 225 //14 6//84 1.09175 0.45833333 AVIKAQHPDYSFGELSR 1398 //17 9//122 0.88575 0.4375 VGDCVFIKSHGLVRPR 1167 //12 10//59 3.815 1.35 VGDCVFIKSHGLVRPR 1167 //12 9//59 3.631 1.3 VGDCVFIKSHGLVRPR 1167 //12 7//59 1.70975 0.75 VASVFANADKGDDEKNTDNSEDSR 1106 //8 6//33 1.898 1.42857143 VASVFANADKGDDEKNTDNSEDSR 1106 //8 4//33 0.63225 0.42857143 VASVFANADKGDDEKNTDNSEDSR 1106 //8 5//41 1.9975 0.92857143 VASVFANADKGDDEKNTDNSEDSR 1106 //8 5//41 1.74975 0.92857143 LTGPSHSKGSLGEER 317 //12 9//60 3.02725 1.3 DVHLSKEQESR 1642 //12 9//50 2.948 1 NPTSKYYR 329 1//6 5//27 1.55175 1.3 NPTSKYYR 329 //6 3//28 0.309 0.25 YNVPNSAIYKR 471 //10 7//39 1.444 1.0625 NPTSKYYR 329 //5 4//23 0.909 0.9 NPTSKYYR 329 //7 4//32 0.887 1 RDDIEDGDSMISSATSDTGSAKR 511 //5 2//23 0.3345 0.5 MKILFNVVLEAR 524 1//17 29//190 9.01575 1.63636364 MKILFNVVLEAR 524 1//17 20//190 5.23475 1.11363636 MKILFNVVLEAR 524 //17 20//190 4.27625 1.04545455 MKILFNVVLEAR 524 1//17 19//190 4.05675 0.79545455 MKILFNVVLEAR 524 //17 14//190 2.876 0.52272727 KNVENNR 827 2//8 5//28 0.91 0.75 YSAKTK 1066 //20 22//156 8.94025 1.86111111 EAEKSEDSSGAAGLSGLHR 930 2//8 5//30 0.6435 0.75 EIEEDKLKR 918 //7 5//40 1.4815 1.33333333 AAKVAEQQER 1434 //15 15//97 5.2835 1.26666667 AAKVAEQQER 1434 //15 10//97 4.74575 0.86666667 AAKVAEQQER 1434 //15 8//97 3.8055 0.7 YPDYYQQIKMPISLQQIR 425 //12 9//113 3.31525 0.80555556 EAEKSEDSSGAAGLSGLHR 930 1//7 4//20 0.4585 0.4 EAEKSEDSSGAAGLSGLHR 930 //8 2//31 0.14325 0.16666667 EAEKSEDSSGAAGLSGLHR 930 1//7 3//20 0.24875 0.3 KPIVPQKEPSPLLEK 1293 //5 3//25 0.672 0.8 KKELAR 485 //13 21//65 6.1565 3.05 VLKLQQVMQAK 475 //6 5//28 0.652 1.08333333 KKELAR 485 //13 9//80 2.478 1.15 VLKLQQVMQAK 475 //17 19//192 6.449 1.04545455 EPIDLKTIAQR 231 //8 26//131 10.50925 1.72727273 EPIDLKTIAQR 231 //8 23//131 9.1595 1.43181818 EPIDLKTIAQR 231 //8 23//180 7.68375 1.40909091 EPIDLKTIAQR 231 //8 21//180 6.014 1.18181818 EPIDLKTIAQR 231 //8 20//131 6.16525 1.15909091 EPIDLKTIAQR 231 //8 22//180 5.9635 1 EPIDLKTIAQR 231 //8 20//180 5.0585 0.93181818 EPIDLKTIAQR 231 //8 12//131 3.833 0.59090909 EPIDLKTIAQR 231 //8 10//131 2.749 0.52272727 HLHNDVEKER 904 //11 8//57 1.9675 1.22222222 LPKEIEEDKLK 912 //12 4//66 0.338 0.2 LPKEIEEDKLK 912 //12 5//66 0.4305 0.25 HLHNDVEKER 904 //11 2//46 0.176 0.11111111 KKELAR 485 //17 31//196 15.34725 2.04545455 KELAR 485 //17 28//195 12.27175 1.72727273 KKELAR 485 //12 21//69 11.1685 2.95454546 KKELAR 485 //12 21//69 9.733 2.95454546 LNEVYEAVKNYTDKR 670 //6 4//30 0.29525 0.33333333 EIEEDKLK 918 //8 4//29 0.184 0.5 EIEEDKLKR 918 //11 8//59 0.8005 0.66666667 EAEKSEDSSGAAGLSGLHR 930 1//11 7//57 0.8195 0.5 EAEKSEDSSGAAGLSGLHR 930 //11 5//57 0.69025 0.38888889 EAEKSEDSSGAAGLSGLHR 930 //11 5//57 0.5605 0.27777778 EAEKSEDSSGAAGLSGLHR 930 //11 5//57 0.4755 0.27777778 DVHLSKEQESR 1642 //14 13//104 4.912 1.34615385 VASVFANADKGDDEKNTDNSEDSR 1111 //8 6//41 2.2395 1.42857143 VASVFANADKGDDEKNTDNSEDSR 1111 //8 5//33 1.429 0.92857143 GDDEKNTDNSEDSR 1111 //8 5//35 1.62 0.92857143 VASVFANADKGDDEKNTDNSEDSR 1111 //8 2//33 0.12 0.14285714 VASVFANADKGDDEKNTDNSEDSR 1111 //8 4//33 0.916 0.64285714 VASVFANADKGDDEKNTDNSEDSR 1111 //8 5//41 1.3885 0.92857143 AAKVAEQQER 1434 1//8 8//38 2.0485 1.57142857 YNVPNSAIYKR 471 //5 3//23 0.5565 0.8 YNVPNSAIYKR 471 //5 3//23 0.28125 0.3 VLKLQQVMQAK 475 5//13 22//57 7.78175 3 VLKLQQVMQAK 475 3//13 20//57 7.5575 2.6 VLKLQQVMQAK 475 7//14 29//81 6.70925 3.40909091 VLKLQQVMQAK 475 2//13 16//57 6.422 2.05 VLKLQQVMQAK 475 2//14 12//65 2.06925 1.27272727 VLKLQQVMQAK 475 4//14 23//81 4.73475 2.31818182 YNVPNSAIYKR 471 //13 10//59 2.66775 1.36363636 VLKLQQVMQAK 475 1//13 16//57 5.517 2.1 YNVPNSAIYKR 471 //14 14//68 4.73775 1.77272727 YNVPNSAIYKR 471 //13 12//59 2.96525 1.54545455 RYNVPNSAIYKR 471 //13 10//73 3.6785 1.36363636 RYNVPNSAIYKR 471 //13 15//58 5.75625 1.68181818 YNVPNSAIYKR 471 //13 10//59 2.65175 1.36363636 VLKLQQVMQAK 475 2//13 17//57 3.999 1.8 VLKLQQVMQAK 475 //13 11//57 2.5935 0.85 YNVPNSAIYKR 471 //13 9//59 2.33175 1 VLKLQQVMQAK 475 1//14 12//81 2.12175 1 VLKLQQVMQAK 475 //13 10//57 2.425 0.85 VLKLQQVMQAK 475 1//14 9//81 2.05625 0.86363636 YNVPNSAIYKR 471 //13 8//59 2.04175 0.95454546 YNVPNSAIYKR 471 //13 8//59 2.213 1.13636364 VLKLQQVMQAK 475 //14 7//81 1.41175 0.63636364 VLKLQQVMQAK 475 1//13 10//57 1.36325 0.65 LNEVYEAVKNYTDKR 670 //5 4//25 0.92775 0.9 LTGPSHSKGSLGEER 317 //6 6//31 2.42 1.7 LTGPSHSKGSLGEER 317 //6 7//31 1.144 1.25 VLKLQQVMQAK 475 //17 10//107 1.6995 0.67857143 LTGPSHSKGSLGEER 317 //10 6//47 1.5515 1 LTGPSHSKGSLGEER 317 //10 8//38 3.4735 1.3125 LTGPSHSKGSLGEER 317 //10 6//47 1.40525 0.8125 LTGPSHSKGSLGEER 317 //10 8//38 2.99975 1.125 LTGPSHSKGSLGEER 317 //10 5//47 1.40275 0.625 NPTSKYYR 329 //17 9//108 2.11775 0.67857143 LTGPSHSKGSLGEER 317 //10 5//47 0.97725 0.625 LTGPSHSKGSLGEER 317 //10 7//47 1.40125 0.875 LTGPSHSKGSLGEER 317 //10 4//47 1.14025 0.5625 LTGPSHSKGSLGEER 317 //10 11//37 2.887 1.5 LTGPSHSKGSLGEER 317 //13 11//70 4.32525 1.22727273 LTGPSHSKGSLGEER 317 //13 10//56 2.89475 1.04545455 AVIKAQHPDYSFGELSR 1398 1//8 7//41 1.62125 1 AVIKAQHPDYSFGELSR 1398 //8 7//41 0.70375 0.64285714 AVIKAQHPDYSFGELSR 1398 //9 8//29 2.6825 1.5 AVIKAQHPDYSFGELSR 1398 2//9 6//36 0.62175 0.85714286 AVIKAQHPDYSFGELSR 1398 //9 7//29 2.1485 1.21428571 AVIKAQHPDYSFGELSR 1398 //17 15//128 4.175 1.02941177 AVIKAQHPDYSFGELSR 1398 //17 14//107 1.49 0.86666667 AVIKAQHPDYSFGELSR 1398 //10 8//38 3.317 1.3125 AVIKAQHPDYSFGELSR 1398 //10 9//38 3.32925 1.375 AVIKAQHPDYSFGELSR 1398 //10 7//46 1.933 1.25 AVIKAQHPDYSFGELSR 1398 1//13 13//69 4.822 1.40909091 AVIKAQHPDYSFGELSR 1398 //13 10//69 3.3655 1.04545455 AVIKAQHPDYSFGELSR 1398 //12 9//47 3.29775 1 AVIKAQHPDYSFGELSR 1398 //8 6//41 0.9335 1 ELSQKTPPSMR 371 1//12 13//65 4.2895 1.54545455 ELSQKTPPSMR 371 //12 11//65 3.7965 1.36363636 ELSQKTPPSMR 371 //12 8//65 3.38 0.86363636 KEKLPQVTR 242 //11 10//46 4.17 1.61111111 KEKLPQVTR 242 //11 10//46 4.254 1.61111111 KEKLPQVTR 242 2//11 15//56 2.546 1.77777778 KEKLPQVTR 242 //11 9//46 3.983 1.44444444 EGSPANWKR 238 //11 9//46 2.30875 1.5625 EGSPANWKR 238 //11 7//47 1.5655 1.3125 KEKLPQVTR 240 2//11 18//56 3.854 2.22222222 KEKLPQVTR 240 1//11 13//56 2.17 1.72222222 EGSPANWKR 238 //10 7//53 2.2145 0.94444444 KEKLPQVTR 240 //11 9//46 3.037 1.27777778 GKQGGPTYYIDTNALR 62 //14 15//161 4.4995 0.94736842 GKQGGPTYYIDTNALR 62 //14 15//161 4.708 0.94736842 QEYEEGGKQCVER 421 //14 20//161 7.9365 1.39473684 QEYEEGGKQCVER 421 //14 19//161 7.54225 1.36842105 QEYEEGGKQCVER 421 1//14 14//120 3.1265 0.92105263 EKLTELMFEHYNIPAFFLCK 135 //15 9//71 3.737 1.07692308 QEYEEGGKQCVER 421 1//14 13//120 2.2515 0.55263158 EKLTELMFEHYNIPAFFLCK 135 //15 9//71 3.5715 1.07692308 EKLTELMFEHYNIPAFFLCK 135 //15 9//71 3.56325 0.96153846 EKLTELMFEHYNIPAFFLCK 135 //15 9//71 4.006 1.07692308 QEYEEGGKQCVER 421 //14 10//161 2.42225 0.52631579 EKLTELMFEHYNIPAFFLCK 135 //15 8//71 3.0685 0.92307692 EKLTELMFEHYNIPAFFLCK 135 //15 6//93 1.208 0.38461539 EKLTELMFEHYNIPAFFLCK 135 //15 7//71 2.672 0.76923077 EKLTELMFEHYNIPAFFLCK 135 //15 7//71 2.7625 0.69230769 LDGTTKAEDR 1131 //8 4//30 1.069 0.75 KELPEYYELIR 1492 2//8 7//27 1.11625 1.08333333 IKLGR 1598 //8 9//40 3.12575 1.78571429 YKLNVDQK 1221 //17 11//121 1.461 0.8 YKLNVDQK 1221 //17 11//92 2.43 0.76666667 IEKER 524 1//10 12//44 2.81775 1.78571429 IEKER 524 //10 8//44 1.623 1.28571429 IEKER 524 //10 9//44 1.60275 1.35714286 LKGGR 1610 //7 9//34 2.93675 1.66666667 LTKAVATYHANTER 502 1//10 7//44 1.236 0.75 LTKAVATYHANTER 502 1//10 8//36 1.71625 0.9375 LTKAVATYHANTER 502 1//10 7//36 1.06925 0.6875 KELPEYYELIR 1492 //5 5//22 0.96325 1.3 KELPEYYELIR 1492 //5 3//22 0.468 0.8 KELPEYYELIR 1492 //7 3//22 0.59675 0.5 KELPEYYELIR 1492 //7 4//22 0.6545 0.6 LDGTTKAEDR 1131 //7 3//24 0.61275 0.5 KELPEYYELIR 1492 1//12 9//49 1.18075 0.85 GRPPAEKLSPNPPNLTK 1450 //7 3//26 0.5625 0.5 GRPPAEKLSPNPPNLTK 1450 //7 4//21 0.65175 0.6 GRPPAEKLSPNPPNLTK 1450 //7 3//26 0.4745 0.5 GRPPAEKLSPNPPNLTK 1450 1//7 4//26 0.5675 0.7 GRPPAEKLSPNPPNLTK 1450 //7 3//26 0.46025 0.5 GRPPAEKLSPNPPNLTK 1450 //9 1//39 0.11275 0.07142857 GRPPAEKLSPNPPNLTK 1450 //9 1//39 0.082 0.07142857 GRPPAEKLSPNPPNLTK 1450 //9 1//39 0.115 0.07142857 GRPPAEKLSPNPPNLTK 1450 //9 2//39 0.3 0.28571429 KPVDFK 1503 1//6 7//26 1.84275 1.5 NHKYR 1518 //8 8//38 2.63825 1.57142857 KPVDFKK 1503 1//7 6//24 0.83775 0.9 IRNHKYR 1518 //7 7//33 1.993 1.25 IRNHKYR 1518 //7 5//33 1.5145 1.08333333 KPVDFK 1503 1//7 5//24 1.197 1.125 ILPKLR 1091 //12 9//56 3.28925 1.27777778 ASGKFELLDR 1081 1//8 7//30 1.6845 1.08333333 HIIENAKQDVDDEYGVSQALAR 711 //16 9//132 1.63025 0.38235294 HIIENAKQDVDDEYGVSQALAR 711 //16 5//132 0.81025 0.20588235 LKGGR 1610 //8 10//39 3.05525 1.85714286 LKGGR 1610 //8 7//39 2.35925 1.07142857 LKGGR 1610 //8 7//39 1.49375 1.28571429 KENER 517 //10 8//42 2.265 1.21428571 KENER 517 //10 6//42 1.55675 0.71428571 KENER 517 //10 5//42 1.33625 0.64285714 KRDSDAGSSTPTTSTR 1414 //11 2//55 0.4255 0.22222222 KRDSDAGSSTPTTSTR 1414 //11 2//55 0.473 0.22222222 KRDSDAGSSTPTTSTR 1414 //11 2//55 0.17125 0.11111111 KENER 517 //10 5//42 1.1965 0.92857143 AVATYHANTEREQKK 516 //7 3//25 0.3905 0.5 IEKER 524 //10 8//42 1.9735 1.35714286 IEKER 524 //7 6//37 1.2505 0.91666667 EQKKENER 516 //7 5//23 1.16175 0.9 EQKKENER 516 //7 5//23 1.051 0.9 IEKER 524 //10 7//42 1.1 0.85714286 EQKKENER 516 //7 5//23 1.18875 0.9 IKIIAPPER 328 2//17 37//143 12.561 2.27272727 IKIIAPPER 328 //17 27//143 8.509 1.59090909 IKIIAPPER 328 //17 20//143 5.49275 1.09090909 IKIIAPPER 328 //17 17//143 6.089 0.97727273 IKIIAPPER 328 //17 14//143 5.22775 0.84090909 EITALAPSTMKIK 326 //17 29//139 11.148 1.93181818 EITALAPSTMKIK 326 1//17 27//139 9.9315 1.84090909 EITALAPSTMKIK 326 1//17 26//139 8.509 1.68181818 EITALAPSTMKIK 326 //17 14//139 6.2755 0.90909091 EITALAPSTMKIK 326 //17 15//139 5.54125 0.93181818 KIR 364 1//13 14//62 4.96225 1.8 KIR 364 1//13 14//62 4.82675 1.8 KIR 364 1//13 12//62 4.7225 1.55 KIR 364 1//13 12//62 3.86475 1.55 KFSSFFK 232 //10 10//44 3.343 1.42857143 RKFSSFFK 232 //10 6//41 1.0445 0.5 MKFSEIPQR 353 //16 17//162 7.61475 1.31578947 KRPAPQQIQQVQQQAVQNR 101 //8 3//41 0.4295 0.35714286 AKDDIKR 15 1//11 14//59 5.17325 2.3125 AKDDIKR 15 //11 16//49 5.621 2.4375 AKDDIKR 15 1//11 15//49 4.736 2.0625 AKDDIKR 15 1//11 11//59 3.946 1.625 AKDDIKR 15 //11 14//49 4.58075 2.125 KFLESTDSFNNELKR 258 //7 6//20 0.87075 1.1 KFLESTDSFNNELKR 258 2//7 4//25 0.23775 0.6 KFLESTDSFNNELKR 258 //7 2//25 0.10875 0.2 KFLESTDSFNNELKR 258 //7 4//20 0.32625 0.4 KFLESTDSFNNELK 258 //7 2//20 0.18425 0.2 KFLESTDSFNNELK 258 //7 2//20 0.15625 0.2 KFLESTDSFNNELK 258 //8 3//32 0.339 0.41666667 KFLESTDSFNNELKR 258 //7 3//25 0.213 0.5 EKEAAEQAER 305 //7 2//33 0.421 0.33333333 EKEAAEQAER 305 //7 3//33 0.515 0.41666667 EKEAAEQAER 305 2//7 5//40 0.798 0.75 EKEAAEQAER 305 //7 2//40 0.4895 0.33333333 EKEAAEQAER 305 //7 2//33 0.3515 0.33333333 EKEAAEQAER 305 //7 2//40 0.524 0.33333333 EKEAAEQAER 305 //7 2//33 0.423 0.33333333 LCGLKVEVDMEK 277 //16 17//81 6.894 1.80769231 LCGLKVEVDMEK 277 1//16 19//81 7.1825 2 LCGLKVEVDMEK 277 2//16 26//115 6.55925 2.42857143 LCGLKVEVDMEK 277 1//16 17//81 6.08 1.80769231 LCGLKVEVDMEK 277 2//16 21//115 4.4825 1.60714286 LCGLKVEVDMEK 277 1//16 15//81 4.0415 1.26923077 LCGLKVEVDMEK 277 2//16 21//89 2.58025 1.89285714 LCGLKVEVDMEK 277 //16 11//81 3.48 0.96153846 LCGLKVEVDMEK 277 //16 10//81 2.909 0.84615385 LCGLKVEVDMEK 277 //16 16//115 3.265 1.17857143 LCGLKVEVDMEK 277 1//16 13//81 2.28225 0.88461539 LCGLKVEVDMEK 277 //16 10//81 2.54725 0.73076923 LCGLKVEVDMEK 277 //16 8//115 1.6595 0.57142857 LCGLKVEVDMEK 277 //16 13//115 1.98625 0.75 LCGLKVEVDMEK 277 //16 8//115 1.352 0.53571429 LCGLKVEVDMEK 277 //16 10//115 2.025 0.71428571 LAGLLQHPDPIVINHVISVDPNDQKK 401 //13 11//68 4.394 1.45454546 LAGLLQHPDPIVINHVISVDPNDQKK 401 //13 10//68 4.29625 1.31818182 LAGLLQHPDPIVINHVISVDPNDQKK 401 //13 11//68 4.22275 1.36363636 LAGLLQHPDPIVINHVISVDPNDQKK 401 //13 9//68 4.2525 1.27272727 LAGLLQHPDPIVINHVISVDPNDQKK 401 //13 10//68 3.59025 1.31818182 VASAAAKAALEEFSR 716 //8 7//34 3.308 1.71428571 VASAAAKAALEEFSR 716 //8 7//34 2.5705 1.5 VASAAAKAALEEFSR 716 //17 12//84 5.392 1.2 VASAAAKAALEEFSR 716 1//17 12//84 4.6655 1.03333333 VASAAAKAALEEFSR 716 3//10 13//59 3.31025 1.75 VASAAAKAALEEFSR 716 2//10 11//59 2.94225 1.55 VASAAAKAALEEFSR 716 1//10 10//59 2.88925 1.5 VASAAAKAALEEFSR 716 1//10 10//59 2.71275 1.5 VASAAAKAALEEFSR 716 1//10 8//48 2.00825 1.1 VASAAAKAALEEFSR 716 //10 8//48 2.3155 1.25 VASAAAKAALEEFSR 716 2//10 10//48 2.5545 1.35 VASAAAKAALEEFSR 716 //10 8//59 2.27475 1.05 VASAAAKAALEEFSR 716 2//10 11//59 2.60525 1.55 VASAAAKAALEEFSR 716 //10 8//48 2.56125 1.25 VASAAAKAALEEFSR 716 //10 8//48 2.0175 1.25 VASAAAKAALEEFSR 716 //10 7//48 1.838 0.85 VASAAAKAALEEFSR 716 //10 8//48 2.54625 1.25 VASAAAKAALEEFSR 716 //10 9//59 2.46025 1.45 VASAAAKAALEEFSR 716 //10 8//59 2.24 1.05 VASAAAKAALEEFSR 716 //10 8//59 2.28675 1.05 VASAAAKAALEEFSR 716 //10 8//59 2.10225 1.05 VASAAAKAALEEFSR 716 //10 7//48 1.4965 0.85 VASAAAKAALEEFSR 716 //10 8//48 2.44975 1.25 VASAAAKAALEEFSR 716 //10 8//59 1.42925 0.9 VASAAAKAALEEFSR 716 //10 7//48 1.32275 0.7 VASAAAKAALEEFSR 716 //10 8//48 1.411 1.05 VREEVPLELVEAHVKK 739 //17 15//109 4.377 1.26666667 VREEVPLELVEAHVKK 739 //17 14//109 4.882 1.3 VREEVPLELVEAHVKK 739 //17 12//109 3.95775 0.93333333 VREEVPLELVEAHVKK 739 //17 14//109 4.458 1.06666667 VREEVPLELVEAHVKK 739 //17 11//109 3.391 0.9 HQGTFTDEKSK 199 //7 4//32 1.42425 0.75 ISTKNEEPVR 303 //7 4//32 1.338 0.75 ISTKNEEPVRSPER 303 //7 4//28 0.98 0.75 ISTKNEEPVR 303 //7 4//32 1.485 0.75 ALPEFFNGKNK 478 //11 13//59 4.5255 1.55 GQASLYGKR 354 //8 6//37 2.1375 1.42857143 SQKEEDEQEDLTK 359 //8 5//33 1.36125 0.92857143 AKHLAAVEER 882 //16 11//122 5.378 1.06666667 AKHLAAVEER 882 //17 13//113 6.143 1.46428571 AKHLAAVEER 882 //17 12//113 5.6895 1.17857143 AKHLAAVEER 882 //17 13//113 5.884 1.46428571 AKHLAAVEER 882 //17 11//113 4.6625 0.96428571 AKHLAAVEER 882 //10 16//63 6.91675 2.2 SKGASAGR 615 //14 11//86 0.98925 0.57692308 ESDTGKK 854 //10 7//53 2.58525 0.94444444 EKPVDLQNFGLR 592 //14 28//105 11.5145 2.44117647 EKPVDLQNFGLR 592 //14 32//105 11.2405 2.61764706 EKPVDLQNFGLR 592 //14 21//105 8.65675 1.64705882 SPQVPAAQQMLNFPEKNK 588 //12 8//62 1.05425 0.625 SPQVPAAQQMLNFPEKNK 588 //12 5//62 1.1875 0.41666667 ASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEK 750 //8 4//40 1.00225 0.64285714 AKHLAAVEER 882 //8 8//46 3.00875 1.57142857 AKHLAAVEER 882 //8 8//38 2.29225 1.35714286 AKHLAAVEER 882 //8 6//38 2.2085 1.21428571 ISTKNEEPVRSPER 303 //9 6//46 1.0455 1 ISTKNEEPVRSPER 303 //8 7//41 1.827 1.5 ISTKNEEPVRSPER 303 //8 6//33 1.69975 1 ISTKNEEPVRSPER 303 //11 1//49 0.125 0.05555556 ISTKNEEPVR 303 //8 8//37 1.58225 1.57142857 ISTKNEEPVRSPER 303 //8 5//33 0.8495 0.64285714 ISTKNEEPVR 303 //8 4//37 0.545 0.64285714 KVGR 487 //11 24//143 10.51475 2.08823529 TKVSSYPVALIPGQFQEYYK 249 //8 6//36 2.661 1.25 TKVSSYPVALIPGQFQEYYK 249 1//8 6//36 1.8565 0.8125 TKVSSYPVALIPGQFQEYYKR 249 1//8 6//45 1.7795 0.875 YKVLPTER 241 //16 22//134 7.29375 1.475 TKVSSYPVALIPGQFQEYYK 249 //8 5//36 1.88725 0.8125 TKVSSYPVALIPGQFQEYYKR 249 //8 4//36 1.13625 0.5625 TKVSSYPVALIPGQFQEYYK 249 //8 4//36 1.55525 0.5625 TKVSSYPVALIPGQFQEYYK 249 //8 4//36 1.315 0.5625 YKVLPTER 241 //16 11//134 2.1985 0.575 YKVLPTER 241 //16 13//134 2.4965 0.55 TKVSSYPVALIPGQFQEYYKR 249 //8 4//36 0.95025 0.5625 SVLSKSVPGYKPK 365 //7 3//38 0.21425 0.41666667 GKESNK 387 //7 5//29 1.19125 0.75 NKGTSDSSSGNVSEGESPPDSQEDSFQGR 316 //5 3//18 1.1155 1 KDGPKR 355 1//11 12//48 3.434 1.75 SVLSKSVPGYKPK 365 //7 6//32 2.291 1.21428571 KVGR 487 //13 19//70 5.37925 2.25 KVGR 487 //13 9//88 4.186 1.4 KVGR 487 //13 6//88 2.0315 0.7 HAEYSVILQEKER 168 //9 6//31 0.80175 0.71428571 HAEYSVILQEKER 168 //9 4//38 0.17425 0.28571429 KDGPKR 106 1//8 9//37 2.454 1.42857143 KYPDLER 106 //7 4//31 0.5685 0.66666667 RKYPDLER 106 //6 6//26 0.624 1.4 KYPDLER 106 //6 4//28 0.9575 1 KYPDLER 118 //13 8//82 1.9745 0.8 DLSHKEKLYLR 118 //8 6//47 2.31825 1.0625 DLSHKEK 118 //8 7//38 2.1525 1.28571429 RDLSHKEK 118 1//8 5//47 1.67675 0.71428571 KYPDLERR 106 //9 9//36 2.039 1.35714286 KYPDLERR 106 //9 6//36 1.23325 0.92857143 KYPDLERR 106 3//9 7//43 1.031 1.14285714 KVGR 487 //8 9//39 2.84125 1.78571429 KVGR 487 //8 6//39 1.10425 1.21428571 KYPDLER 106 2//8 9//38 3.1215 1.64285714 KYPDLER 106 1//8 8//38 2.91375 1.57142857 RKYPDLER 106 //8 6//39 2.183 1 KYPDLER 106 //6 5//29 2.13175 1.08333333 KYPDLER 106 //6 5//29 1.8085 1.08333333 KYPDLERR 106 //6 4//35 2.0705 1 KYPDLER 106 //17 26//88 9.97775 2.89285714 KYPDLER 106 //17 22//88 9.9005 2.35714286 KYPDLER 106 2//17 25//88 9.32075 2.5 KYPDLER 106 1//17 20//88 8.08775 2.07142857 KYPDLER 106 //17 21//88 6.95275 1.89285714 KYPDLER 106 //17 18//88 7.1855 1.78571429 KYPDLER 106 //17 16//88 6.40075 1.53571429 KYPDLER 106 //17 17//88 5.436 1.53571429 KYPDLER 106 1//17 21//88 5.243 1.85714286 SDEVIDLMIKEYPAK 152 //8 6//33 1.962 1.42857143 SDEVIDLMIKEYPAK 152 //8 4//33 0.89825 0.64285714 KYPDLER 106 //17 10//88 2.3935 0.92857143 HAEYSVILQEKER 168 //8 7//34 2.76675 1.5 HAEYSVILQEKER 168 //8 6//34 2.40525 1.21428571 HAEYSVILQEKER 168 //8 7//34 2.7715 1.5 EYPAKHAEYSVILQEKER 168 //8 6//45 2.27 1.25 KYPDLER 157 //12 29//147 9.78825 2.32352941 KYPDLER 106 //12 27//147 8.78275 2 EYPAKHAEYSVILQEK 157 //9 6//40 0.66875 0.5 EYPAKHAEYSVILQEK 157 //8 9//33 3.387 1.78571429 EYPAKHAEYSVILQEK 157 //9 5//50 0.33575 0.4375 EYPAKHAEYSVILQEK 157 //9 3//40 0.374 0.1875 EYPAKHAEYSVILQEK 157 //8 8//33 3.0105 1.57142857 KYPDLER 106 //12 16//147 5.082 1.08823529 EYPAKHAEYSVILQEK 157 //9 5//50 0.3815 0.4375 EYPAKHAEYSVILQEK 157 //8 7//41 2.5405 1.5 KYPDLER 106 //12 12//147 4.72075 0.91176471 KYPDLER 157 //12 19//147 5.9055 1.26470588 KYPDLER 106 1//12 17//147 4.44075 1.11764706 EYPAKHAEYSVILQEK 157 //8 6//41 2.661 1.42857143 KYPDLER 157 //12 11//147 4.559 0.88235294 KYPDLER 106 //12 16//147 5.01575 1.05882353 KYPDLER 106 //12 13//147 4.361 1 EYPAKHAEYSVILQEK 157 //8 8//33 2.7845 1.57142857 KYPDLER 106 //12 14//111 4.472 1.05882353 EYPAKHAEYSVILQEK 157 //8 7//33 2.91275 1.5 KYPDLER 157 //12 17//147 4.779 1.08823529 KYPDLER 106 //12 13//111 4.28275 1.02941177 RKYPDLER 106 //12 13//109 4.841 1 KYPDLER 106 //12 10//147 4.18675 0.76470588 EYPAKHAEYSVILQEK 157 //9 5//50 0.3085 0.4375 EYPAKHAEYSVILQEK 157 //8 7//33 2.40025 1.07142857 EYPAKHAEYSVILQEK 157 //9 5//50 0.343 0.4375 KYPDLER 106 //12 12//147 3.847 0.82352941 KYPDLER 106 //12 12//147 3.56075 0.76470588 EYPAKHAEYSVILQEK 157 //8 7//33 2.401 1.07142857 EYPAKHAEYSVILQEK 157 //8 7//33 2.85975 1.5 EYPAKHAEYSVILQEK 157 //8 6//41 2.291 1.42857143 KYPDLER 106 1//12 11//147 2.5445 0.64705882 EYPAKHAEYSVILQEK 157 //8 5//33 1.86575 0.71428571 EYPAKHAEYSVILQEK 157 //8 6//33 2.4115 1.21428571 EYPAKHAEYSVILQEK 157 //8 6//41 2.08775 1.21428571 EYPAKHAEYSVILQEK 157 //8 7//41 2.572 1.5 EYPAKHAEYSVILQEK 157 //8 7//41 2.46825 1.5 EYPAKHAEYSVILQEK 157 //8 5//41 1.9305 1.14285714 EYPAKHAEYSVILQEK 157 //8 6//41 2.0575 1.21428571 EYPAKHAEYSVILQEK 157 //8 5//41 2.021 1.14285714 KYPDLER 106 1//16 12//92 2.02575 0.78571429 EYPAKHAEYSVILQEK 157 //9 2//40 0.3055 0.25 EYPAKHAEYSVILQEK 157 //8 6//41 1.9555 1.21428571 EYPAKHAEYSVILQEK 157 //8 6//41 1.8725 1 EYPAKHAEYSVILQEK 157 //8 6//41 2.094 1.21428571 EYPAKHAEYSVILQEKER 157 //8 6//45 2.8335 1.25 EYPAKHAEYSVILQEK 157 //8 5//33 1.72325 0.71428571 EYPAKHAEYSVILQEK 157 //8 6//41 2.3 1.42857143 EYPAKHAEYSVILQEK 157 //8 5//41 2.1585 1.14285714 EYPAKHAEYSVILQEKER 157 //8 4//41 1.51825 0.64285714 EYPAKHAEYSVILQEK 157 //8 5//41 1.85525 0.92857143 EYPAKHAEYSVILQEK 157 //9 3//50 0.1305 0.1875 EYPAKHAEYSVILQEKER 157 //8 6//45 2.181 1.25 EYPAKHAEYSVILQEK 157 //8 5//41 1.3635 0.92857143 EYPAKHAEYSVILQEKER 157 //8 5//45 1.278 0.75 EYPAKHAEYSVILQEK 157 //8 3//45 0.28425 0.1875 EYPAKHAEYSVILQEKER 157 //8 4//45 1.00925 0.5625 EYPAKHAEYSVILQEK 157 //9 1//50 0.10025 0.0625 EYPAKHAEYSVILQEK 157 //9 1//50 0.09075 0.0625 EYPAKHAEYSVILQEK 157 //9 1//40 0.12475 0.0625 EYPAKHAEYSVILQEK 157 //9 1//40 0.09225 0.0625 TKVSSYPVALIPGQFQEYYKR 249 //5 2//23 0.3995 0.5 KAAKK 202 //13 16//66 3.464 2 KAAEFNSNLNR 206 6//12 16//54 3.4255 2.5 KAAEFNSNLNR 206 5//12 14//54 2.719 1.83333333 KAAK 202 //12 13//61 6.476 1.68181818 HAEYSVILQEKER 168 //7 6//30 2.03025 1.21428571 DKAATPR 349 2//15 9//78 2.181 0.66666667 HAEYSVILQEKER 168 //5 2//20 0.2985 0.5 HAEYSVILQEKER 168 //5 3//25 0.8845 1 HAEYSVILQEKER 168 //6 2//25 0.21175 0.2 HAEYSVILQEKER 168 //8 9//36 3.294 1.5625 HAEYSVILQEKER 168 //11 19//138 5.23375 1.52941177 HAEYSVILQEKER 168 //11 12//102 2.34425 0.82352941 KVGR 487 //13 15//70 4.6365 1.75 KVGR 487 //13 13//70 3.35475 1.4 HAEYSVILQEKER 168 //6 3//26 0.896 0.41666667 HAEYSVILQEKER 168 //6 5//26 1.42075 1.08333333 SKDKAATPR 347 1//6 8//26 1.97175 1.9 KDGPK 355 //9 8//48 1.3365 0.875 peptide2 protein2 R.EQKK[939.54]ETER.I P51531:493 R.NHK[1752.99]YR.S P51531:1460 P51532:1518 R.NHK[1752.99]YR.S P51531:1460 P51532:1518 R.NHK[1752.99]YR.S P51531:1460 P51532:1518 R.EQK[939.54]KETER.I P51531:492 R.VEGK[3087.76]LLDDPSK.Q Q6STE5:189 Q92925:237 R.K[2104.17]GLAFLDELR.Q Q68CP9:15 R.K[2104.17]GLAFLDELR.Q Q68CP9:15 R.K[2104.17]GLAFLDELR.Q Q68CP9:15 R.AQK[1855.95]AIVNHPSAALM[147.04]ALR.R Q68CP9:1731 R.AQK[1855.98]AIVNHPSAALM[147.04]ALR.R Q68CP9:1731 R.AQK[1855.96]AIVNHPSAALM[147.04]ALR.R Q68CP9:1731 R.AQK[1855.96]AIVNHPSAALM[147.04]ALR.R Q68CP9:1731 R.TVFPNHTVK[1644.82]R.V Q68CP9:581 R.TVFPNHTVK[1644.82]R.V Q68CP9:581 R.TVFPNHTVK[1644.82]R.V Q68CP9:581 K.EEEAK[1643.79]EATGLHVHER.K Q68CP9:1251 K.EEEAK[1643.81]EATGLHVHER.K Q68CP9:1251 K.EEEAK[1643.78]EATGLHVHER.K Q68CP9:1251 K.VHHFGEDDDEVPPGNPK[1237.67]PQLPIGAIPSSYNYQQHSVSDYLR.Q Q68CP9:119 R.VTTLGGFAK[4868.35]VSEK.N Q68CP9:62 K.FK[3309.75]SNNLER.E Q9NPI1:307 K.FK[3309.75]SNNLER.E Q9NPI1:307 R.IVK[1272.68]ESGGK.L Q9NPI1:323 R.IVK[1272.68]ESGGK.L Q9NPI1:323 K.E[111.03]PK[1693.84]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.E[111.03]PK[1693.85]EGQEEVLKEVVESEGER.K Q8TAQ2:828 K.EPK[1693.84]EGQEEVLK.E Q8TAQ2:828 K.EPK[1693.84]EGQEEVLK.E Q8TAQ2:828 K.KEPK[2225.11]EPR.E Q8TAQ2:773 K.KEPK[1154.62]EPR.E Q8TAQ2:773 K.KEPK[1154.62]EPR.E Q8TAQ2:773 K.EK[1402.65]TSEAPK.K Q8TAQ2:789 K.EK[1402.65]TSEAPK.K Q8TAQ2:789 K.GK[1154.62]EGDSEK.E Q8TAQ2:802 K.GK[1154.62]EGDSEK.E Q8TAQ2:802 K.K[2225.11]DEEK.G Q8TAQ2:796 K.K[2225.11]DEEK.G Q8TAQ2:796 K.K[2225.11]DEEKGK.E Q8TAQ2:796 K.K[2225.11]DEEKGK.E Q8TAQ2:796 K.K[1154.62]DEEK.G Q8TAQ2:796 K.K[1154.62]DEEK.G Q8TAQ2:796 K.K[1154.62]DEEKGK.E Q8TAQ2:796 K.K[1154.63]DEEK[284.17]GK.E Q8TAQ2:796 K.K[1154.62]DEEKGK.E Q8TAQ2:796 K.KDEEK[1154.62]GK.E Q8TAQ2:800 K.EK[2211.09]EPK.E Q8TAQ2:825 K.EK[2211.09]EPK.E Q8TAQ2:825 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 R.KK[2269.15]DGGPNVK.Y Q8TAQ2:6 K.TPQQTSASQQM[147.04]LNFPDK[1716.86]GK.E Q8TAQ2:564 K.TSEAPKK[1611.8]DEEK.G Q8TAQ2:796 K.TSEAPKK[1611.8]DEEK.G Q8TAQ2:796 K.K[1611.8]DEEKGK.E Q8TAQ2:796 K.TSEAPKK[1611.8]DEEK.G Q8TAQ2:796 K.K[2225.11]DEEKGK.E Q8TAQ2:796 K.K[1611.8]DEEK.G Q8TAQ2:796 K.K[1611.8]DEEK.G Q8TAQ2:796 K.K[2225.11]DEEK.G Q8TAQ2:796 K.TSEAPK[1611.8]KDEEK.G Q8TAQ2:795 K.TSEAPK[1611.8]KDEEK.G Q8TAQ2:795 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[3957.87]VEEAAK.V Q8TAQ2:718 R.K[2857.4]VEEAAK.V Q8TAQ2:718 R.K[2857.4]VEEAAK.V Q8TAQ2:718 R.K[2211.09]VEEAAK.V Q8TAQ2:718 R.K[1388.78]VEEAAK.V Q8TAQ2:718 R.K[1388.78]VEEAAK.V Q8TAQ2:718 R.K[1388.78]VEEAAK.V Q8TAQ2:718 R.KTK[1039.59]VER.D Q8TAQ2:848 R.KTK[1039.59]VER.D Q8TAQ2:848 R.K[1723.9]VEEAAK.V Q8TAQ2:718 K.GKEGDSEK[2048.03]ESEK.S Q8TAQ2:808 K.GKEGDSEK[2048.03]ESEK.S Q8TAQ2:808 K.GKEGDSEK[2048.03]ESEK.S Q8TAQ2:808 K.GK[1909.92]EGDSEK.E Q8TAQ2:802 K.GK[1909.92]EGDSEK.E Q8TAQ2:802 K.GK[1909.92]EGDSEK.E Q8TAQ2:802 K.EGQEEVLK[1181.7]EVVESEGER.K Q8TAQ2:836 K.EGQEEVLK[1181.71]EVVESEGER.K Q8TAQ2:836 K.EGQEEVLK[1181.67]EVVESEGER.K Q8TAQ2:836 K.EGQEEVLK[1181.69]EVVESEGER.K Q8TAQ2:836 R.K[2211.09]TKVER.D Q8TAQ2:846 K.EGQEEVLK[1181.71]EVVESEGER.K Q8TAQ2:836 K.EGQEEVLK[1181.69]EVVESEGER.K Q8TAQ2:836 K.EGQEEVLK[1181.72]EVVESEGER.K Q8TAQ2:836 K.EGQEEVLK[1181.71]EVVESEGER.K Q8TAQ2:836 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 K.TK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 K.TK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 R.KTK[2211.09]VER.D Q8TAQ2:848 K.M[147.04]K[1039.59]EEVPTALVEAHVR.K Q8TAQ2:704 R.K[1974.06]VEEAAK.V Q8TAQ2:718 R.K[1974.06]VEEAAK.V Q8TAQ2:718 K.M[147.04]K[1025.61]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[897.53]EEVPTALVEAHVR.K Q8TAQ2:704 K.TK[1974.06]VER.D Q8TAQ2:848 K.M[147.04]K[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.M[147.04]K[1388.77]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1388.79]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1388.77]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1388.79]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1388.77]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.M[147.04]K[1388.78]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1974.06]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.M[147.04]K[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.96]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.94]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.96]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.92]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.93]EEVPTALVEAHVR.K Q8TAQ2:704 K.M[147.04]K[1773.95]EEVPTALVEAHVR.K Q8TAQ2:704 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1773.95]HLAAVEER.K Q8TAQ2:874 Q92922:882 R.VASAAAK[1388.81]SALEEFSK.M Q8TAQ2:694 R.K[1773.95]VEEAAK.V Q8TAQ2:718 R.KTK[1773.95]VER.D Q8TAQ2:848 K.TK[1773.95]VER.D Q8TAQ2:848 R.KTK[1773.95]VER.D Q8TAQ2:848 K.TK[1388.78]VER.D Q8TAQ2:848 R.EGGGAIEEEAK[1723.9]EK.T Q8TAQ2:787 K.EPK[2470.18]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.EPK[2470.18]EPR.E Q8TAQ2:773 K.EPK[1369.71]EPR.E Q8TAQ2:773 R.VEGQATDEK[1002.55]K.E Q8TAQ2:769 K.EPK[1369.71]EPR.E Q8TAQ2:773 R.VEGQATDEK[1002.55]K.E Q8TAQ2:769 R.VEGQATDEK[1002.55]K.E Q8TAQ2:769 R.VEGQATDEK[1002.55]K.E Q8TAQ2:769 R.VEGQATDEK[1002.54]K.E Q8TAQ2:769 R.VEGQATDEK[1002.54]K.E Q8TAQ2:769 R.VEGQATDEK[1002.54]K.E Q8TAQ2:769 K.EPK[1369.71]EPR.E Q8TAQ2:773 R.VEGQATDEK[1002.55]K.E Q8TAQ2:769 K.EPK[1369.71]EPR.E Q8TAQ2:773 R.VEGQATDEK[1020.57]K.E Q8TAQ2:769 K.EPK[1369.71]EPR.E Q8TAQ2:773 K.TK[1424.82]VER.D Q8TAQ2:848 K.K[1127.63]NVPSK.S Q8TAQ2:585 K.K[1127.63]NVPSK.S Q8TAQ2:585 K.TK[3957.87]VER.D Q8TAQ2:848 R.KTK[3957.87]VER.D Q8TAQ2:848 K.NYTDK[1772.06]R.G Q86U86:675 K.DALVLHK[1061.55]VLLETR.R Q86U86:754 K.NYTDK[1772.06]R.G Q86U86:675 R.K[2166.06]FLEK.E Q86U86:1011 R.K[1138.61]FLEK.E Q86U86:1011 R.K[1138.61]FLEK.E Q86U86:1011 R.K[1138.61]FLEK.E Q86U86:1011 R.K[1138.61]FLEK.E Q86U86:1011 R.K[1138.61]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[1830.9]FLEK.E Q86U86:1011 R.K[1830.9]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[1830.9]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[1830.9]FLEK.E Q86U86:1011 R.K[1830.9]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[1830.9]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.K[2849.3]FLEK.E Q86U86:1011 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[1548.94]LPSK[284.17]VQYPDYYAIIK.E Q86U86:210 R.LISELFQK[1548.87]LPSK[284.17]VQYPDYYAIIK.E Q86U86:210 R.LISELFQK[1548.91]LPSK[284.17]VQYPDYYAIIK.E Q86U86:210 R.LISELFQK[1548.89]LPSK[284.17]VQYPDYYAIIK.E Q86U86:210 R.LISELFQK[1548.89]LPSK[284.17]VQYPDYYAIIK.E Q86U86:210 K.EPIDLK[1667.99]TIAQR.I Q86U86:231 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 K.EPIDLK[1667.99]TIAQR.I Q86U86:231 K.EPIDLK[1667.99]TIAQR.I Q86U86:231 R.LISELFQK[2902.58]LPSK.V Q86U86:210 K.EPIDLK[1667.99]TIAQR.I Q86U86:231 K.EPIDLK[1667.99]TIAQR.I Q86U86:231 K.EPIDLK[1667.99]TIAQR.I Q86U86:231 K.EPIDLK[1667.99]TIAQR.I Q86U86:231 K.EPIDLK[1667.99]TIAQR.I Q86U86:231 R.LISELFQK[1548.84]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 R.LISELFQK[2902.58]LPSK.V Q86U86:210 K.VGDC[160.03]VFIK[2183.14]SHGLVRPR.V Q86U86:1167 R.AAK[2105.16]VAEQQER.E Q86U86:1434 R.AAK[2105.16]VAEQQER.E Q86U86:1434 R.AAK[2105.16]VAEQQER.E Q86U86:1434 R.K[2849.3]NVENNR.Y Q86U86:827 R.K[2849.3]NVENNR.Y Q86U86:827 R.K[2849.3]NVENNR.Y Q86U86:827 R.K[2849.3]NVENNR.Y Q86U86:827 R.AAK[1819.94]VAEQQER.E Q86U86:1434 R.AAK[1592.82]VAEQQER.E Q86U86:1434 K.K[1293.67]ELAR.R Q86U86:485 K.KK[1293.67]ELAR.R Q86U86:485 R.NPTSK[1589.86]YYR.N Q86U86:329 K.LK[1293.67]LSR.K Q86U86:640 K.K[1293.67]KELAR.R Q86U86:484 K.K[2679.23]NIR.K Q86U86:516 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1713.97]R.K Q86U86:511 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1713.99]R.K Q86U86:511 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1714]R.K Q86U86:511 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1713.97]R.K Q86U86:511 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1713.99]R.K Q86U86:511 R.YSAK[1138.61]TK.S Q86U86:1066 R.EAEK[962.55]SEDSSGAAGLSGLHR.T Q86U86:930 R.YSAK[2166.06]TK.S Q86U86:1066 R.K[1424.79]EKLPK.E Q86U86:907 R.K[1394.75]INM[147.04]SGYILFSSEM[147.04]R.A Q86U86:1380 R.K[1394.75]INM[147.04]SGYILFSSEM[147.04]R.A Q86U86:1380 R.K[1394.73]INM[147.04]SGYILFSSEM[147.04]R.A Q86U86:1380 R.NNQGQLIAEPFYHLPSK[2549.26]K[284.17]K.Y Q86U86:414 R.EEEK[2166.06]R.E Q86U86:925 K.REEEK[2166.06]R.E Q86U86:925 R.EEEK[2166.06]R.E Q86U86:925 K.LK[1968.17]LSR.K Q86U86:640 R.VLK[1009.63]LQQVM[147.04]QAK.K Q86U86:475 K.KK[1550.92]ELAR.R Q86U86:485 R.VLK[1009.63]LQQVM[147.04]QAK.K Q86U86:475 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1566.91]R.K Q86U86:511 R.LISELFQK[284.17]LPSK[1548.87]VQYPDYYAIIK.E Q86U86:214 R.LISELFQK[284.17]LPSK[1548.88]VQYPDYYAIIK.E Q86U86:214 R.LISELFQK[284.17]LPSK[1548.88]VQYPDYYAIIK.E Q86U86:214 R.LISELFQK[284.17]LPSK[1548.89]VQYPDYYAIIK.E Q86U86:214 R.LISELFQK[284.17]LPSK[1548.91]VQYPDYYAIIK.E Q86U86:214 R.LISELFQK[284.17]LPSK[1548.87]VQYPDYYAIIK.E Q86U86:214 R.LISELFQK[284.17]LPSK[1548.86]VQYPDYYAIIK.E Q86U86:214 R.LISELFQK[284.17]LPSK[1530.89]VQYPDYYAIIK.E Q86U86:214 R.LISELFQK[284.17]LPSK[1530.89]VQYPDYYAIIK.E Q86U86:214 K.LPK[1541.8]EIEEDK.L Q86U86:912 K.HLHNDVEK[1606.92]ER.K Q86U86:904 K.HLHNDVEK[1606.92]ER.K Q86U86:904 K.LPK[1541.8]EIEEDK.L Q86U86:912 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[1009.63]R.K Q86U86:511 R.RDDIEDGDSM[147.04]ISSATSDTGSAK[881.55]R.K Q86U86:511 R.M[147.04]K[1009.63]ILFNVVLEAR.E Q86U86:524 R.M[147.04]K[1009.63]ILFNVVLEAR.E Q86U86:524 K.KK[2107.09]ELAR.R Q86U86:485 K.REEEK[1268.69]R.E Q86U86:925 R.EEEK[1424.79]REAEK.S Q86U86:925 K.EIEEDK[2166.06]LKR.E Q86U86:918 K.EIEEDK[2166.06]LKR.E Q86U86:918 K.EIEEDK[2166.06]LKR.E Q86U86:918 K.EIEEDK[2166.06]LKR.E Q86U86:918 K.SK[1592.83]GAHTTM[147.04]ADALWR.L Q86U86:1656 R.K[2849.3]NVENNR.Y Q86U86:827 R.K[2849.3]NVENNR.Y Q86U86:827 R.K[1846.78]NVENNR.Y Q86U86:827 R.K[2849.3]NVENNR.Y Q86U86:827 R.K[2849.3]NVENNR.Y Q86U86:827 R.K[2849.3]NVENNR.Y Q86U86:827 K.K[1394.75]AEYEER.A Q86U86:1425 K.LK[1589.86]LSR.K Q86U86:640 K.LK[1589.86]LSR.K Q86U86:640 R.YNVPNSAIYK[1566.92]R.V Q86U86:471 R.YNVPNSAIYK[1566.92]R.V Q86U86:471 K.RYNVPNSAIYK[1566.92]R.V Q86U86:471 R.YNVPNSAIYK[1566.91]R.V Q86U86:471 K.RYNVPNSAIYK[1566.92]R.V Q86U86:471 K.RYNVPNSAIYK[1566.91]R.V Q86U86:471 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.YNVPNSAIYK[1566.92]R.V Q86U86:471 R.VLK[1589.86]LQQVM[147.04]QAK[284.17]K.K Q86U86:475 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 R.VLK[1745.96]LQQVMQAK.K Q86U86:475 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.YNVPNSAIYK[1566.92]R.V Q86U86:471 R.YNVPNSAIYK[1566.91]R.V Q86U86:471 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 K.RYNVPNSAIYK[1566.9]R.V Q86U86:471 R.YNVPNSAIYK[1566.92]R.V Q86U86:471 K.RYNVPNSAIYK[1566.92]R.V Q86U86:471 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 R.VLK[1589.86]LQQVMQAK.K Q86U86:475 K.RYNVPNSAIYK[1566.91]R.V Q86U86:471 R.YNVPNSAIYK[1566.89]R.V Q86U86:471 K.LK[2107.09]LSR.K Q86U86:640 K.K[1819.94]ELAR.R Q86U86:485 K.KK[1819.94]ELAR.R Q86U86:485 R.LTGPSHSK[1566.92]GSLGEER.N Q86U86:317 R.NPTSK[1819.94]YYR.N Q86U86:329 R.NPTSK[1819.94]YYR.N Q86U86:329 R.NPTSK[1819.94]YYR.N Q86U86:329 R.NPTSK[1819.94]YYR.N Q86U86:329 R.NPTSK[1819.94]YYR.N Q86U86:329 R.LTGPSHSK[1293.67]GSLGEER.N Q86U86:317 R.NPTSK[1819.94]YYR.N Q86U86:329 R.NPTSK[1819.94]YYR.N Q86U86:329 R.NPTSK[1819.94]YYR.N Q86U86:329 R.DYK[1819.94]DEQGR.L Q86U86:61 R.YNVPNSAIYK[1819.94]R.V Q86U86:471 R.YNVPNSAIYK[1819.94]R.V Q86U86:471 K.K[2183.14]AEYEER.A Q86U86:1425 K.K[2183.14]AEYEER.A Q86U86:1425 R.NLETAK[2183.14]K.A Q86U86:1424 R.NLETAK[2183.14]K.A Q86U86:1424 R.NLETAK[2183.14]K.A Q86U86:1424 R.AVIK[2183.14]AQHPDYSFGELSR.L Q86U86:1398 R.LTGPSHSK[2183.14]GSLGEER.N Q86U86:317 R.NPTSK[2183.14]YYR.N Q86U86:329 R.NPTSK[2183.14]YYR.N Q86U86:329 R.DYK[2183.14]DEQGR.L Q86U86:61 R.YNVPNSAIYK[2183.14]R.V Q86U86:471 R.YNVPNSAIYK[2183.14]R.V Q86U86:471 R.AAK[2183.14]VAEQQER.E Q86U86:1434 R.K[2183.14]NVENNR.Y Q86U86:827 R.LK[1554.79]LIANNTTVER.R O96019:379 R.LK[1554.76]LIANNTTVER.R O96019:379 R.LK[1554.81]LIANNTTVER.R O96019:379 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.KEK[1309.67]LPQVTR.S O96019:242 R.K[284.17]EK[1309.67]LPQVTR.S O96019:242 R.EGSPANWK[1363.82]R.K O96019:238 R.EGSPANWK[1363.82]R.K O96019:238 R.K[1309.7]EK[284.17]LPQVTR.S O96019:240 R.EGSPANWK[1363.82]R.K O96019:238 R.EK[2019.05]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[2018.98]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1876.88]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1876.89]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 R.EK[1859.8]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.EK[1859.82]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.EK[1876.86]LTELM[147.04]FEHYNIPAFFLC[160.03]K.T O96019:135 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 K.QEYEEGGK[2795.41]QC[160.03]VER.K O96019:421 R.GFK[1370.7]YLR.L P51532:1122 R.GFK[1717.93]YLR.L P51532:1122 R.K[851.56]EK[284.17]AQDR.L P51532:1602 K.VIQAGM[147.04]FDQK[1272.69]SSSHER.R P51531:1207 P51532:1237 K.VIQAGM[147.04]FDQK[1272.67]SSSHER.R P51531:1207 P51532:1237 R.EQKK[939.54]ENER.I P51532:517 R.EQKK[939.54]ENER.I P51532:517 R.EQKK[939.53]ENER.I P51532:517 K.VK[795.49]IK[284.17]LGR.K P51532:1596 R.SVTGK[1839.98]IQK.L P51532:496 R.SVTGK[1839.98]IQK.L P51532:496 R.SVTGK[1839.98]IQK.L P51532:496 R.LK[1717.93]GGR.R P51532:1610 R.LK[1717.93]GGR.R P51532:1610 R.NHK[1717.93]YR.S P51531:1460 P51532:1518 R.NHK[1717.93]YR.S P51531:1460 P51532:1518 R.NHK[1370.7]YR.S P51531:1460 P51532:1518 R.LDGTTK[1717.93]AEDR.G P51532:1131 R.NHK[2081.16]YR.S P51531:1460 P51532:1518 R.NHK[2081.16]YR.S P51531:1460 P51532:1518 R.NHK[2081.16]YR.S P51531:1460 P51532:1518 R.NHK[2081.16]YR.S P51531:1460 P51532:1518 R.NHK[2081.16]YR.S P51531:1460 P51532:1518 R.IRNHK[2081.16]YR.S P51531:1460 P51532:1518 R.IRNHK[2081.16]YR.S P51531:1460 P51532:1518 R.IRNHK[2081.16]YR.S P51531:1460 P51532:1518 R.IRNHK[2081.16]YR.S P51531:1460 P51532:1518 K.K[998.58]IK[284.17]ER.I P51531:1451 P51532:1509 R.K[982.51]PVDFK[284.17]K.I P51531:1445 P51532:1503 R.NHK[1126.68]YR.S P51531:1460 P51532:1518 R.K[1251.72]PVDFK.K P51531:1445 P51532:1503 R.K[1251.72]PVDFK.K P51531:1445 P51532:1503 K.K[284.17]IK[998.6]ER.I P51531:1453 P51532:1511 R.ASGK[1004.68]FELLDR.I P51531:1051 P51532:1081 R.GFK[1400.77]YLR.L P51532:1122 K.KK[2736.37]IPDPDSDDVSEVDAR.H P51532:689 K.KK[2736.37]IPDPDSDDVSEVDAR.H P51532:689 R.K[795.5]EK[284.17]AQDR.L P51532:1602 R.K[795.49]EK[284.17]AQDR.L P51532:1602 R.K[795.5]EK[284.17]AQDR.L P51532:1602 K.QQK[940.49]IEQER.K P51531:437 P51532:461 K.QQK[940.48]IEQER.K P51531:437 P51532:461 K.QQK[940.49]IEQER.K P51531:437 P51532:461 R.SRDK[1931.95]DDESK.K P51532:1433 R.SRDK[1931.95]DDESK.K P51532:1433 R.SRDK[1931.95]DDESK.K P51532:1433 R.EQK[940.53]KENER.I P51532:516 R.IEK[2011.05]ER.M P51531:500 P51532:524 R.EQK[939.54]KENER.I P51532:516 R.E[111.03]QK[939.55]KENER.I P51532:516 R.IEK[1325.69]ER.M P51531:500 P51532:524 R.IEK[1325.69]ER.M P51531:500 P51532:524 R.EQK[939.54]KENER.I P51532:516 R.IEK[1325.69]ER.M P51531:500 P51532:524 R.K[1301.82]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.8]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.78]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.8]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1301.8]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1683.95]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1683.97]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1683.95]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1683.96]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.K[1683.94]DLYANTVLSGGTTM[147.04]YPGIADR.M P60709:291 R.LDM[147.04]EIDGQK[681.46]LR.D Q12824:199 R.LDM[147.04]EIDGQK[681.45]LR.D Q12824:199 R.LDMEIDGQK[681.45]LR.D Q12824:199 R.LDM[147.04]EIDGQK[681.44]LR.D Q12824:199 K.YDATK[284.17]QK[1155.64]R.K Q96GM5:230 K.YDATKQK[1311.73]R.K Q96GM5:230 R.K[1416.76]RPAPQQIQQVQQQAVQNR.N Q96GM5:101 R.K[2510.38]FSSFFK.S Q6STE5:200 Q96GM5:232 Q92925:248 R.VM[147.04]AAIEK[1110.64]VR.K Q4VC05:27 R.VM[147.04]AAIEK[1110.64]VR.K Q4VC05:27 R.VM[147.04]AAIEK[1110.64]VR.K Q4VC05:27 R.VM[147.04]AAIEK[1110.64]VR.K Q4VC05:27 R.VM[147.04]AAIEK[1110.64]VR.K Q4VC05:27 R.HQEK[2093.08]K.R Q969G3:255 R.HQEK[2093.08]K.R Q969G3:255 R.HQEK[2093.08]K.R Q969G3:255 R.HQEK[2093.08]K.R Q969G3:255 R.HQEK[1936.98]K.R Q969G3:255 R.HQEK[1936.98]K.R Q969G3:255 R.HQEK[1936.98]KR.K Q969G3:255 R.HQEK[2093.08]K.R Q969G3:255 R.K[1425.71]RQEER.E Q969G3:298 R.K[1425.71]RQEER.E Q969G3:298 R.K[1425.71]RQEER.E Q969G3:298 R.K[1425.71]RQEER.E Q969G3:298 R.K[1425.71]RQEER.E Q969G3:298 R.K[1425.71]RQEER.E Q969G3:298 R.K[1425.71]RQEER.E Q969G3:298 K.FLESTDSFNNELK[1701.88]R.L Q969G3:271 K.FLESTDSFNNELK[1701.88]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.87]R.L Q969G3:271 K.FLESTDSFNNELK[1701.85]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.88]R.L Q969G3:271 K.FLESTDSFNNELK[1701.89]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.88]R.L Q969G3:271 K.FLESTDSFNNELK[1701.87]R.L Q969G3:271 K.FLESTDSFNNELK[1701.9]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.87]R.L Q969G3:271 K.FLESTDSFNNELK[1701.88]R.L Q969G3:271 K.FLESTDSFNNELK[1701.89]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.83]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.85]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.86]R.L Q969G3:271 R.KFLESTDSFNNELK[1701.9]R.L Q969G3:271 R.VEGK[3125.72]LLDDPSK.Q Q6STE5:189 Q92925:237 R.VEGK[3125.72]LLDDPSK.Q Q6STE5:189 Q92925:237 R.VEGK[3125.72]LLDDPSK.Q Q6STE5:189 Q92925:237 R.VEGK[3125.72]LLDDPSK.Q Q6STE5:189 Q92925:237 R.VEGK[3125.72]LLDDPSK.Q Q6STE5:189 Q92925:237 K.K[1785.96]VQEAAR.A Q92922:740 K.K[1785.96]VQEAAR.A Q92922:740 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 R.VASAAAK[1785.96]AALEEFSR.V Q92922:716 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.AK[1785.96]HLAAVEER.K Q8TAQ2:874 Q92922:882 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.VASAAAK[2140.23]AALEEFSR.V Q92922:716 R.K[1542.77]PVSFR.Q Q92922:292 R.K[1437.78]PVSFR.Q Q92922:292 R.K[1907.01]PVSFR.Q Q92922:292 R.K[1437.78]PVSFR.Q Q92922:292 K.SK[1529.82]TPEIYLAYR.N Q8TAQ2:457 Q92922:482 R.K[1244.69]ASANAR.K Q92922:317 R.K[1843.87]ASANAR.K Q92922:317 R.K[1388.77]IKSLVALLVETQM[147.04]K.K Q8TAQ2:883 Q92922:891 R.KIK[1388.77]SLVALLVETQM[147.04]K.K Q8TAQ2:885 Q92922:893 R.KIK[1388.78]SLVALLVETQM[147.04]K.K Q8TAQ2:885 Q92922:893 R.KIK[1388.77]SLVALLVETQM[147.04]K.K Q8TAQ2:885 Q92922:893 R.KIK[1388.77]SLVALLVETQM[147.04]K.K Q8TAQ2:885 Q92922:893 K.AK[1388.78]HLAAVEER.K Q8TAQ2:874 Q92922:882 K.NK[998.55]EKPVDLQNFGLR.T Q92922:590 K.AK[1029.53]HLAAVEER.K Q8TAQ2:874 Q92922:882 R.SPQVPAAQQM[147.04]LNFPEK[1662.91]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.92]NK.E Q92922:588 R.SPQVPAAQQM[147.04]LNFPEK[1662.91]NK.E Q92922:588 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.EK[2292.19]PVDLQNFGLR.T Q92922:592 K.K[3815.79]VQEAAR.A Q92922:740 K.K[1388.78]VQEAAR.A Q92922:740 K.K[1388.78]VQEAAR.A Q92922:740 K.K[1388.78]VQEAAR.A Q92922:740 R.K[1907.01]DGGPATK.F Q92922:34 R.K[1907.01]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 R.DRK[1907.01]ASANAR.K Q92922:317 R.K[1437.78]ASANAR.K Q92922:317 R.K[1907.01]ASANAR.K Q92922:317 R.K[1437.78]ASANAR.K Q92922:317 R.ITDHYK[724.46]EYSQM[147.04]QQQNTQK.V Q8WUB8:178 K.YK[2583.36]VLPTER.T Q8WUB8:241 K.YK[2583.36]VLPTER.T Q8WUB8:241 K.YK[2739.46]VLPTER.T Q8WUB8:241 R.TK[1270.71]VSSYPVALIPGQFQEYYK[284.17]R.Y Q8WUB8:249 K.YK[2583.36]VLPTER.T Q8WUB8:241 K.YK[2739.46]VLPTER.T Q8WUB8:241 K.YK[2583.36]VLPTER.T Q8WUB8:241 K.YK[2583.36]VLPTER.T Q8WUB8:241 R.TK[1270.66]VSSYPVALIPGQFQEYYK[284.17]R.Y Q8WUB8:249 R.TK[1270.67]VSSYPVALIPGQFQEYYK[284.17]R.Y Q8WUB8:249 K.YK[2739.46]VLPTER.T Q8WUB8:241 R.K[1654.97]DGPKR.S Q8WUB8:355 R.K[927.51]DGPK[284.17]R.S Q8WUB8:355 R.K[3250.41]VGR.R Q8WUB8:487 K.SKDK[1121.65]AATPR.K Q8WUB8:349 K.DK[1654.97]AATPR.K Q8WUB8:349 R.DLSHK[724.46]EK[284.17]LYLR.E Q8WUB8:118 R.DLSHK[724.45]EK[284.17]LYLR.E Q8WUB8:118 R.DLSHK[724.47]EK[284.17]LYLR.E Q8WUB8:118 R.DLSHK[1866.98]EK.L Q8WUB8:118 R.DLSHK[1866.98]EK.L Q8WUB8:118 R.K[965.57]YPDLER.R Q8WUB8:106 R.K[1185.64]DGPKR.S Q8WUB8:355 R.K[1341.74]DGPK.R Q8WUB8:355 K.GK[1185.64]ESNK.K Q8WUB8:387 R.DLSHK[284.17]EK[1185.64]LYLR.E Q8WUB8:120 K.RK[1666.94]YPDLER.R Q8WUB8:106 R.K[1121.61]YPDLER.R Q8WUB8:106 R.K[1277.71]YPDLER.R Q8WUB8:106 R.DLSHK[1341.74]EK.L Q8WUB8:118 R.DLSHK[1341.74]EK.L Q8WUB8:118 R.DLSHK[1341.74]EK.L Q8WUB8:118 K.RK[724.45]YPDLER.R Q8WUB8:106 K.RK[724.46]YPDLER.R Q8WUB8:106 R.K[1185.64]YPDLER.R Q8WUB8:106 R.K[1185.64]YPDLER.R Q8WUB8:106 R.K[1341.74]YPDLER.R Q8WUB8:106 K.EK[1185.64]LYLR.E Q8WUB8:120 K.EK[1185.64]LYLR.E Q8WUB8:120 K.EK[1341.74]LYLR.E Q8WUB8:120 R.SDEVIDLM[147.04]IK[1185.63]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.64]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.63]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.64]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.65]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.63]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.63]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.63]EYPAK.H Q8WUB8:152 R.SDEVIDLM[147.04]IK[1185.64]EYPAK.H Q8WUB8:152 R.K[2016.05]YPDLER.R Q8WUB8:106 R.K[2016.05]YPDLER.R Q8WUB8:106 R.SDEVIDLM[147.04]IK[1185.68]EYPAK.H Q8WUB8:152 R.K[1866.98]YPDLER.R Q8WUB8:106 R.K[1866.98]YPDLER.R Q8WUB8:106 R.K[1866.98]YPDLER.R Q8WUB8:106 K.RK[2455.27]YPDLER.R Q8WUB8:106 K.EYPAK[1185.65]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 K.EYPAK[1185.63]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 K.EYPAK[1185.62]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 K.EYPAK[1185.64]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 K.EYPAK[1185.63]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 K.EYPAK[1185.66]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLER.R Q8WUB8:106 K.EYPAK[1185.64]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 K.EYPAK[1185.63]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 K.EYPAK[1185.66]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLER.R Q8WUB8:106 K.EYPAK[1185.63]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLER.R Q8WUB8:106 K.EYPAK[1185.64]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 K.EYPAK[1185.64]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 K.EYPAK[1341.75]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 K.EYPAK[1185.64]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 K.EYPAK[1185.64]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 K.EYPAK[1185.65]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 K.EYPAK[1185.67]HAEYSVILQEK[284.17]ER.Q Q8WUB8:157 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 K.E[111.03]YPAK[1185.63]HAEYSVILQEK.E Q8WUB8:157 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 K.RK[2455.27]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2455.27]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 K.RK[2455.27]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLER.R Q8WUB8:106 K.RK[2455.27]YPDLER.R Q8WUB8:106 K.RK[2170.13]YPDLER.R Q8WUB8:106 K.RK[2455.27]YPDLER.R Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2170.13]YPDLERR.D Q8WUB8:106 R.K[2739.46]VGR.R Q8WUB8:487 K.VEASK[966.61]VPEYIK.K Q8WUB8:195 K.VPEYIK[284.17]K[1528.79]AAK.K Q8WUB8:202 K.VPEYIK[284.17]K[1528.79]AAK.K Q8WUB8:202 K.K[682.43]AAEFNSNLNR.E Q8WUB8:206 K.DK[1866.98]AATPR.K Q8WUB8:349 K.HAEYSVILQEK[1023.57]ER.Q Q8WUB8:168 R.K[1866.98]VGR.R Q8WUB8:487 R.K[1866.98]VGR.R Q8WUB8:487 R.K[1866.98]VGRR.G Q8WUB8:487 K.YK[1866.98]VLPTER.T Q8WUB8:241 R.ITDHYK[1867.01]EYSQM[147.04]QQQNTQK.V Q8WUB8:178 R.ITDHYK[1867.01]EYSQM[147.04]QQQNTQK.V Q8WUB8:178 R.DLSHK[284.17]EK[724.46]LYLR.E Q8WUB8:120 R.DLSHK[284.17]EK[724.46]LYLR.E Q8WUB8:120 K.EK[1866.98]LYLR.E Q8WUB8:120 K.EK[1866.98]LYLR.E Q8WUB8:120 R.K[1238.7]DGPK.R Q8WUB8:355 K.SK[809.46]DK[284.17]AATPR.K Q8WUB8:347 Unique_(—) protein2 subunit2 realpep2 position2 1 SMARCA2 EQKKETER 493 2 SMARCA2 NHKYR 1460 2 SMARCA2 NHKYR 1460 2 SMARCA2 NHKYR 1460 1 SMARCA2 EQKKETER 492 2 SMARCD3 VEGKLLDDPSK 189 1 ARID2 KGLAFLDELR 15 1 ARID2 KGLAFLDELR 15 1 ARID2 KGLAFLDELR 15 1 ARID2 AQKAIVNHPSAALMALR 1731 1 ARID2 AQKAIVNHPSAALMALR 1731 1 ARID2 AQKAIVNHPSAALMALR 1731 1 ARID2 AQKAIVNHPSAALMALR 1731 1 ARID2 TVFPNHTVKR 581 1 ARID2 TVFPNHTVKR 581 1 ARID2 TVFPNHTVKR 581 1 ARID2 EEEAKEATGLHVHER 1251 1 ARID2 EEEAKEATGLHVHER 1251 1 ARID2 EEEAKEATGLHVHER 1251 1 ARID2 VHHFGEDDDEVPPGNPKPQLPIGAIPSSYNYQQHSVSDYLR 119 1 ARID2 VTTLGGFAKVSEK 62 1 BRD7 FKSNNLER 307 1 BRD7 FKSNNLER 307 1 BRD7 IVKESGGK 323 1 BRD7 IVKESGGK 323 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLKEVVESEGER 828 1 SMARCC2 EPKEGQEEVLK 828 1 SMARCC2 EPKEGQEEVLK 828 1 SMARCC2 KEPKEPR 773 1 SMARCC2 KEPKEPR 773 1 SMARCC2 KEPKEPR 773 1 SMARCC2 EKTSEAPK 789 1 SMARCC2 EKTSEAPK 789 1 SMARCC2 GKEGDSEK 802 1 SMARCC2 GKEGDSEK 802 1 SMARCC2 KDEEK 796 1 SMARCC2 KDEEK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEK 796 1 SMARCC2 KDEEK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEKGK 800 1 SMARCC2 EKEPK 825 1 SMARCC2 EKEPK 825 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 KKDGGPNVK 6 1 SMARCC2 TPQQTSASQQMLNFPDKGK 564 1 SMARCC2 TSEAPKKDEEK 796 1 SMARCC2 TSEAPKKDEEK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 TSEAPKKDEEK 796 1 SMARCC2 KDEEKGK 796 1 SMARCC2 KDEEK 796 1 SMARCC2 KDEEK 796 1 SMARCC2 KDEEK 796 1 SMARCC2 TSEAPKKDEEK 795 1 SMARCC2 TSEAPKKDEEK 795 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KVEEAAK 718 1 SMARCC2 GKEGDSEKESEK 808 1 SMARCC2 GKEGDSEKESEK 808 1 SMARCC2 GKEGDSEKESEK 808 1 SMARCC2 GKEGDSEK 802 1 SMARCC2 GKEGDSEK 802 1 SMARCC2 GKEGDSEK 802 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 846 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 EGQEEVLKEVVESEGER 836 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KVEEAAK 718 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 TKVER 848 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 1 SMARCC2 MKEEVPTALVEAHVR 704 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 2 SMARCC2 AKHLAAVEER 874 1 SMARCC2 VASAAAKSALEEFSK 694 1 SMARCC2 KVEEAAK 718 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 KTKVER 848 1 SMARCC2 TKVER 848 1 SMARCC2 EGGGAIEEEAKEK 787 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 EPKEPR 773 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 EPKEPR 773 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 EPKEPR 773 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 EPKEPR 773 1 SMARCC2 VEGQATDEKK 769 1 SMARCC2 EPKEPR 773 1 SMARCC2 TKVER 848 1 SMARCC2 KNVPSK 585 1 SMARCC2 KNVPSK 585 1 SMARCC2 TKVER 848 1 SMARCC2 KTKVER 848 1 PBRM NYTDKR 675 1 PBRM DALVLHKVLLETR 754 1 PBRM NYTDKR 675 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM KFLEK 1011 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSKVQYPDYYAIIK 210 1 PBRM LISELFQKLPSKVQYPDYYAIIK 210 1 PBRM LISELFQKLPSKVQYPDYYAIIK 210 1 PBRM LISELFQKLPSKVQYPDYYAIIK 210 1 PBRM LISELFQKLPSKVQYPDYYAIIK 210 1 PBRM EPIDLKTIAQR 231 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM EPIDLKTIAQR 231 1 PBRM EPIDLKTIAQR 231 1 PBRM LISELFQKLPSK 210 1 PBRM EPIDLKTIAQR 231 1 PBRM EPIDLKTIAQR 231 1 PBRM EPIDLKTIAQR 231 1 PBRM EPIDLKTIAQR 231 1 PBRM EPIDLKTIAQR 231 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM LISELFQKLPSK 210 1 PBRM VGDCVFIKSHGLVRPR 1167 1 PBRM AAKVAEQQER 1434 1 PBRM AAKVAEQQER 1434 1 PBRM AAKVAEQQER 1434 1 PBRM KNVENNR 827 1 PBRM KNVENNR 827 1 PBRM KNVENNR 827 1 PBRM KNVENNR 827 1 PBRM AAKVAEQQER 1434 1 PBRM AAKVAEQQER 1434 1 PBRM KELAR 485 1 PBRM KKELAR 485 1 PBRM NPTSKYYR 329 1 PBRM LKLSR 640 1 PBRM KKELAR 484 1 PBRM KNIR 516 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM YSAKTK 1066 1 PBRM EAEKSEDSSGAAGLSGLHR 930 1 PBRM YSAKTK 1066 1 PBRM KEKLPK 907 1 PBRM KINMSGYILFSSEMR 1380 1 PBRM KINMSGYILFSSEMR 1380 1 PBRM KINMSGYILFSSEMR 1380 1 PBRM NNQGQLIAEPFYHLPSKKK 414 1 PBRM EEEKR 925 1 PBRM REEEKR 925 1 PBRM EEEKR 925 1 PBRM LKLSR 640 1 PBRM VLKLQQVMQAK 475 1 PBRM KKELAR 485 1 PBRM VLKLQQVMQAK 475 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM LISELFQKLPSKVQYPDYYAIIK 214 1 PBRM LPKEIEEDK 912 1 PBRM HLHNDVEKER 904 1 PBRM HLHNDVEKER 904 1 PBRM LPKEIEEDK 912 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM RDDIEDGDSMISSATSDTGSAKR 511 1 PBRM MKILFNVVLEAR 524 1 PBRM MKILFNVVLEAR 524 1 PBRM KKELAR 485 1 PBRM REEEKR 925 1 PBRM EEEKREAEK 925 1 PBRM EIEEDKLKR 918 1 PBRM EIEEDKLKR 918 1 PBRM EIEEDKLKR 918 1 PBRM EIEEDKLKR 918 1 PBRM SKGAHTTMADALWR 1656 1 PBRM KNVENNR 827 1 PBRM KNVENNR 827 1 PBRM KNVENNR 827 1 PBRM KNVENNR 827 1 PBRM KNVENNR 827 1 PBRM KNVENNR 827 1 PBRM KAEYEER 1425 1 PBRM LKLSR 640 1 PBRM LKLSR 640 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM RYNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM RYNVPNSAIYKR 471 1 PBRM RYNVPNSAIYKR 471 1 PBRM VLKLQQVMQAK 475 1 PBRM YNVPNSAIYKR 471 1 PBRM VLKLQQVMQAKK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM VLKLQQVMQAK 475 1 PBRM RYNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM RYNVPNSAIYKR 471 1 PBRM VLKLQQVMQAK 475 1 PBRM VLKLQQVMQAK 475 1 PBRM RYNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM LKLSR 640 1 PBRM KELAR 485 1 PBRM KKELAR 485 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM NPTSKYYR 329 1 PBRM NPTSKYYR 329 1 PBRM NPTSKYYR 329 1 PBRM NPTSKYYR 329 1 PBRM NPTSKYYR 329 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM NPTSKYYR 329 1 PBRM NPTSKYYR 329 1 PBRM NPTSKYYR 329 1 PBRM DYKDEQGR 61 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM KAEYEER 1425 1 PBRM KAEYEER 1425 1 PBRM NLETAKK 1424 1 PBRM NLETAKK 1424 1 PBRM NLETAKK 1424 1 PBRM AVIKAQHPDYSFGELSR 1398 1 PBRM LTGPSHSKGSLGEER 317 1 PBRM NPTSKYYR 329 1 PBRM NPTSKYYR 329 1 PBRM DYKDEQGR 61 1 PBRM YNVPNSAIYKR 471 1 PBRM YNVPNSAIYKR 471 1 PBRM AAKVAEQQER 1434 1 PBRM KNVENNR 827 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A LKLIANNTTVER 379 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 242 1 ACTL6A KEKLPQVTR 242 1 ACTL6A EGSPANWKR 238 1 ACTL6A EGSPANWKR 238 1 ACTL6A KEKLPQVTR 240 1 ACTL6A EGSPANWKR 238 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A EKLTELMFEHYNIPAFFLCK 135 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 ACTL6A QEYEEGGKQCVER 421 1 SMARCA4 GFKYLR 1122 1 SMARCA4 GFKYLR 1122 1 SMARCA4 KEKAQDR 1602 2 SMARCA4 VIQAGMFDQKSSSHER 1237 2 SMARCA4 VIQAGMFDQKSSSHER 1237 1 SMARCA4 EQKKENER 517 1 SMARCA4 EQKKENER 517 1 SMARCA4 EQKKENER 517 1 SMARCA4 VKIKLGR 1596 1 SMARCA4 SVTGKIQK 496 1 SMARCA4 SVTGKIQK 496 1 SMARCA4 SVTGKIQK 496 1 SMARCA4 LKGGR 1610 1 SMARCA4 LKGGR 1610 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 1 SMARCA4 LDGTTKAEDR 1131 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 NHKYR 1518 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 IRNHKYR 1518 2 SMARCA4 KIKER 1509 2 SMARCA4 KPVDFKK 1503 2 SMARCA4 NHKYR 1518 2 SMARCA4 KPVDFK 1503 2 SMARCA4 KPVDFK 1503 2 SMARCA4 KIKER 1511 2 SMARCA4 ASGKFELLDR 1081 1 SMARCA4 GFKYLR 1122 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 1 SMARCA4 KKIPDPDSDDVSEVDAR 689 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 1 SMARCA4 KEKAQDR 1602 2 SMARCA4 QQKIEQER 461 2 SMARCA4 QQKIEQER 461 2 SMARCA4 QQKIEQER 461 1 SMARCA4 SRDKDDESK 1433 1 SMARCA4 SRDKDDESK 1433 1 SMARCA4 SRDKDDESK 1433 1 SMARCA4 EQKKENER 516 2 SMARCA4 IEKER 524 1 SMARCA4 EQKKENER 516 1 SMARCA4 EQKKENER 516 2 SMARCA4 IEKER 524 2 SMARCA4 IEKER 524 1 SMARCA4 EQKKENER 516 2 SMARCA4 IEKER 524 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 ACTB KDLYANTVLSGGTTMYPGIADR 291 1 SMARCB1 LDMEIDGQKLR 199 1 SMARCB1 LDMEIDGQKLR 199 1 SMARCB1 LDMEIDGQKLR 199 1 SMARCB1 LDMEIDGQKLR 199 1 SMARCD1 YDATKQKR 230 1 SMARCD1 YDATKQKR 230 1 SMARCD1 KRPAPQQIQQVQQQAVQNR 101 3 SMARCD1 KFSSFFK 232 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 BCL7A VMAAIEKVR 27 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKK 255 1 SMARCE1 HQEKKR 255 1 SMARCE1 HQEKK 255 1 SMARCE1 KRQEER 298 1 SMARCE1 KRQEER 298 1 SMARCE1 KRQEER 298 1 SMARCE1 KRQEER 298 1 SMARCE1 KRQEER 298 1 SMARCE1 KRQEER 298 1 SMARCE1 KRQEER 298 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 FLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 1 SMARCE1 KFLESTDSFNNELKR 271 2 SMARCD2 VEGKLLDDPSK 237 2 SMARCD2 VEGKLLDDPSK 237 2 SMARCD2 VEGKLLDDPSK 237 2 SMARCD2 VEGKLLDDPSK 237 2 SMARCD2 VEGKLLDDPSK 237 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 2 SMARCC1 AKHLAAVEER 882 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 VASAAAKAALEEFSR 716 1 SMARCC1 KPVSFR 292 1 SMARCC1 KPVSFR 292 1 SMARCC1 KPVSFR 292 1 SMARCC1 KPVSFR 292 2 SMARCC1 SKTPEIYLAYR 482 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 2 SMARCC1 KIKSLVALLVETQMK 891 2 SMARCC1 KIKSLVALLVETQMK 893 2 SMARCC1 KIKSLVALLVETQMK 893 2 SMARCC1 KIKSLVALLVETQMK 893 2 SMARCC1 KIKSLVALLVETQMK 893 2 SMARCC1 AKHLAAVEER 882 1 SMARCC1 NKEKPVDLQNFGLR 590 2 SMARCC1 AKHLAAVEER 882 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 SPQVPAAQQMLNFPEKNK 588 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 EKPVDLQNFGLR 592 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KVQEAAR 740 1 SMARCC1 KDGGPATK 34 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 DRKASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 SMARCC1 KASANAR 317 1 PHF10 ITDHYKEYSQMQQQNTQK 178 1 PHF10 YKVLPTER 241 1 PHF10 YKVLPTER 241 1 PHF10 YKVLPTER 241 1 PHF10 TKVSSYPVALIPGQFQEYYKR 249 1 PHF10 YKVLPTER 241 1 PHF10 YKVLPTER 241 1 PHF10 YKVLPTER 241 1 PHF10 YKVLPTER 241 1 PHF10 TKVSSYPVALIPGQFQEYYKR 249 1 PHF10 TKVSSYPVALIPGQFQEYYKR 249 1 PHF10 YKVLPTER 241 1 PHF10 KDGPKR 355 1 PHF10 KDGPKR 355 1 PHF10 KVGR 487 1 PHF10 SKDKAATPR 349 1 PHF10 DKAATPR 349 1 PHF10 DLSHKEKLYLR 118 1 PHF10 DLSHKEKLYLR 118 1 PHF10 DLSHKEKLYLR 118 1 PHF10 DLSHKEK 118 1 PHF10 DLSHKEK 118 1 PHF10 KYPDLER 355 1 PHF10 KDGPKR 355 1 PHF10 KDGPK 355 1 PHF10 GKESNK 387 1 PHF10 DLSHKEKLYLR 106 1 PHF10 RKYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 DLSHKEK 118 1 PHF10 DLSHKEK 118 1 PHF10 DLSHKEK 118 1 PHF10 RKYPDLER 106 1 PHF10 RKYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 EKLYLR 120 1 PHF10 EKLYLR 120 1 PHF10 EKLYLR 120 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 SDEVIDLMIKEYPAK 152 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 RKYPDLER 106 1 PHF10 EYPAKHAEYSVILQEKER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 EYPAKHAEYSVILQEKER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEKER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEKER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLERR 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEKER 157 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 EYPAKHAEYSVILQEK 157 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 RKYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 KYPDLERR 106 1 PHF10 RKYPDLER 106 1 PHF10 KYPDLER 106 1 PHF10 RKYPDLER 106 1 PHF10 RKYPDLER 106 1 PHF10 RKYPDLER 106 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLERR 106 1 PHF10 KYPDLERR 106 1 PHF10 KVGR 487 1 PHF10 VEASKVPEYIK 195 1 PHF10 VPEYIKKAAK 202 1 PHF10 VPEYIKKAAK 202 1 PHF10 KAAEFNSNLNR 206 1 PHF10 DKAATPR 349 1 PHF10 HAEYSVILQEKER 168 1 PHF10 KVGR 487 1 PHF10 KVGR 487 1 PHF10 KVGRR 487 1 PHF10 YKVLPTER 241 1 PHF10 ITDHYKEYSQMQQQNTQK 178 1 PHF10 ITDHYKEYSQMQQQNTQK 178 1 PHF10 DLSHKEKLYLR 120 1 PHF10 DLSHKEKLYLR 120 1 PHF10 EKLYLR 120 1 PHF10 EKLYLR 120 1 PHF10 KDGPK 355 1 PHF10 SKDKAATPR 347

In order to elucidate potential crosslinking preferences between subunits, Louvian two-nearest-neighbor analysis was performed herein where nodes are subunits (or paralog families) and edges are drawn between the top two crosslinking partners for each subunit, based on the number of BAF crosslinks. This clustering revealed three distinct network modules: a catalytic module containing the SMARCA ATPase subunit, B-actin, and ACTL6A, an associated module containing SMARCB1 and BCL7, and a module containing SMARCC, SMARCD, SMARCE1 and ARID1 (FIG. 3B), recapitulating the inferred assembly of components. In addition, correlation analyses of total inter-subunit crosslinks for each subunit revealed similar results (FIG. 4E).

Arthropods represent a parallel evolutionary branch to metazoans that retain at least two classes of SWI/SNF complexes, namely BAP (BAF in mammals) and PBAP (PBAF in mammals). Hence, BAP complexes were isolated herein from D. melanogaster S2 cells using insect orthologs of DPF2 (D4) and SMARCD1 (BAP60) as baits and performed CX-MS (FIGS. 4F and 4G). Similar to mammalian complexes, the ATPase module clustered with BAP55 (ACTL6A ortholog) and ACT2 (B-actin ortholog), and the moira (mor) (SMARCC ortholog) formed a tight network with BAP60, BAP111 (SMARCE1 ortholog), and Osa (ARID1 ortholog), while Snrl (SMARCB1 ortholog) and D4 separated as a distinct module (FIGS. 3C and 4H and Tables 9A-9D). These CX-MS results demonstrate conserved modularity for at least two complex modules: the BAF ATPase module and the ‘core module’ that forms around SMARCC/mor subunits. Finally, using a recently-published S. cerevisiae SWI/SNF CX-MS dataset (Sen et al. (2017) Cell Rep 18:2135-2147), it is found and presented herein similar clustering of the majority of both core and ATPase subunits, with the SNF2-centered ATPase module containing ARP7, ARP9 (potential orthologs of ACTL6A) and RTT102. SWI3 (SMARCC ortholog) and SNF12 (SMARCD ortholog) along with yeast-specific SNF6 and SWP82 form the core module, and SWI1 (ARID1 ortholog) and SNF5 (SMARCB1 ortholog) subunits cluster and bridge the core and ATPase modules (FIGS. 3D and 4I-4L). Using correlation analyses of crosslinks within individual subunit regions and domains across mammalian, fly and yeast complexes, it was discovered herein that the most highly conserved interactions were between regions of the BAF core, OSA/ARID1, and ATPase modules (FIGS. 2E, 2F, 4M, and 4N). Taken together, it is discovered herein that SWI/SNF complexes retain surprisingly specific modular organization across evolutionarily distant branches of life, indicating functional conservation of subunit architecture.

Example 4: Characterization of the BAF Core Module Components and Their Assembly

Complex purifications (FIGS. 1B and 1D) coupled with these CX-MS analyses demonstrated the presence of an early subcomplex containing SMARCD and SMARCC followed by SMARCE1 and SMARCB1 subunits (FIG. 5A). Indeed, SMARCC1 purifications showed enrichment of the same subcomplex module (FIG. 5B and Table 6C). Similar results were obtained from SMARCB1, SMARCE1 and SMARCD2 purifications (FIGS. 6A-6I and Tables 6D-6F) using both MS and fluorometric approaches, and demonstrated SMARCB1 association with the BAF core module of cBAF and PBAF (FIGS. 6C-6E). Of note, ncBAF-specific BRD9 and GLTSCR1/1L components were completely absent in these three purifications, further demonstrating that these subunits mark complexes of unique composition and lack several ubiquitously expressed, highly conserved subunits.

SMARCC subunits have been shown to form homo- and hetero-dimers (as C1/C1, C1/C2, or C2/C2), with C1/C1 homodimers found in ES cells and C1/C2 heterodimers in most differentiated cell types (Ho et al. (2009) Proc Natl Acad Sci USA 106:5181-5186; Wang et al. (1996) Genes Dev. 10:2117-2130). CX-MS analysis showed either heterodimerization (by crosslinking between paralog subunits) or homodimerization (by crosslinked residues mapping to the same position of the identical peptide sequence, hereafter termed ‘self-crosslinks’) (FIG. 5C). Self-crosslinks were abundant in SMARCC subunits and B-actin, which is known to polymerize (DPF2 also exhibited some crosslinking owing to high free subunit concentrations). Immunodepletion of SMARCC1 and SMARCC2 further revealed preferential homodimerization of this subunit family (FIG. 6J). Using colloidal blue stain and fluorometric analysis of DPF2-purified complexes to approximate relative subunit stoichiometry, it was discovered herein that most components of the complex are present in nearly 1:1 stoichiometry with the exception of SMARCC1 that displayed 1:1.6, reflecting its known dimerization (FIG. 6K). SMARCC2 displayed near 1:1 stoichiometry most likely owing to its lower expression in these cells in comparison to SMARCC1. Despite preferential homodimer formation, it was identified herein that substantial SMARCC1/C2 crosslinks, and found a region C-terminal to the SANT domain (aa 679-747) that contained the majority of self/paralog crosslinks, which is hereafter termed the dimerization region (DR), while no crosslinks were identified within established domains (FIGS. 5D and 6L). The SMARCC coiled-coil region also contained a high number of crosslinks to the SWIB domain of the SMARCD core subunit (FIG. 3A). The observation that a SMARCC/SMARCD heteromer was repeatedly found without any other BAF core module components in early gradient fractions, demonstrates that this trimer is the first mSWI/SNF assembly intermediate, which is hereafter termed the initial BAF core.

To determine the order of assembly for the BAF core module of SMARCC, SMARCD, SMARCB1, and SMARCE1 subunits, each component was systemically deleted using CRISPR-Cas9, removing all paralogs of each subunit family (i.e. SMARCC1/C2, SMARCD1/2/3, SMARCE1 (one gene) and SMARCB1 (one gene)) owing to structural redundancy. Importantly, removal of both SMARCC subunits resulted in near-complete degradation of all mSWI/SNF complex components (FIG. 6M), demonstrating the role for the SMARCC dimer as a platform for mSWI/SNF formation. Indeed, SMARCC crosslinks reveal additional binding regions aside from the DR: a conserved region (core assembly region (CAR)) that interacts with core subunits SMARCE1 and SMARCD and the R2 and CAR regions that crosslink to ARID1 subunits (FIGS. 3A, 4B, and 5E). Loss of SMARCD inhibited BAF complex assembly and resulted in complete disruption of ARID and ATPase subunit binding; nonetheless, SMARCD-deficient BAF core formation was observed in fractions 7-8 using SMARCE1 and SMARCB1 as baits for purification and in co-IP experiments (FIGS. 5F and 6M-6O and Table 6G). These data demonstrate that all three BAF core subunits bind the SMARCC dimer platform using distinct, independent interfaces.

Loss of SMARCE1 resulted in partial complex destabilization, as subunit abundance was drastically shifted toward BAF core intermediates in Fx 8-9 (FIGS. 5G and 6Q and Table 6H). Complexes were destabilized relative to WT BAF, and ARID subunits were observed in Fx 5-6, indicating that they are unable to stably bind complexes in the absence of SMARCE1. In contrast to stringent gradient sedimentation, co-IP showed that SMARCE1 loss minimally affected BAF complex formation, implicating a possible role in inter-module stability (FIG. 6M). Finally, SMARCB1 deletion resulted in minimal impact on BAF complex formation, confirming the previous observations (Nakayama et al. (2017) Nature genetics 49:1613-1623) (FIG. 6P and Table 61). However, a shift in the migration of PBAF components to Fx 12-14 (in contrast to Fx 16-17 in WT cells) was observed, indicating that SMARCB1 is important for normal PBAF stoichiometry or PBAF-specific subunit binding. Of note, in both ASMARCE1 and ASMARCB1 settings, ncBAF complex components were still readily detectable and unaffected (Fx 10-11), consistent with the finding that these complexes lack SMARCE1 and SMARCB1 (FIGS. 5G and 6P). Taken together, these data demonstrate that mSWI/SNF complex assembly is triggered by the formation of the initial BAF core (SMARCC/SMARCD) formed around the SMARCC dimer. This initial subcomplex then acts as a platform for independent docking of SMARCE1 and SMARCB1 subunits to form the BAF core module, which is required for assembly toward fully-formed cBAF and PBAF complexes (FIG. 5H).

Example 5: ARID Subunits Interact with the BAF Core Module to Facilitate Binding of the ATPase Subcomplex

CX-MS analyses indicated that BAF core components (SMARCD, SMARCC, SMARCB1, SMARCE1) strongly crosslinked with ARID subunits, ARID1A/B. The C-terminal region of ARID1A/B exhibited a large number of crosslinks to the BAF core, particularly to SMARCC and SMARCD (FIG. 7A). ARID1 proteins contain several distinct, conserved regions, including the N-terminus, ARID domain and three potential domains in the C-terminus which is hereafter termed score binding region A and B (CBR A and CBR B) and region 4 (R4) (FIGS. 3A, 4B, and 8A). CBR and R4 regions crosslink to the BAF core and ATPase subunits, respectively (FIG. 7B). For example, CBR A displays preferential binding to SMARCD1R1 and SMARCE1R2, ARID1R3 exhibits crosslinks to several SMARCC regions, and CBR B crosslinks to SMARCC CAR and SMARCD R1 and R2 regions. ARID1R4 crosslinks to ATPase components SMARCA and ACTL6A components (FIGS. 7B and 7C). These results were similar in both yeast and Drosophila, indicating conservation of the ARID/SWI1 binding modality (FIG. 8B).

The ARID domain of ARID1 subunits displayed limited crosslinking, demonstrating its involvement in complex recruitment to DNA rather than its role in assembly of the complex. Guided by these results, it was cloned and expressed herein a C-terminal ARID1A fragment containing CBR A, CBR B and R4 regions (aa1611-2285) that are predicted to stably bind and facilitate the assembly of complete BAF complexes. It was discovered herein that HA-ARID1A C-terminus is sufficient to interact with and capture fully-formed BAF complexes (FIG. 7D and Table 6J). MS analysis of lower molecular-weight gradient fractions revealed intermediates containing the BAF core module, ARID C-terminal region, and DPF2 (FIG. 7D). In addition, the ARID1A C-terminus was sufficient to enable incorporation of DPF2 into both ARID1/BAF core intermediates as well as full BAF complexes, indicating that the DPF2 subunit requires both modules for its binding.

To test this, it was performed herein DPF2 affinity purifications in BAF core module subunit deletion mutant cell lines (ASMARCB1 and ASMARCE1 lines). Importantly, a complete loss of BAF complex capture (and hence DPF2 binding) was observed in these settings as well as in ARID1A/B double KO 293T cells or MIA-Pa-Ca-2 cells (deficient in ARID1A/B) (FIGS. 8C-8G). DPF2 crosslinks to all modules of the BAF complex, indicating a large interaction interface, and consistent with its binding preference for fully-formed cBAF complexes (FIG. 8H). However, removal of the ATPase subunits SMARCA2/SMARCA4 did not disrupt DPF2 assembly (FIGS. 81 and 8J), indicating that the ATPase module is the last to be incorporated into mSWI/SNF complexes. These data corroborate results from DPF2 purifications (FIG. 1C), explaining why DPF2 exists only as part of fully-formed BAF complexes or as a free subunit, and never part of any assembly intermediates.

To define the requirement for ARID1 subunits in BAF complex assembly, it was herein analyzed SMARCD1-bound complexes in ΔARID1 (ΔARID1A/ARID1B) KO cells (FIG. 7E and Table 6K). Normal BAF core formation was observed in Fx 8-9; ncBAF was observed in Fx 10-11; and PBAF was observed in Fx 16-18. However, there were no detectable cBAF complexes in the expected Fx 13-14. These surprising data indicate that ARID proteins interact with fully-assembled BAF core modules which then enable binding of the ATPase module through interaction of the ARID R4 domain with ACTL6A and SMARCA subunits. In addition, it was found herein that ncBAF forms completely independently of the presence of ARID1 subunits, demonstrating an ARID-independent ATPase recruitment mechanism. Finally, it was purified herein SMARCD1-bound complexes in cells lacking all three mSWI/SNF family ARID proteins (ΔARID1A/ΔARID1B/ΔARID2 cells). Despite intact assembly of the BAF core module, upon losing ARID2 in addition to ARID1A/B, assembly of both BAF and PBAF complexes was completely inhibited (FIG. 7F and Table 6L).

These results demonstrate that ARID proteins nucleate complex-specific branching into BAF and PBAF complexes (ARID1A/B for BAF and ARID2 for PBAF). To detect ARID-containing intermediate complexes, SMARCD1 purifications were performed from HEK-293T cells lacking both ATPases (ASMARCA2/ASMARCA4), followed by native complex gradient separation and MS (FIG. 7G, and Table 6M). It was detected herein complexes of smaller size, similar to DPF2-purified BAF complexes from SW13 cells (FIGS. 81 and 8J) which resolved partially-formed ncBAF complexes (consisting of the initial core (SMARCC/SMARCD1) and BRD9/GLTSCR but lacking the ATPase and its associated components in Fx 6-7), which was termed the ncBAF core module, BAF core module components SMARCB1 and SMARCE1 which do not bind ncBAF (Fx 8-9), and a mixture of BAF/PBAF intermediates containing core module, ARID1 or ARID2, and the PBAF-specific subunit BRD7 (Fx 10-11) (indicating that BRD7 is the next PBAF-specific member to assemble on to the core/ARID modules) (FIG. 7G). Global co-IP and immunoblot confirmed findings across a range of mutant cell lines (FIG. 8K).

Example 6: The ATPase Module Finalizes Assembly of all Three mSWI/SNF Family Complexes

SMARCA2 and SMARCA4 ATPases crosslink extensively with components previously identified to engage with the ATPase, such as β-actin and ACTL6A (Zhao et al. (1998) Cell 95:625-636), as well as BCL7A/B/C and SS18/SS18L1 (FIGS. 9A and 10A). Substantial crosslinks were detected between ACTL6A and B-actin and the SMARCA2/4 HSA domain, and between B-actin and ACTL6A (FIG. 9B). It was discovered herein similar interaction preferences for the actin-like proteins and the HSA and catalytic domains across species (FIG. 10B). In further support of the model in which ARID1 bridges the BAF core and ATPase modules, it was detected herein a large number of crosslinks between ACTL6A and the ARID1C-terminal R4, as well as between SMARCA2/4 and ARID1 CBR A and B (FIG. 9B). In addition, R2 of SMARCA crosslinks with both ARID1 subunits as well as other BAF core components including SMARCC R2 and SMARCD R1. N-termini of both SS18 and BCL7 crosslink to the N-terminal R1 and HSA domains of SMARCA subunits, respectively.

To reveal whether ATPases and their associated subunits form a separate module, SMARCA4-bound complexes were purified. Indeed, the ATPase module in Fx 6-9 was clearly separated from ATPase module-containing full BAF complexes (FIGS. 9C, 9D, and 10C). In addition to cBAF complexes, SMARCA4 purification captured components of ncBAF and PBAF in expected Fx 9-10 and 15-16, respectively.

In further validation of the ATPase as a distinct module, purifications using satellite ATPase module subunits were performed. SS18-bound complexes separated on gradients in a manner similar to SMARCA4-bound complexes and captured ncBAF complexes (Fx 10-11) (FIGS. 9E and 10D-10F and Table 6N), but not PBAF subunits as SS18 does not assemble into PBAF complexes (Nakayama et al. (2017) Nature genetics 49:1613-1623), indicating a mutually exclusive competition between SS18 and PBAF-specific subunits such as PBRM1. BCL7 purifications resolved all three mSWI/SNF complexes in expected fractions (FIG. 10G), demonstrating that BCL7 proteins are pan-mSWI/SNF ATPase module components.

Louvain modularity analysis performed on MS datasets from SMARCD1, SMARCB1 and SMARCA4 purifications showed clear separation of core BAF, ATPase, and ARID modules, as well as separation between PBAF and ncBAF as branches connected to the main group of subunits through ARID2 and SMARCD1, respectively (FIGS. 9F and 10H). Co-IP and immunoblot of endogenous complexes from SMARCA2/4 KO HEK293T cells indicated intact assembly of the BAF core and ARID/DPF2 modules, but a marked and specific loss of ATPase module stability and interaction (FIG. 10I). SS18/SS18L1 double-KO cells displayed no assembly defects, apart from a general increase in PBAF complex abundance, corroborating the competition model above.

Owing to the lack of intermediate ATPase subcomplexes, it is herein concluded that each of the components of this module binds independently to the large SMARCA platform, which is then incorporated as a unit into pre-assembled BAF, PBAF, and ncBAF subcomplexes. It is herein defined a split in assembly of the ATPase modules that differs between BAF, ncBAF and PBAF, as SS18-containing complexes contained only BAF and ncBAF components, but were devoid of PBAF components. These data demonstrate that the final step of mSWI/SNF complex assembly is controlled by both specific components of the core BAF modules as well as the elements of the ATPase subcomplex components, SS18 and PBRM1 (FIG. 9G).

Example 7: Assembly of PBAF and ncBAF Complexes and the Global Mammalian SWI/SNF Assembly Pathway

To define the assembly and inter-subunit linkages of PBAF complexes, CX-MS on BRD7- and PHF10-bound complexes was performed, confirming that PBAF complexes contain the same common BAF core module as BAF complexes (FIG. 11A and Tables 10A-10D). It is detected herein PBAF intermediates containing the BAF core module, ARID2, BRD7 and PHF10 (FIG. 7G). PBAF assembly is initiated by ARID2, since its loss completely disrupts PBAF complex assembly (FIG. 8K). In order to dissect the last steps of PBAF assembly, ARID2-bound complexes were purified using a mini version of ARID2 predicted by CX-MS to bind PBAF (mARID2, aa 1-626 fused to C-terminal aa1592-1835). mARID2 displayed increased expression levels compared to full-length ARID2, sufficient to purify protein complexes (FIG. 12A and Table 6Q). Fully-formed PBAF complexes were observed in Fx 15-17 and partial assemblies were observed in Fx 12-13, with PBRM1 being the only subunit absent in PBAF subcomplex fractions, indicating that it requires full-length ARID2, other PBAF-specific subunits and the ATPase module for its incorporation. Finally, PBRM1-bound PBAF complexes migrated in Fx 15-17. MS analysis did not identify any PBRM1-containing intermediate complexes apart from its free form in Fx 2-3 (FIG. 12B), demonstrating that PBRM1 is one of the last subunits to be added to the PBAF complex via crosslinking of its C-terminus to both SMARCC and ATPase module subunits as determined by CX-MS (FIG. 11B and Tables 10A-10D).

ATPase and BAF core modules were similar to those of cBAF complexes, while interestingly, PBAF-specific subunits such as BRD7 and PBRM1 associated with both the BAF core and ATPase modules (FIGS. 11B and 12C). Purification of two other PBAF specific subunits, BRD7 and PHF10, yielded only full complexes without intermediates (FIGS. 11C and 11D). Co-IP of PBAF component KO cell lines proved to be more informative regarding the order of integration of these subunits (FIG. 11E). Loss of ARID2 resulted in loss of stability of BRD7, PBRM1, and PHF10, confirming the early role for ARID2 in PBAF assembly. BRD7 deletion minimally impacted ARID2 stability but strongly affected both PHF10 and PBRM1 interactions. Finally, PBRM1 deletion had no effect, implicating this subunit as the last to assemble into PBAF complexes. Surprisingly, significant enrichment in self crosslinks within PBRM1 was found, demonstrating its multimerization within PBAF complexes (FIG. 11F), and this finding was confirmed using biochemical approaches with tagged PBRM1 variants (FIGS. 11F-11H).

To finalize the composition and assembly of ncBAF complexes, GLTSCR1L- and BRD9-containing complexes were purified. It was identified herein complexes containing initial core SMARCC1/D1 subunits, ATPase module components, and BRD9; however, no other core subunits (SMARCC2, SMARCD2/3, SMARCE1 or SMARCB1) were identified (FIGS. 12D and 12E). GLTSCR1L purification resolved full ncBAF complexes in Fx 10-11 and subcomplexes in fractions 6-7 (FIG. 12E), highlighting the ncBAF core of SMARCC1, SMARCD1 and GLTSCR1L, the same components identified in the SMARCD1 purification from AATPase cells (FIG. 7G). BRD9 purification captured the full ncBAF complex in fractions 9-11, but failed to resolve subcomplexes, indicating that BRD9 functions similarly to BRD7 by forming partial assemblies that result in immediate incorporation of the ATPase module (FIGS. 7G, 11C, and 12F). Loss of BRD9 had no effect on SMARCD1, while BRD9 and GLTSCR1 stability were substantially impacted in SMARCD1 KO cells, substantiating the early assembly order and the critical role for SMARCD1 in the nucleation of all three mSWI/SNF family complexes (FIG. 11I).

Based on this study, the mammalian SWI/SNF assembly pathway is summarized herein (FIG. 12G). The main steps of complex assembly and branching are: (1) dimerization of SMARCC subunits; (2) formation of the BAF initial core of SMARCC/SMARCD subunits; (3) incorporation of SMARCE1 and SMARCB1 components, forming the BAF core module; or, alternatively, incorporation of GLTSCR1/1L; (4) formation of the ncBAF core module which binds BRD9 (5); canonical BAF core complexes interact with ARID1 (6) or ARID2 (6) subunits and branch into cBAF complexes (containing ARID1) and PBAF complexes (containing ARID2), respectively. (7) ARID1/BAF core intermediates bind DPF2 and (8) incorporate the SS18-containing ATPase module, finalizing cBAF assembly (9). In parallel, the PBAF complex intermediate, ARID2/BAF core, incorporates BRD7 and PHF10, and (10) subsequently recruits the SS18-negative ATPase module, which finalizes its formation by binding PBRM1 (11). The alternative BRD9/ncBAF core finalizes its formation with the integration of an SS18-containing ATPase module to form ncBAF complexes (12). Existence of multiple subunit paralogs across these three distinct mSWI/SNF complexes results in further diversification, for which the full set of possible combinations was calculated (FIG. 11J).

Example 8: Disease-Associated Mutations Affect mSWI/SNF Binding Interfaces and Subunit Stability (6677->5099)

The genes encoding mSWI/SNF complex subunits are widely mutated in human disease, most notably in cancer and intellectual disability syndromes (Bogershausen et al. (2018) Front Mol Neurosci 11:252; Kadoch and Crabtree (2015) Sci. Adv. 1:e1500447; Kadoch et al. (2013) Nature Genetics 45:592-601; Sokpor et al. (2017) Front Mol Neurosci 10:243). As the large majority of mSWI/SNF subunit mutations in cancer (FIG. 13A) result in protein loss, complexes purified from KO cell lines were analyzed by MS to assess the global impact of each subunit loss on the relative abundance of other subunits in the complex (FIG. 13B). Subunits which assemble at the earliest stages of BAF assembly are the most critical for complex assembly, with their deletions resulting in profound impacts on complex integrity. This data set excludes SMARCC-deleted cells, as this resulted in near-complete degradation of all mSWI/SNF subunits, further underscoring the important role of this initial subunit dimer as the structural foundation of all mSWI/SNF complexes (FIG. 6M). Notably, it is discovered herein that loss of SMARCB1, a well-known tumor suppressor (Versteege et al. (1998) Nature 394:203-206), has minor effects on complex stability relative to other subunits (FIGS. 6M, 6P, and 13B), indicating instead a critical regulatory role exerted by the SMARCB1-containing core module on the ATPase and its associated components. Defining the proportion of crosslinked sites between subunits lost upon gene truncating mutations showed subunits most affected by truncating mutations in cancer are PBRM1 and ARID1A, which interact with complexes primarily via C-terminal binding regions (FIG. 13C).

In addition to cancer, mSWI/SNF subunit mutations have been linked to several developmental and neurologic diseases including intellectual disability and autism-spectrum disorders, with additional mutations continuing to emerge in other rare but well-defined conditions (Sokpor et al. (2017) Front Mol Neurosci 10:243). For example, heterozygous ARID1B mutations are common in Coffin-Siris syndrome (FIG. 14A) and mutations of ACTL6A were identified in autism and shown to disrupt its interaction with SMARCA4 (Marom et al. (2017) Hum Mutat 38:1365-1371). Intriguingly, analyses presented herein revealed that these map to ACTL6A/SMARCA crosslinks (FIG. 14B). Finally, SMARCD2 mutations were reported to drive neutrophil-specific granule deficiency (SGD) (Priam et al. (2017) Nature genetics 49:753-764; Witzel et al. (2017) Nat Genet 49:742-752). These mutations result in truncation before the C-terminal region, which were demonstrated herein to remove the region containing a significant number of crosslinks to ARID1 CBR B and SMARCC, likely explaining the loss of BAF complex binding (FIG. 14C). Intriguingly, the C-terminal region of the paralog, SMARCD1, contains fewer crosslinks to these subunits, and also failed to rescue SGD phenotypes in in vivo models of SGD (Priam et al. (2017) Nature genetics 49:753-764; Witzel et al. (2017) Nat Genet 49:742-752), indicating a structural basis for paralog- and tissue-specific function of BAF subunits.

ARID1A, critical for BAF complex specification and assembly of the ATPase module, is the most frequently mutated mSWI/SNF subunit in human cancers (FIG. 13A) (Davoli et al. (2013) Cell 155:948-962; Wu et al. (2014) Cancer Biol Ther 15:655-664). ARID1A is particularly vulnerable to truncating mutations as these will result in deletion of the C-terminal binding region. However, the impact of recurrent missense mutations and small deletions within the CBR regions of ARID1A remains unknown (FIG. 13D). The most common single missense mutations in mSWI/SNF subunits (second only to mutations in the SMARCA4 helicase) result in substitution of glycine 2087 to valine, arginine or glutamic acid of ARID1A. This region corresponds to the CBRB interacting region of the protein that was identified herein (FIG. 13E). Additional recurrent missense mutations include Y2254*, resulting in a small 31aa deletion in the R4 region of the ARID 1A C-terminus involved in anchoring of the ATPase module to the BAF core module (FIG. 13F). It is discovered herein that the C-terminal ARID1A region containing the G2087R mutation did not result in loss of the interaction of ARID with BAF complexes (FIG. 14D), but its expression was substantially lower in comparison to WT ARID1A, owing to decreased protein stability as revealed by cyclohexamide chase experiments (FIG. 13G). Further, increased poly-ubiquitin signal in G2087R mutant was observed compared to WT ARID1A C-terminal protein, which further increased upon treatment with MG132, indicating proteasomal-mediated degradation (FIG. 13H). In contrast, Y2254* resulted in complete loss of interaction between ARID1A and BAF complexes (FIGS. 13I and 13J), indicating that any truncating mutations in preceding residues would similarly disrupt binding. Taken together, these studies evaluated different routes toward ARID1A disruption, each of which result in inhibited assembly of fully-formed complexes. Loss of ARID1A is not compensated by increased expression of ARID1B, which also displays lower expression in most tumor samples (FIGS. 14E-14G).

This study presents a comprehensive architectural framework for the mSWI/SNF chromatin remodeler complex family, including the assembly pathways and inter- and intra-module linkages across three distinct complexes. Integrating multiple complex purifications with size fractionation, mutagenesis, and CX-MS, it was defined herein intra-complex modular architecture and stoichiometry, evolutionary relationships, and explored the effects of disease-associated mutations on complex architecture and assembly.

One particularly unexpected result is that the initial core for all three mSWI/SNF family complexes is a heterotrimer consisting of two SMARCC subunits (as a dimer) and one SMARCD subunit. While previous in vitro subunit co-purifications had suggested a ‘minimal BAF complex’ consisting of SMARCA4, SMARCC1, SMARCC2, and SMARCB1 (Phelan et al. (1999) Mol Cell. 3:247-253), it is found herein that neither complex assembly pathways nor CX-MS profiles of full BAF or PBAF complexes implicated this tetramer as a physiologic core in mammalian cells. Indeed, these results may begin to explain the challenges that have been faced in obtaining high-resolution structural information on this complex and in using such minimal complexes for small molecule screening efforts. Importantly, this initial mSWI/SNF core is required for global complex stability and the interaction of the majority of subunits in all three mSWI/SNF complexes (FIG. 5 ). Notably, the newly-identified ncBAF complex assembles exclusively around a SMARCC1/SMARCD1 initial core and lacks SMARCE1 and SMARCB1 subunits, indicating fundamental differences and/or compensation in biochemical activity.

Interestingly, network modularity analyses of CX-MS data place SMARCB1 in the ATPase module, while biochemical purification of SMARCB1 demonstrates its presence in the BAF core module. This demonstrates SMARCB1 is involved in functionally linking the core and ATPase modules, potentially modulating ATPase or remodeling activity. Indeed, SNF5 regulates chromatin remodeling activity of the yeast complex (Sen et al. (2017) Cell Rep 18:2135-2147). While SNF5 and SMARCB1 subunits are largely dispensable for complex integrity in both yeast and human settings, respectively, it is observed herein that these orthologs exhibit different module associations in distantly-related eukaryotes, demonstrating that SMARCB1 plays an important role in dynamically regulating SWI/SNF complex activity.

ARID subunits (ARID1A, ARID1B, and ARID2) are among the most frequently mutated subunits in human disease. Importantly, it is demonstrated herein that ARID subunits are the major determinants of assembly pathway branching toward BAF or PBAF complexes. ARID subunits bind the BAF core module through the CBR regions on the C-terminus and N-terminus of ARID1 and ARID2, respectively, likely leading to the formation of a large interaction interface and forging a structurally essential bridge between the core and ATPase modules. SMARCD subunits in particular play a major role in ARID subunit binding, as their loss substantially affects ARID and subsequent ATPase module assembly. The critical role for ARID subunits is further illustrated by their interaction with ATPase module subunits SMARCA and ACTL6A. Finally, the absence of any ARID subunits in the newly-identified ncBAF complex indicate an alternative, ARID-independent mode of binding the ATPase module mediated by GLTSCR1/1L subunits.

The analysis of CX-MS-identified linkages within SWI/SNF complexes of two other eukaryotic species reveals evolutionary conservation of the complex modularity that was herein identified in mammalian cells. Conserved structural properties of these complexes indicate separation and divergence of complex functions.

Finally, the findings presented herein demonstrate that BAF inter- and intra-modular interactions are altered by mutations found in many human cancers and other diseases, and that these mutations disrupt the normal complex assembly pathway or subunit protein stability. A prime example of this lies in the extensively-mutated ARID1A subunit, including both nonsense mutations and missense mutations which are disproportionately skewed to the C-terminal domain that was discovered herein to be required for BAF complex binding.

Taken together, these studies present new opportunities for structural and functional characterization of this family of mammalian chromatin remodeling complexes which exhibit outsized roles in human disease. Understanding of the architecture and modular organization of mSWI/SNF complexes greatly potentiates the ability to assign density to subunits or modules in efforts to achieve 3D structure, to link structure to biochemical activity, and to develop meaningful small-molecule screening strategies, collectively serving as a critical foundation in the quest to define mechanisms of mSWI/SNF-mediated chromatin remodeling in normal and disease states.

INCORPORATION BY REFERENCE

All publications, patents, and patent applications mentioned herein are hereby incorporated by reference in their entirety as if each individual publication, patent or patent application was specifically and individually indicated to be incorporated by reference. In case of conflict, the present application, including any definitions herein, will control.

Also incorporated by reference in their entirety are any polynucleotide and polypeptide sequences which reference an accession number correlating to an entry in a public database, such as those maintained by The Institute for Genomic Research (TIGR) on the world wide web at tigr.org and/or the National Center for Biotechnology Information (NCBI) on the world wide web at ncbi.nlm.nih.gov.

EQUIVALENTS

Those skilled in the art will recognize, or be able to ascertain using no more than routine experimentation, many equivalents to the specific embodiments of the invention described herein. Such equivalents are intended to be encompassed by the following claims. 

What is claimed is:
 1. An isolated modified protein complex selected from the group consisting of protein complexes listed in Table 2 and/or Table 3, wherein the isolated modified protein complex comprises at least one subunit that is modified.
 2. The isolated modified protein complex of claim 1, wherein the at least one modified subunit is a fragment of the subunit.
 3. The isolated modified protein complex of claim 1 or 2, wherein the fragment of the subunit binds to at least one binding partner of the subunit to form the isolated modified protein complex.
 4. The isolated modified protein complex of any one of claims 1-3, wherein the fragment of the subunit comprises at least one interacting domain of the subunit listed in Table
 4. 5. The isolated modified protein complex of any one of claims 1-4, wherein the fragment of the subunit comprises all interacting domains of the subunit listed in Table
 4. 6. The isolated modified protein complex of any one of claims 1-5, wherein the fragment of the subunit is the ARID1A C-terminus having a sequence of SEQ ID NO:
 39. 7. The isolated modified protein complex of any one of claims 1-5, wherein the fragment of the subunit is a mini version of ARID2 (mARID2) having a sequence of SEQ ID NO:
 40. 8. The isolated modified protein complex of any one of claims 1-7, wherein at least one subunit is linked to at least another subunit.
 9. The isolated modified protein complex of any one of claims 1-8, wherein at least one subunit is linked to at least another subunit through covalent cross-links.
 10. The isolated modified protein complex of any one of claims 1-8, wherein at least one subunit is linked to at least another subunit through a peptide linker.
 11. The isolated modified protein complex of any one of claims 1-10, wherein the at least one subunit comprises a heterologous amino acid sequence.
 12. The isolated modified protein complex of any one of claims 1-11, wherein the heterologous amino acid sequence comprises an affinity tag or a label.
 13. The isolated modified protein complex of claim 12, wherein the affinity tag is selected from the group consisting of Glutathione-S-Transferase (GST), calmodulin binding protein (CBP), protein C tag, Myc tag, HaloTag, HA tag, Flag tag, His tag, biotin tag, and V5 tag.
 14. The isolated modified protein complex of claim 12, wherein the label is a fluorescent protein.
 15. The isolated modified protein complex of any one of claims 1-14, wherein the at least one subunit is selected from the group consisting of HA-SMARCD1, HA-SS18, HA-DPF2, Flag-HA-SS18, HA-SMARCC1, HA-SMARCE1, HA-ARID1A C-terminus, HA-SMARCA4, D2-HA, BAP60-HA, HA-SMARCB1, HA-SMARCD2, HA-SMARCA4, HA-BCL7A, HA-BRD7, HA-PHF10, GFP-PBRM1, and V5-PBRM1.
 16. A pharmaceutical composition comprising the isolated modified protein complex according to any one of claims 1-15 and a carrier.
 17. A process for preparing an isolated modified protein complex of any one of claims 1-15 comprising: a) expressing a modified subunit of the modified protein complex, in a host cell or organism; and b) isolating the modified protein complex comprising the modified subunit.
 18. The process of claim 17, wherein the modified subunit is a fragment thereof.
 19. The process of claim 18, wherein the fragment of the subunit binds to at least one binding partner of the subunit to form the isolated modified protein complex.
 20. The process of any one of claims 17-19, wherein the modified subunit comprises a heterologous amino acid sequence.
 21. The process of any one of claims 17-20, wherein the heterologous amino acid sequence comprises an affinity tag or a label.
 22. The process of claim 21, wherein the affinity tag comprises two different tags which allow two separate affinity purification steps.
 23. The process of claim 22, wherein the two tags are separated by a cleavage site for a protease.
 24. The process of any one of claims 21-23, wherein the affinity tag is selected from the group consisting of Glutathione-S-Transferase (GST), calmodulin binding protein (CBP), protein C tag, Myc tag, HaloTag, HA tag, Flag tag, His tag, biotin tag, and V5 tag.
 25. The process of claim 21, wherein the label is a fluorescent protein.
 26. The process of any one of claims 17-25, wherein the modified subunit is selected from the group consisting of HA-SMARCD1, HA-SS18, HA-DPF2, Flag-HA-SS18, HA-SMARCC1, HA-SMARCE1, HA-ARID1A C-terminus, HA-SMARCA4, D2-HA, BAP60-HA, HA-SMARCB1, HA-SMARCD2, HA-SMARCA4, HA-BCL7A, HA-BRD7, HA-PHF10, GFP-PBRM1, and V5-PBRM1.
 27. The process of any one of claims 17-26, wherein the isolating step comprises density sedimentation analysis.
 28. A method for screening for an agent that modulates the formation or stability of an isolated modified protein complex of any one of claims 1-15, the method comprises: a) contacting the modified protein complex, or a host cell or organism expressing the modified protein complex to a test agent, and b) determining the amount of the modified protein complex in the presence of the test agent, wherein a difference in the amount of the protein complex determined in step (b) relative to the amount of the protein complex determined in the absence of the test agent indicates that the test agent modulates the formation or stability of the protein complex.
 29. The method of claim 28, further comprising incubating subunits of the isolated modified protein complex in the presence of a compound under conditions conducive to form the modified protein complex prior to step (a).
 30. The method of claim 28 or 29, further comprises determining the presence and/or amount of the individual subunits in the isolated modified protein complex.
 31. The method of any one of claims 28-30, wherein the step of contacting occurs in vivo, ex vivo, or in vitro.
 32. The method of any one of claims 28-31, wherein at least one subunit of the isolated modified protein complex is a mutant form that is identified in a human disease.
 33. The method of any one of claims 28-32, wherein the agent inhibits the formation or stability of the isolated modified protein complex.
 34. The method of any one of claims 28-33, wherein the agent inhibits the formation or stability of the isolated modified protein complex by inhibiting the interaction between at least one interacting domain pair listed in Table
 4. 35. The method of any one of claims 28-34, wherein the agent is a small molecule inhibitor, a small molecule degrader, CRISPR guide RNA (gRNA), RNA interfering agent, oligonucleotide, peptide or peptidomimetic inhibitor, aptamer, antibody, or intrabody.
 36. The method of claim 35, wherein the RNA interfering agent is a small interfering RNA (siRNA), CRISPR RNA (crRNA), CRISPR guide RNA (gRNA), a small hairpin RNA (shRNA), a microRNA (miRNA), or a piwi-interacting RNA (piRNA).
 37. The method of claim 36, wherein the agent comprises an antibody and/or intrabody, or an antigen binding fragment thereof, which specifically binds to at least one subunit of the isolated modified protein complex.
 38. The method of claim 37, wherein the antibody and/or intrabody, or antigen binding fragment thereof, is chimeric, humanized, composite, or human.
 39. The method of claim 37 or 38, wherein the antibody and/or intrabody, or antigen binding fragment thereof, comprises an effector domain, comprises an Fc domain, and/or is selected from the group consisting of Fv, Fav, F(ab′)2, Fab′, dsFv, scFv, sc(Fv)2, and diabodies fragments.
 40. The method of any one of claims 28-32, wherein the agent enhances the formation or stability of the isolated modified protein complex.
 41. The method of claim 40, wherein the agent enhances the formation or stability of the protein complex by stabilizing the interaction between at least one interacting domain pair listed in Table
 4. 42. The method of claim 40 or 41, wherein the agent is a small molecule compound.
 43. The method of any one of claims 28-42, wherein the agent is used for inhibiting or stabilizing the isolated modified protein complex.
 44. The method of any one of claims 28-43, wherein the agent is used for modulating the ratio of the isolated modified protein complex to at least one of the fully assembled protein complexes listed in Table 2 and/or Table
 3. 45. The method of any one of claims 28-44, wherein the agent is used for modulating the amount of at least one of the fully assembled protein complexes listed in Table
 2. 46. A method for screening for an agent that binds to an isolated modified protein complex of any one of claims 1-15, the method comprises: a) contacting the modified protein complex, or a host cell or organism expressing the modified protein complex to a test agent; and b) determining whether the test agent is bound to the modified protein complex.
 47. The method of claim 46, wherein the step of contacting occurs in vivo, ex vivo, or in vitro.
 48. The method of any one of claims 28-47, wherein the agent is administered in a pharmaceutically acceptable formulation.
 49. The process or method of any one of claims 17-48, wherein the host cell is a mammalian cell.
 50. The process or method of any one of claim 49, wherein the host cell is a human cell.
 51. The process or method of any one of claims 17-48, wherein the host cell is a D. melanogaster S2 cell.
 52. The process or method of any one of claims 17-48, wherein the host cell is a yeast cell.
 53. A device or kit comprising, in one or more containers, at least one isolated modified complex according to any one of claims 1-15, said device or kit optionally comprising a substrate of the isolated modified complex, an antibody that binds to the isolated modified complex, buffers and/or working instructions.
 54. The device or kit of claim 53, wherein the device or kit is for processing a substrate of the isolated modified complex.
 55. The device or kit of claim 53 or 54, wherein the substrate is a DNA.
 56. The device or kit of claim 55, wherein the kit is for testing a compound.
 57. The device or kit of claim 53, wherein the kit is for detecting the isolated modified protein complex.
 58. The device or kit of any one of claims 53-57, wherein the kit is for diagnosis or prognosis of a disease or a disease risk.
 59. An array in which at least one of the isolated modified protein complex of any one of claims 1-15 is attached to a solid carrier.
 60. The array of claim 59, wherein the array is a microarray.
 61. A process for modifying a substrate of an isolated modified complex of any one of claims 1-15 comprising the step of bringing into contact the isolated modified complex with the substrate, such that the substrate is modified. 